Release 5 Draft Ballot

This is the Continuous Integration Build of FHIR (will be incorrect/inconsistent at times).
See the Directory of published versions

Valueset-ucum-common.xml

Vocabulary Work GroupMaturity Level: N/AStandards Status: InformativeCompartments: Not linked to any defined compartments

Raw XML (canonical form + also see XML Format Specification)

Jump past Narrative

Common UCUM codes (id = "ucum-common")

<?xml version="1.0" encoding="UTF-8"?>

<ValueSet xmlns="http://hl7.org/fhir">
  <id value="ucum-common"/> 
  <text> 
    <status value="generated"/> 
    <div xmlns="http://www.w3.org/1999/xhtml">
      <ul> 
        <li> Include these codes as defined in 
          <a href="http://unitsofmeasure.org">
            <code> http://unitsofmeasure.org</code> 
          </a> 
          <table class="none">
            <tr> 
              <td style="white-space:nowrap">
                <b> Code</b> 
              </td> 
              <td> 
                <b> Display</b> 
              </td> 
            </tr> 
            <tr> 
              <td> %</td> 
              <td> percent</td> 
            </tr> 
            <tr> 
              <td> %/100{WBC}</td> 
              <td> percent / 100 WBC</td> 
            </tr> 
            <tr> 
              <td> %{0to3Hours}</td> 
              <td> percent 0to3Hours</td> 
            </tr> 
            <tr> 
              <td> %{Abnormal}</td> 
              <td> percent Abnormal</td> 
            </tr> 
            <tr> 
              <td> %{Activity}</td> 
              <td> percent Activity</td> 
            </tr> 
            <tr> 
              <td> %{BasalActivity}</td> 
              <td> percent BasalActivity</td> 
            </tr> 
            <tr> 
              <td> %{Binding}</td> 
              <td> percent Binding</td> 
            </tr> 
            <tr> 
              <td> %{Blockade}</td> 
              <td> percent Blockade</td> 
            </tr> 
            <tr> 
              <td> %{Carboxyhemoglobin}</td> 
              <td> percent Carboxyhemoglobin</td> 
            </tr> 
            <tr> 
              <td> %{Conversion}</td> 
              <td> percent Conversion</td> 
            </tr> 
            <tr> 
              <td> %{Cound}</td> 
              <td> percent Cound</td> 
            </tr> 
            <tr> 
              <td> %{EosSeen}</td> 
              <td> percent EosSeen</td> 
            </tr> 
            <tr> 
              <td> %{Excretion}</td> 
              <td> percent Excretion</td> 
            </tr> 
            <tr> 
              <td> %{Fat}</td> 
              <td> percent Fat</td> 
            </tr> 
            <tr> 
              <td> %{FetalErythrocytes}</td> 
              <td> percent FetalErythrocytes</td> 
            </tr> 
            <tr> 
              <td> %{Hemoglobin}</td> 
              <td> percent Hemoglobin</td> 
            </tr> 
            <tr> 
              <td> %{HemoglobinA1C}</td> 
              <td> percent HemoglobinA1C</td> 
            </tr> 
            <tr> 
              <td> %{HemoglobinSaturation}</td> 
              <td> percent HemoglobinSaturation</td> 
            </tr> 
            <tr> 
              <td> %{Hemolysis}</td> 
              <td> percent Hemolysis</td> 
            </tr> 
            <tr> 
              <td> %{HumanResponse}</td> 
              <td> percent HumanResponse</td> 
            </tr> 
            <tr> 
              <td> %{Index}</td> 
              <td> percent Index</td> 
            </tr> 
            <tr> 
              <td> %{Inhibition}</td> 
              <td> percent Inhibition</td> 
            </tr> 
            <tr> 
              <td> %{Live}</td> 
              <td> percent Live</td> 
            </tr> 
            <tr> 
              <td> %{Negative Control}</td> 
              <td> percent Negative Control</td> 
            </tr> 
            <tr> 
              <td> %{Normal}</td> 
              <td> percent Normal</td> 
            </tr> 
            <tr> 
              <td> %{NormalControl}</td> 
              <td> percent NormalControl</td> 
            </tr> 
            <tr> 
              <td> %{NormalPooledPlasma}</td> 
              <td> percent NormalPooledPlasma</td> 
            </tr> 
            <tr> 
              <td> %{ofAvailable}</td> 
              <td> percent ofAvailable</td> 
            </tr> 
            <tr> 
              <td> %{ofBacteria}</td> 
              <td> percent ofBacteria</td> 
            </tr> 
            <tr> 
              <td> %{OfLymphocytes}</td> 
              <td> percent OfLymphocytes</td> 
            </tr> 
            <tr> 
              <td> %{OfWBCs}</td> 
              <td> percent OfWBCs</td> 
            </tr> 
            <tr> 
              <td> %{Oxygen}</td> 
              <td> percent Oxygen</td> 
            </tr> 
            <tr> 
              <td> %{Positive}</td> 
              <td> percent Positive</td> 
            </tr> 
            <tr> 
              <td> %{Precipitate}</td> 
              <td> percent Precipitate</td> 
            </tr> 
            <tr> 
              <td> %{Reactivity}</td> 
              <td> percent Reactivity</td> 
            </tr> 
            <tr> 
              <td> %{response}</td> 
              <td> percent response</td> 
            </tr> 
            <tr> 
              <td> %{risk}</td> 
              <td> percent risk</td> 
            </tr> 
            <tr> 
              <td> %{SpermMotility}</td> 
              <td> percent SpermMotility</td> 
            </tr> 
            <tr> 
              <td> %{Total}</td> 
              <td> percent Total</td> 
            </tr> 
            <tr> 
              <td> %{TotalProtein}</td> 
              <td> percent TotalProtein</td> 
            </tr> 
            <tr> 
              <td> %{Tot'Cholesterol}</td> 
              <td> percent Tot'Cholesterol</td> 
            </tr> 
            <tr> 
              <td> %{Tot'Hgb}</td> 
              <td> percent Tot'Hgb</td> 
            </tr> 
            <tr> 
              <td> %{Uptake}</td> 
              <td> percent Uptake</td> 
            </tr> 
            <tr> 
              <td> %{vol}</td> 
              <td> VolumePercent</td> 
            </tr> 
            <tr> 
              <td> %{WeightToWeight}</td> 
              <td> percent WeightToWeight</td> 
            </tr> 
            <tr> 
              <td> /(12.h)</td> 
              <td> per 12 * hour</td> 
            </tr> 
            <tr> 
              <td> /[arb'U]</td> 
              <td> per arbitrary unit</td> 
            </tr> 
            <tr> 
              <td> /[HPF]</td> 
              <td> per high power field</td> 
            </tr> 
            <tr> 
              <td> /[iU]</td> 
              <td> per international unit</td> 
            </tr> 
            <tr> 
              <td> /[LPF]</td> 
              <td> per low power field</td> 
            </tr> 
            <tr> 
              <td> /{Entity}</td> 
              <td> per Entity</td> 
            </tr> 
            <tr> 
              <td> /[HPF]</td> 
              <td> per hpf</td> 
            </tr> 
            <tr> 
              <td> /[LPF]</td> 
              <td> per LPF</td> 
            </tr> 
            <tr> 
              <td> /{oif}</td> 
              <td> per oif</td> 
            </tr> 
            <tr> 
              <td> /{Specimen}</td> 
              <td> per Specimen</td> 
            </tr> 
            <tr> 
              <td> /{tot}</td> 
              <td> per tot</td> 
            </tr> 
            <tr> 
              <td> /10*10</td> 
              <td> PerTenGiga</td> 
            </tr> 
            <tr> 
              <td> /10*12</td> 
              <td> PerTrillion</td> 
            </tr> 
            <tr> 
              <td> /10*12{rbc}</td> 
              <td> PerTrillionRedBloodCells</td> 
            </tr> 
            <tr> 
              <td> /10*6</td> 
              <td> PerMillion</td> 
            </tr> 
            <tr> 
              <td> /10*9</td> 
              <td> PerBillion</td> 
            </tr> 
            <tr> 
              <td> /100</td> 
              <td> per 100</td> 
            </tr> 
            <tr> 
              <td> /100{cells}</td> 
              <td> per 100 cells</td> 
            </tr> 
            <tr> 
              <td> /100{neutrophils}</td> 
              <td> per 100 neutrophils</td> 
            </tr> 
            <tr> 
              <td> /100{spermatozoa}</td> 
              <td> per 100 spermatozoa</td> 
            </tr> 
            <tr> 
              <td> /100{WBC}</td> 
              <td> Per100WBC</td> 
            </tr> 
            <tr> 
              <td> /100{WBCs}</td> 
              <td> Per100WBC</td> 
            </tr> 
            <tr> 
              <td> /a</td> 
              <td> / year</td> 
            </tr> 
            <tr> 
              <td> /cm[H2O]</td> 
              <td> per centimeter of water</td> 
            </tr> 
            <tr> 
              <td> /d</td> 
              <td> per day</td> 
            </tr> 
            <tr> 
              <td> /dL</td> 
              <td> per deciliter</td> 
            </tr> 
            <tr> 
              <td> /g</td> 
              <td> per gram</td> 
            </tr> 
            <tr> 
              <td> /g{creat}</td> 
              <td> per gram creat</td> 
            </tr> 
            <tr> 
              <td> /g{hgb}</td> 
              <td> per gram hgb</td> 
            </tr> 
            <tr> 
              <td> /g{tot'nit}</td> 
              <td> per gram tot'nit</td> 
            </tr> 
            <tr> 
              <td> /g{tot'prot}</td> 
              <td> per gram tot'prot</td> 
            </tr> 
            <tr> 
              <td> /g{wet'tis}</td> 
              <td> per gram wet'tis</td> 
            </tr> 
            <tr> 
              <td> /h</td> 
              <td> per hour</td> 
            </tr> 
            <tr> 
              <td> /kg</td> 
              <td> per kilogram</td> 
            </tr> 
            <tr> 
              <td> /kg{body'wt}</td> 
              <td> per kilogram body wt</td> 
            </tr> 
            <tr> 
              <td> /L</td> 
              <td> per liter</td> 
            </tr> 
            <tr> 
              <td> /m2</td> 
              <td> per square meter</td> 
            </tr> 
            <tr> 
              <td> /mg</td> 
              <td> per milligram</td> 
            </tr> 
            <tr> 
              <td> /min</td> 
              <td> per minute</td> 
            </tr> 
            <tr> 
              <td> /mL</td> 
              <td> per milliliter</td> 
            </tr> 
            <tr> 
              <td> /mm3</td> 
              <td> per cubic millimeter</td> 
            </tr> 
            <tr> 
              <td> /mmol</td> 
              <td> per millimole</td> 
            </tr> 
            <tr> 
              <td> /mo</td> 
              <td> per month</td> 
            </tr> 
            <tr> 
              <td> /s</td> 
              <td> per second</td> 
            </tr> 
            <tr> 
              <td> /U</td> 
              <td> per enzyme unit</td> 
            </tr> 
            <tr> 
              <td> /ug</td> 
              <td> per microgram</td> 
            </tr> 
            <tr> 
              <td> /uL</td> 
              <td> per microliter</td> 
            </tr> 
            <tr> 
              <td> /wk</td> 
              <td> per week</td> 
            </tr> 
            <tr> 
              <td> [APL'U]</td> 
              <td> IgA anticardiolipin unit</td> 
            </tr> 
            <tr> 
              <td> [APL'U]/mL</td> 
              <td> IgA anticardiolipin unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> [arb'U]</td> 
              <td> arbitrary unit</td> 
            </tr> 
            <tr> 
              <td> [arb'U]/L</td> 
              <td> arbitary unit / liter</td> 
            </tr> 
            <tr> 
              <td> [arb'U]/mL</td> 
              <td> arbitrary unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> [AU]</td> 
              <td> allergy unit</td> 
            </tr> 
            <tr> 
              <td> [BAU]</td> 
              <td> bioequivalent allergen unit</td> 
            </tr> 
            <tr> 
              <td> [beth'U]</td> 
              <td> Bethesda unit</td> 
            </tr> 
            <tr> 
              <td> [beth'U]</td> 
              <td> Bethesda unit</td> 
            </tr> 
            <tr> 
              <td> [CFU]</td> 
              <td> colony forming unit</td> 
            </tr> 
            <tr> 
              <td> [CFU]/L</td> 
              <td> colony forming unit per liter</td> 
            </tr> 
            <tr> 
              <td> [CFU]/mL</td> 
              <td> colony forming unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> [Ch]</td> 
              <td> French (catheter gauge)</td> 
            </tr> 
            <tr> 
              <td> [cin_i]</td> 
              <td> cubic inch</td> 
            </tr> 
            <tr> 
              <td> [cup_us]</td> 
              <td> cup</td> 
            </tr> 
            <tr> 
              <td> [degF]</td> 
              <td> degree Fahrenheit</td> 
            </tr> 
            <tr> 
              <td> [dr_av]</td> 
              <td> Dram (US and British)</td> 
            </tr> 
            <tr> 
              <td> [drp]</td> 
              <td> drop</td> 
            </tr> 
            <tr> 
              <td> [drp]/[HPF]</td> 
              <td> drop / HPF</td> 
            </tr> 
            <tr> 
              <td> [drp]/h</td> 
              <td> drop / hour</td> 
            </tr> 
            <tr> 
              <td> [drp]/min</td> 
              <td> drop / minute</td> 
            </tr> 
            <tr> 
              <td> [drp]/mL</td> 
              <td> drop / milliliter</td> 
            </tr> 
            <tr> 
              <td> [drp]/s</td> 
              <td> drop / second</td> 
            </tr> 
            <tr> 
              <td> [fdr_us]</td> 
              <td> fluid dram</td> 
            </tr> 
            <tr> 
              <td> [foz_br]</td> 
              <td> fluid ounce</td> 
            </tr> 
            <tr> 
              <td> [foz_us]</td> 
              <td> fluid ounce</td> 
            </tr> 
            <tr> 
              <td> [ft_i]</td> 
              <td> Feet</td> 
            </tr> 
            <tr> 
              <td> [fth_i]</td> 
              <td> fathom</td> 
            </tr> 
            <tr> 
              <td> [gal_br]</td> 
              <td> gallon</td> 
            </tr> 
            <tr> 
              <td> [gal_us]</td> 
              <td> Queen Anne's wine gallon</td> 
            </tr> 
            <tr> 
              <td> [GPL'U]</td> 
              <td> IgG anticardiolipin unit</td> 
            </tr> 
            <tr> 
              <td> [gr]</td> 
              <td> grain</td> 
            </tr> 
            <tr> 
              <td> [in_i]</td> 
              <td> inch (international)</td> 
            </tr> 
            <tr> 
              <td> [iU]</td> 
              <td> international unit</td> 
            </tr> 
            <tr> 
              <td> [IU]/(2.h)</td> 
              <td> international unit per 2 hour</td> 
            </tr> 
            <tr> 
              <td> [IU]/(24.h)</td> 
              <td> international unit per 24 hour</td> 
            </tr> 
            <tr> 
              <td> [IU]/10*9{RBCs}</td> 
              <td> international unit per billion red blood cells</td> 
            </tr> 
            <tr> 
              <td> [IU]/d</td> 
              <td> international unit per day</td> 
            </tr> 
            <tr> 
              <td> [IU]/dL</td> 
              <td> international unit per deciliter</td> 
            </tr> 
            <tr> 
              <td> [IU]/g</td> 
              <td> international unit per gram</td> 
            </tr> 
            <tr> 
              <td> [IU]/g{Hb}</td> 
              <td> international unit per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> [iU]/g{Hgb}</td> 
              <td> international unit / gram Hgb</td> 
            </tr> 
            <tr> 
              <td> [IU]/h</td> 
              <td> international unit per hour</td> 
            </tr> 
            <tr> 
              <td> [IU]/kg</td> 
              <td> international unit per kilogram</td> 
            </tr> 
            <tr> 
              <td> [IU]/kg/d</td> 
              <td> international unit per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> [IU]/L</td> 
              <td> international unit per liter</td> 
            </tr> 
            <tr> 
              <td> [IU]/min</td> 
              <td> international unit per minute</td> 
            </tr> 
            <tr> 
              <td> [IU]/mL</td> 
              <td> international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> [lb_av]</td> 
              <td> pound (US and British)</td> 
            </tr> 
            <tr> 
              <td> [mi_i]</td> 
              <td> statute mile</td> 
            </tr> 
            <tr> 
              <td> [mi_us]</td> 
              <td> mile</td> 
            </tr> 
            <tr> 
              <td> [min_us]</td> 
              <td> minim</td> 
            </tr> 
            <tr> 
              <td> [MPL'U]</td> 
              <td> IgM anticardiolipin unit</td> 
            </tr> 
            <tr> 
              <td> [nmi_i]</td> 
              <td> nautical mile</td> 
            </tr> 
            <tr> 
              <td> [oz_av]</td> 
              <td> ounce (US and British)</td> 
            </tr> 
            <tr> 
              <td> [oz_tr]</td> 
              <td> ounce</td> 
            </tr> 
            <tr> 
              <td> [pH]</td> 
              <td> pH</td> 
            </tr> 
            <tr> 
              <td> [pi].rad/min</td> 
              <td> the number pi * radian / minute</td> 
            </tr> 
            <tr> 
              <td> [ppb]</td> 
              <td> part per billion</td> 
            </tr> 
            <tr> 
              <td> [ppm]</td> 
              <td> part per million</td> 
            </tr> 
            <tr> 
              <td> [ppm]{v/v}</td> 
              <td> part per million in volume per volume</td> 
            </tr> 
            <tr> 
              <td> [pptr]</td> 
              <td> part per trillion</td> 
            </tr> 
            <tr> 
              <td> [ppth]</td> 
              <td> parts per thousand</td> 
            </tr> 
            <tr> 
              <td> [pptr]</td> 
              <td> parts per trillion</td> 
            </tr> 
            <tr> 
              <td> [psi]</td> 
              <td> pound per square inch</td> 
            </tr> 
            <tr> 
              <td> [pt_br]</td> 
              <td> pint</td> 
            </tr> 
            <tr> 
              <td> [qt_br]</td> 
              <td> quart</td> 
            </tr> 
            <tr> 
              <td> [qt_us]</td> 
              <td> quart</td> 
            </tr> 
            <tr> 
              <td> [sft_i]</td> 
              <td> square foot (international)</td> 
            </tr> 
            <tr> 
              <td> [sin_i]</td> 
              <td> square inch (international)</td> 
            </tr> 
            <tr> 
              <td> [ston_av]</td> 
              <td> short ton U.S. ton</td> 
            </tr> 
            <tr> 
              <td> [syd_i]</td> 
              <td> square yard</td> 
            </tr> 
            <tr> 
              <td> [tbs_us]</td> 
              <td> tablespoon (US)</td> 
            </tr> 
            <tr> 
              <td> [tb'U]</td> 
              <td> tuberculin unit</td> 
            </tr> 
            <tr> 
              <td> [todd'U]</td> 
              <td> Todd unit</td> 
            </tr> 
            <tr> 
              <td> [todd'U]</td> 
              <td> Todd unit</td> 
            </tr> 
            <tr> 
              <td> [tsp_us]</td> 
              <td> teaspoon</td> 
            </tr> 
            <tr> 
              <td> [yd_i]</td> 
              <td> yard</td> 
            </tr> 
            <tr> 
              <td> {# of calculi}</td> 
              <td> # of calculi</td> 
            </tr> 
            <tr> 
              <td> {# of donor informative markers}</td> 
              <td> # of donor informative markers</td> 
            </tr> 
            <tr> 
              <td> {# of fetuses}</td> 
              <td> # of fetuses</td> 
            </tr> 
            <tr> 
              <td> {# of informative markers}</td> 
              <td> # of informative markers</td> 
            </tr> 
            <tr> 
              <td> {#}</td> 
              <td> #</td> 
            </tr> 
            <tr> 
              <td> {2 or 3 times}/d</td> 
              <td> 2 or 3 times / day</td> 
            </tr> 
            <tr> 
              <td> {3 times}/d</td> 
              <td> 3 times / day</td> 
            </tr> 
            <tr> 
              <td> {4 times}/d</td> 
              <td> 4 times / day</td> 
            </tr> 
            <tr> 
              <td> {5 times}/d</td> 
              <td> 5 times / day</td> 
            </tr> 
            <tr> 
              <td> {absorbance}</td> 
              <td> absorbance</td> 
            </tr> 
            <tr> 
              <td> {Absorbance'U}</td> 
              <td> Absorbance'U</td> 
            </tr> 
            <tr> 
              <td> {Absorbance'U}/mL</td> 
              <td> Absorbance'U / milliliter</td> 
            </tr> 
            <tr> 
              <td> {activity}</td> 
              <td> activity</td> 
            </tr> 
            <tr> 
              <td> {ActivityCoefficient}</td> 
              <td> ActivityCoefficient</td> 
            </tr> 
            <tr> 
              <td> {AHF'U}</td> 
              <td> AHF'U</td> 
            </tr> 
            <tr> 
              <td> {AntibodyResponse'U}</td> 
              <td> AntibodyResponse'U</td> 
            </tr> 
            <tr> 
              <td> {Applicator}</td> 
              <td> Applicator</td> 
            </tr> 
            <tr> 
              <td> {APS'U}</td> 
              <td> IgA antiphosphatidylserine unit</td> 
            </tr> 
            <tr> 
              <td> {AspirinReaction'U}</td> 
              <td> AspirinReaction'U</td> 
            </tr> 
            <tr> 
              <td> {Bead}</td> 
              <td> Bead</td> 
            </tr> 
            <tr> 
              <td> {Beats}/min</td> 
              <td> Beats / minute</td> 
            </tr> 
            <tr> 
              <td> {Bottle}</td> 
              <td> Bottle</td> 
            </tr> 
            <tr> 
              <td> {Bowls}/d</td> 
              <td> Bowls / day</td> 
            </tr> 
            <tr> 
              <td> {Breaths}/min</td> 
              <td> Breaths / minute</td> 
            </tr> 
            <tr> 
              <td> {CAE'U}</td> 
              <td> complement activity enzyme unit</td> 
            </tr> 
            <tr> 
              <td> {CagRepeat}</td> 
              <td> CagRepeat</td> 
            </tr> 
            <tr> 
              <td> {Can}</td> 
              <td> Can</td> 
            </tr> 
            <tr> 
              <td> {Cans}/wk</td> 
              <td> Cans / week</td> 
            </tr> 
            <tr> 
              <td> {Capsule}</td> 
              <td> Capsule</td> 
            </tr> 
            <tr> 
              <td> {Cell}</td> 
              <td> Cell</td> 
            </tr> 
            <tr> 
              <td> {cells}</td> 
              <td> cells</td> 
            </tr> 
            <tr> 
              <td> {cells}/[HPF]</td> 
              <td> cells per high power field</td> 
            </tr> 
            <tr> 
              <td> {Cells}/mL</td> 
              <td> Cells / milliliter</td> 
            </tr> 
            <tr> 
              <td> {cells}/uL</td> 
              <td> cells per microliter</td> 
            </tr> 
            <tr> 
              <td> {CfTiter}</td> 
              <td> CfTiter</td> 
            </tr> 
            <tr> 
              <td> {cfu}</td> 
              <td> cfu</td> 
            </tr> 
            <tr> 
              <td> {cfu}/mL</td> 
              <td> cfu / milliliter</td> 
            </tr> 
            <tr> 
              <td> {CGG_repeats}</td> 
              <td> CGG_repeats</td> 
            </tr> 
            <tr> 
              <td> {CGG}</td> 
              <td> CGG</td> 
            </tr> 
            <tr> 
              <td> {CH100'U}</td> 
              <td> complement CH100 unit</td> 
            </tr> 
            <tr> 
              <td> {clock time}</td> 
              <td> clock time</td> 
            </tr> 
            <tr> 
              <td> {clock_time}</td> 
              <td> clock_time</td> 
            </tr> 
            <tr> 
              <td> {ComplementActivityEnzyme'U}</td> 
              <td> ComplementActivityEnzyme'U</td> 
            </tr> 
            <tr> 
              <td> {ComplementCH100'U}</td> 
              <td> ComplementCH100'U</td> 
            </tr> 
            <tr> 
              <td> {ComplementCH50'U}</td> 
              <td> ComplementCH50'U</td> 
            </tr> 
            <tr> 
              <td> {copies}/mL</td> 
              <td> copies per milliliter</td> 
            </tr> 
            <tr> 
              <td> {copies}/ug</td> 
              <td> copies per microgram</td> 
            </tr> 
            <tr> 
              <td> {Copies}/uL</td> 
              <td> Copies / microliter</td> 
            </tr> 
            <tr> 
              <td> {Count}</td> 
              <td> Count</td> 
            </tr> 
            <tr> 
              <td> {Counts}/min</td> 
              <td> Counts / minute</td> 
            </tr> 
            <tr> 
              <td> {Dalton}</td> 
              <td> Dalton</td> 
            </tr> 
            <tr> 
              <td> {DdTiter}</td> 
              <td> DdTiter</td> 
            </tr> 
            <tr> 
              <td> {DeltaOpticalDensity}</td> 
              <td> DeltaOpticalDensity</td> 
            </tr> 
            <tr> 
              <td> {Dilution}</td> 
              <td> dilution</td> 
            </tr> 
            <tr> 
              <td> {Disintegrations}/min</td> 
              <td> Disintegrations / minute</td> 
            </tr> 
            <tr> 
              <td> {Dose}</td> 
              <td> Dose</td> 
            </tr> 
            <tr> 
              <td> {Drinks}/d</td> 
              <td> Drinks / day</td> 
            </tr> 
            <tr> 
              <td> {Each}</td> 
              <td> Each</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}</td> 
              <td> Ehrlich unit</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/(2.h)</td> 
              <td> Ehrlich unit per 2 hour</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/100.g</td> 
              <td> Ehrlich unit per 100 gram</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/d</td> 
              <td> Ehrlich unit per day</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/dL</td> 
              <td> Ehrilich unit per deciliter</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/mL</td> 
              <td> Ehrlich'U / milliliter</td> 
            </tr> 
            <tr> 
              <td> {EIAIndex}</td> 
              <td> EIA index</td> 
            </tr> 
            <tr> 
              <td> {EIATiter}</td> 
              <td> EIA titer</td> 
            </tr> 
            <tr> 
              <td> {EIA'U}</td> 
              <td> EIA unit</td> 
            </tr> 
            <tr> 
              <td> {EIA'U}/U</td> 
              <td> EIA unit per enzyme Unit</td> 
            </tr> 
            <tr> 
              <td> {ElisaIndex}</td> 
              <td> ElisaIndex</td> 
            </tr> 
            <tr> 
              <td> {ELISA'U}</td> 
              <td> ELISA unit</td> 
            </tr> 
            <tr> 
              <td> {Elisa'U}/mL</td> 
              <td> Elisa'U / milliliter</td> 
            </tr> 
            <tr> 
              <td> {ElisaValue}</td> 
              <td> ElisaValue</td> 
            </tr> 
            <tr> 
              <td> {ERY}/uL</td> 
              <td> erythrocyte per microliter</td> 
            </tr> 
            <tr> 
              <td> {Events}</td> 
              <td> Events</td> 
            </tr> 
            <tr> 
              <td> {FluorescenceIntensity'U}</td> 
              <td> FluorescenceIntensity'U</td> 
            </tr> 
            <tr> 
              <td> U{G}</td> 
              <td> G unit</td> 
            </tr> 
            <tr> 
              <td> {GliadinIndexValue}</td> 
              <td> GliadinIndexValue</td> 
            </tr> 
            <tr> 
              <td> {G-PortionPhospholipids}</td> 
              <td> G-PortionPhospholipids</td> 
            </tr> 
            <tr> 
              <td> {HaTiter}</td> 
              <td> HaTiter</td> 
            </tr> 
            <tr> 
              <td> {IfaIndex}</td> 
              <td> IfaIndex</td> 
            </tr> 
            <tr> 
              <td> {IfaTiter}</td> 
              <td> IfaTiter</td> 
            </tr> 
            <tr> 
              <td> {IgAAntiphosphatidyleserine'U}</td> 
              <td> IgAAntiphosphatidyleserine'U</td> 
            </tr> 
            <tr> 
              <td> {IgAPhospholipid'U}</td> 
              <td> IgAPhospholipid'U</td> 
            </tr> 
            <tr> 
              <td> {IgGAntiphosphatidyleserine'U}</td> 
              <td> IgGAntiphosphatidyleserine'U</td> 
            </tr> 
            <tr> 
              <td> {IgGIndex}</td> 
              <td> IgGIndex</td> 
            </tr> 
            <tr> 
              <td> {IgMAntiphosphatidyleserine'U}</td> 
              <td> IgMAntiphosphatidyleserine'U</td> 
            </tr> 
            <tr> 
              <td> {IgMIndex}</td> 
              <td> IgMIndex</td> 
            </tr> 
            <tr> 
              <td> {ImmuneComplex'U}</td> 
              <td> immune complex unit</td> 
            </tr> 
            <tr> 
              <td> {ImmuneStatusRatio}</td> 
              <td> ImmuneStatusRatio</td> 
            </tr> 
            <tr> 
              <td> {Immunity}</td> 
              <td> Immunity</td> 
            </tr> 
            <tr> 
              <td> {Index_val}</td> 
              <td> Index_val</td> 
            </tr> 
            <tr> 
              <td> {index}</td> 
              <td> index</td> 
            </tr> 
            <tr> 
              <td> {IndexValue}</td> 
              <td> IndexValue</td> 
            </tr> 
            <tr> 
              <td> {InhaledTobaccoUseAmountYears}</td> 
              <td> InhaledTobaccoUseAmountYears</td> 
            </tr> 
            <tr> 
              <td> {InhaledTobaccoUsePacks}/d</td> 
              <td> InhaledTobaccoUsePacks / day</td> 
            </tr> 
            <tr> 
              <td> {INR}</td> 
              <td> international normalized ratio</td> 
            </tr> 
            <tr> 
              <td> {INR'unit}</td> 
              <td> INR'unit</td> 
            </tr> 
            <tr> 
              <td> {JDF'U}</td> 
              <td> Juvenile Diabetes Foundation unit</td> 
            </tr> 
            <tr> 
              <td> {JDF'U}/L</td> 
              <td> Juvenile Diabetes Foundation unit per liter</td> 
            </tr> 
            <tr> 
              <td> {JuvenileDiabetesFound'U}</td> 
              <td> JuvenileDiabetesFound'U</td> 
            </tr> 
            <tr> 
              <td> {KCT'U}</td> 
              <td> kaolin clotting time</td> 
            </tr> 
            <tr> 
              <td> {KRONU'U}/L</td> 
              <td> Kronus unit per liter</td> 
            </tr> 
            <tr> 
              <td> {KRONU'U}/mL</td> 
              <td> Kronus unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> {lgCopies}/ml</td> 
              <td> lgCopies / milliliter</td> 
            </tr> 
            <tr> 
              <td> {log_copies}/mL</td> 
              <td> log (base 10) copies per milliliter</td> 
            </tr> 
            <tr> 
              <td> {log_IU}/mL</td> 
              <td> log (base 10) international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> {LymeIndexValue}</td> 
              <td> LymeIndexValue</td> 
            </tr> 
            <tr> 
              <td> {M.o.M.}</td> 
              <td> M.o.M.</td> 
            </tr> 
            <tr> 
              <td> {M.o.M}</td> 
              <td> multiple of the median</td> 
            </tr> 
            <tr> 
              <td> {Markers}</td> 
              <td> Markers</td> 
            </tr> 
            <tr> 
              <td> {minidrp}</td> 
              <td> minidrp</td> 
            </tr> 
            <tr> 
              <td> {Molecule}/{Platelet}</td> 
              <td> Molecule / Platelet</td> 
            </tr> 
            <tr> 
              <td> {M-PortionPhospholipids}</td> 
              <td> M-PortionPhospholipids</td> 
            </tr> 
            <tr> 
              <td> {MPS'U}</td> 
              <td> IgM antiphosphatidylserine unit</td> 
            </tr> 
            <tr> 
              <td> {MPS'U}/mL</td> 
              <td> IgM antiphosphatidylserine unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> {MultOfMean}</td> 
              <td> MultOfMean</td> 
            </tr> 
            <tr> 
              <td> {NonspecificOunce}</td> 
              <td> NonspecificOunce</td> 
            </tr> 
            <tr> 
              <td> {Number}</td> 
              <td> Number</td> 
            </tr> 
            <tr> 
              <td> {OD_unit}</td> 
              <td> optical density unit</td> 
            </tr> 
            <tr> 
              <td> {Once}/d</td> 
              <td> Once / day</td> 
            </tr> 
            <tr> 
              <td> {OpticalDensity}</td> 
              <td> OpticalDensity</td> 
            </tr> 
            <tr> 
              <td> {OpticalDensityIndex}</td> 
              <td> OpticalDensityIndex</td> 
            </tr> 
            <tr> 
              <td> {OpticalDensityRatio}</td> 
              <td> OpticalDensityRatio</td> 
            </tr> 
            <tr> 
              <td> {P2Y12 Reaction Units}</td> 
              <td> P2Y12 Reaction Units</td> 
            </tr> 
            <tr> 
              <td> {Package}</td> 
              <td> Package</td> 
            </tr> 
            <tr> 
              <td> {Packs}/d</td> 
              <td> Packs / day</td> 
            </tr> 
            <tr> 
              <td> {PackYears}</td> 
              <td> PackYears</td> 
            </tr> 
            <tr> 
              <td> {Patch}</td> 
              <td> Patch</td> 
            </tr> 
            <tr> 
              <td> {Percentile}</td> 
              <td> Percentile</td> 
            </tr> 
            <tr> 
              <td> {Pill}</td> 
              <td> Pill</td> 
            </tr> 
            <tr> 
              <td> {Pouches}/wk</td> 
              <td> Pouches / week</td> 
            </tr> 
            <tr> 
              <td> {RadioactiveT3UptakeRatio}</td> 
              <td> RadioactiveT3UptakeRatio</td> 
            </tr> 
            <tr> 
              <td> {ratio}</td> 
              <td> ratio</td> 
            </tr> 
            <tr> 
              <td> {RBC}/uL</td> 
              <td> red blood cell per microliter</td> 
            </tr> 
            <tr> 
              <td> {RecTiter}</td> 
              <td> RecTiter</td> 
            </tr> 
            <tr> 
              <td> {Relative'U}</td> 
              <td> Relative'U</td> 
            </tr> 
            <tr> 
              <td> {RelativeViscosity}</td> 
              <td> RelativeViscosity</td> 
            </tr> 
            <tr> 
              <td> {RPI'U}</td> 
              <td> RPI'U</td> 
            </tr> 
            <tr> 
              <td> {RubellaVirus}</td> 
              <td> RubellaVirus</td> 
            </tr> 
            <tr> 
              <td> {SatIndex}</td> 
              <td> SatIndex</td> 
            </tr> 
            <tr> 
              <td> {Scoop}</td> 
              <td> Scoop</td> 
            </tr> 
            <tr> 
              <td> {ScoreOf}</td> 
              <td> ScoreOf</td> 
            </tr> 
            <tr> 
              <td> {shift}</td> 
              <td> shift</td> 
            </tr> 
            <tr> 
              <td> {spermatozoa}/mL</td> 
              <td> spermatozoa per milliliter</td> 
            </tr> 
            <tr> 
              <td> {spray}</td> 
              <td> spray</td> 
            </tr> 
            <tr> 
              <td> {StandardDeviation}</td> 
              <td> StandardDeviation</td> 
            </tr> 
            <tr> 
              <td> {StandardIgA'U}</td> 
              <td> StandardIgA'U</td> 
            </tr> 
            <tr> 
              <td> {StandardIgG'U}</td> 
              <td> StandardIgG'U</td> 
            </tr> 
            <tr> 
              <td> {StandardIgM'U}</td> 
              <td> StandardIgM'U</td> 
            </tr> 
            <tr> 
              <td> {StdDeviation'U}</td> 
              <td> StdDeviation'U</td> 
            </tr> 
            <tr> 
              <td> {StimulatingIndex}</td> 
              <td> StimulatingIndex</td> 
            </tr> 
            <tr> 
              <td> {Streptozyme'U}</td> 
              <td> Streptozyme'U</td> 
            </tr> 
            <tr> 
              <td> {ThyroxinUptake'U}</td> 
              <td> ThyroxinUptake'U</td> 
            </tr> 
            <tr> 
              <td> {TIBC'U}</td> 
              <td> TIBC'U</td> 
            </tr> 
            <tr> 
              <td> {Times}/wk</td> 
              <td> Times / week</td> 
            </tr> 
            <tr> 
              <td> {Tine'U}</td> 
              <td> Tine'U</td> 
            </tr> 
            <tr> 
              <td> {titer}</td> 
              <td> titer</td> 
            </tr> 
            <tr> 
              <td> {ToxoplasmaIndexValue}</td> 
              <td> ToxoplasmaIndexValue</td> 
            </tr> 
            <tr> 
              <td> {Vial}</td> 
              <td> Vial</td> 
            </tr> 
            <tr> 
              <td> {Volume}/{Vvolume}</td> 
              <td> Volume / Vvolume</td> 
            </tr> 
            <tr> 
              <td> {WeeksDays}</td> 
              <td> WeeksDays</td> 
            </tr> 
            <tr> 
              <td> {WhiteBloodCell}</td> 
              <td> WhiteBloodCell</td> 
            </tr> 
            <tr> 
              <td> 1/d</td> 
              <td> one per day</td> 
            </tr> 
            <tr> 
              <td> 1/min</td> 
              <td> one per minute</td> 
            </tr> 
            <tr> 
              <td> 10*12/L</td> 
              <td> trillion per liter</td> 
            </tr> 
            <tr> 
              <td> 10*3</td> 
              <td> Thousand</td> 
            </tr> 
            <tr> 
              <td> 10*3.{RBC}</td> 
              <td> Thousand Red Blood Cells</td> 
            </tr> 
            <tr> 
              <td> 10*3.U</td> 
              <td> Thousand Per * Unit</td> 
            </tr> 
            <tr> 
              <td> 10*3/L</td> 
              <td> Thousand Per Liter</td> 
            </tr> 
            <tr> 
              <td> 10*3/mL</td> 
              <td> Thousand Per MilliLiter</td> 
            </tr> 
            <tr> 
              <td> 10*3/uL</td> 
              <td> Thousands Per MicroLiter</td> 
            </tr> 
            <tr> 
              <td> 10*3{Copies}/mL</td> 
              <td> Thousand Copies Per MilliLiter</td> 
            </tr> 
            <tr> 
              <td> 10*-3{Polarization'U}</td> 
              <td> (the number ten for arbitrary powers ^ -3) Polarization'U</td> 
            </tr> 
            <tr> 
              <td> 10*5</td> 
              <td> OneHundredThousand</td> 
            </tr> 
            <tr> 
              <td> 10*6</td> 
              <td> Million</td> 
            </tr> 
            <tr> 
              <td> 10*6.[iU]</td> 
              <td> MillionInternationalUnit</td> 
            </tr> 
            <tr> 
              <td> 10*6.eq/mL</td> 
              <td> MillionEquivalentsPerMilliLiter</td> 
            </tr> 
            <tr> 
              <td> 10*6.U</td> 
              <td> (the number ten for arbitrary powers ^ 6) * Unit</td> 
            </tr> 
            <tr> 
              <td> 10*6/{Specimen}</td> 
              <td> MillionPerSpecimen</td> 
            </tr> 
            <tr> 
              <td> 10*6/kg</td> 
              <td> million per kilogram</td> 
            </tr> 
            <tr> 
              <td> 10*6/L</td> 
              <td> million per liter</td> 
            </tr> 
            <tr> 
              <td> 10*6/mL</td> 
              <td> million per milliliter</td> 
            </tr> 
            <tr> 
              <td> 10*6/mm3</td> 
              <td> (the number ten for arbitrary powers ^ 6) / (millimeter ^ 3)</td> 
            </tr> 
            <tr> 
              <td> 10*6/uL</td> 
              <td> million per microliter</td> 
            </tr> 
            <tr> 
              <td> 10*-6{Immunofluorescence'U}</td> 
              <td> (the number ten for arbitrary powers ^ -6) Immunofluorescence'U</td> 
            </tr> 
            <tr> 
              <td> 10*8</td> 
              <td> TenToEighth</td> 
            </tr> 
            <tr> 
              <td> 10*9/L</td> 
              <td> billion per liter</td> 
            </tr> 
            <tr> 
              <td> 10*9/mL</td> 
              <td> billion per milliliter</td> 
            </tr> 
            <tr> 
              <td> 10*9/uL</td> 
              <td> billion per microliter</td> 
            </tr> 
            <tr> 
              <td> 10.L/(min.m2)</td> 
              <td> 10 liter per minute per square meter</td> 
            </tr> 
            <tr> 
              <td> 10.L/min</td> 
              <td> 10 liter per minute</td> 
            </tr> 
            <tr> 
              <td> 10.uN.s/(cm.m2)</td> 
              <td> 10 * microNewton * second / centimeter * (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> 10.uN.s/cm</td> 
              <td> 10 * microNewton * second / centimeter</td> 
            </tr> 
            <tr> 
              <td> 10.uN.s/cm2</td> 
              <td> 10 * microNewton * second / (centimeter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> a</td> 
              <td> year</td> 
            </tr> 
            <tr> 
              <td> A/m</td> 
              <td> Ampère / meter</td> 
            </tr> 
            <tr> 
              <td> att</td> 
              <td> technical atmosphere</td> 
            </tr> 
            <tr> 
              <td> bar</td> 
              <td> bar</td> 
            </tr> 
            <tr> 
              <td> Cel</td> 
              <td> degree Celsius</td> 
            </tr> 
            <tr> 
              <td> cg</td> 
              <td> centigram</td> 
            </tr> 
            <tr> 
              <td> cL</td> 
              <td> centiliter</td> 
            </tr> 
            <tr> 
              <td> cm</td> 
              <td> centimeter</td> 
            </tr> 
            <tr> 
              <td> cm[H2O]</td> 
              <td> centimeter of water</td> 
            </tr> 
            <tr> 
              <td> cm[H2O]/(s.m)</td> 
              <td> centimeter of water column / second * meter</td> 
            </tr> 
            <tr> 
              <td> cm[H2O]/L/s</td> 
              <td> centimeter of water per liter per second</td> 
            </tr> 
            <tr> 
              <td> cm[Hg]</td> 
              <td> centimeter of mercury</td> 
            </tr> 
            <tr> 
              <td> cm2</td> 
              <td> square centimeter</td> 
            </tr> 
            <tr> 
              <td> cm2/s</td> 
              <td> square centimeter per second</td> 
            </tr> 
            <tr> 
              <td> cm3</td> 
              <td> cubic centimeter</td> 
            </tr> 
            <tr> 
              <td> cP</td> 
              <td> centiPoise</td> 
            </tr> 
            <tr> 
              <td> cSt</td> 
              <td> centiStokes</td> 
            </tr> 
            <tr> 
              <td> d</td> 
              <td> day</td> 
            </tr> 
            <tr> 
              <td> dB</td> 
              <td> decibel</td> 
            </tr> 
            <tr> 
              <td> deg</td> 
              <td> degree</td> 
            </tr> 
            <tr> 
              <td> deg/s</td> 
              <td> degree per second</td> 
            </tr> 
            <tr> 
              <td> dg</td> 
              <td> decigram</td> 
            </tr> 
            <tr> 
              <td> dL</td> 
              <td> deciliter</td> 
            </tr> 
            <tr> 
              <td> dm</td> 
              <td> decimeter</td> 
            </tr> 
            <tr> 
              <td> dm2/s2</td> 
              <td> square decimeter per square second</td> 
            </tr> 
            <tr> 
              <td> eq</td> 
              <td> equivalents</td> 
            </tr> 
            <tr> 
              <td> eq/L</td> 
              <td> equivalents / liter</td> 
            </tr> 
            <tr> 
              <td> eq/mL</td> 
              <td> equivalents / milliliter</td> 
            </tr> 
            <tr> 
              <td> eq/mmol</td> 
              <td> equivalents / millimole</td> 
            </tr> 
            <tr> 
              <td> eq/umol</td> 
              <td> equivalents / micromole</td> 
            </tr> 
            <tr> 
              <td> erg</td> 
              <td> erg</td> 
            </tr> 
            <tr> 
              <td> eV</td> 
              <td> electronvolt</td> 
            </tr> 
            <tr> 
              <td> fg</td> 
              <td> femtogram</td> 
            </tr> 
            <tr> 
              <td> fL</td> 
              <td> femtoliter</td> 
            </tr> 
            <tr> 
              <td> fL/nL</td> 
              <td> femtoliter / nanoliter</td> 
            </tr> 
            <tr> 
              <td> fm</td> 
              <td> femtometer</td> 
            </tr> 
            <tr> 
              <td> fmol</td> 
              <td> femtomole</td> 
            </tr> 
            <tr> 
              <td> fmol/g</td> 
              <td> femtomole per gram</td> 
            </tr> 
            <tr> 
              <td> fmol/L</td> 
              <td> femtomole per liter</td> 
            </tr> 
            <tr> 
              <td> fmol/mg</td> 
              <td> femtomole / milligram</td> 
            </tr> 
            <tr> 
              <td> fmol/mL</td> 
              <td> femtomole / milliliter</td> 
            </tr> 
            <tr> 
              <td> g</td> 
              <td> gram</td> 
            </tr> 
            <tr> 
              <td> g.m</td> 
              <td> gram * meter</td> 
            </tr> 
            <tr> 
              <td> g.m/({hb}.m2)</td> 
              <td> gram * meter / hb * (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> g.m/{hb}</td> 
              <td> gram * meter / hb</td> 
            </tr> 
            <tr> 
              <td> g/(100.g)</td> 
              <td> gram per 100 gram</td> 
            </tr> 
            <tr> 
              <td> g/(12.h)</td> 
              <td> gram per 12 hour</td> 
            </tr> 
            <tr> 
              <td> g/(24.h)</td> 
              <td> gram per 24 hour</td> 
            </tr> 
            <tr> 
              <td> g/(3.d)</td> 
              <td> gram per 3 days</td> 
            </tr> 
            <tr> 
              <td> g/(4.h)</td> 
              <td> gram per 4 hour</td> 
            </tr> 
            <tr> 
              <td> g/(48.h)</td> 
              <td> gram per 48 hour</td> 
            </tr> 
            <tr> 
              <td> g/(5.h)</td> 
              <td> gram per 5 hour</td> 
            </tr> 
            <tr> 
              <td> g/(6.h)</td> 
              <td> gram per 6 hour</td> 
            </tr> 
            <tr> 
              <td> g/(72.h)</td> 
              <td> gram per 72 hour</td> 
            </tr> 
            <tr> 
              <td> g/(8.h)</td> 
              <td> gram / 8 * hour</td> 
            </tr> 
            <tr> 
              <td> g/(8.kg.h)</td> 
              <td> gram / 8 * kilogram * hour</td> 
            </tr> 
            <tr> 
              <td> g/(kg.h)</td> 
              <td> gram / kilogram * hour</td> 
            </tr> 
            <tr> 
              <td> g/(kg.min)</td> 
              <td> gram / kilogram * minute</td> 
            </tr> 
            <tr> 
              <td> g/{TotalWeight}</td> 
              <td> gram / TotalWeight</td> 
            </tr> 
            <tr> 
              <td> g/d</td> 
              <td> gram per day</td> 
            </tr> 
            <tr> 
              <td> g/dL</td> 
              <td> gram per deciliter</td> 
            </tr> 
            <tr> 
              <td> g/g</td> 
              <td> gram per gram</td> 
            </tr> 
            <tr> 
              <td> g/g{Cre}</td> 
              <td> gram / gram Cre</td> 
            </tr> 
            <tr> 
              <td> g/g{creat}</td> 
              <td> gram / gram creat</td> 
            </tr> 
            <tr> 
              <td> g/g{tissue}</td> 
              <td> gram per gram of tissue</td> 
            </tr> 
            <tr> 
              <td> g/h</td> 
              <td> gram per hour</td> 
            </tr> 
            <tr> 
              <td> g/h/m2</td> 
              <td> gram per hour per square meter</td> 
            </tr> 
            <tr> 
              <td> g/kg</td> 
              <td> gram per kilogram</td> 
            </tr> 
            <tr> 
              <td> g/kg/d</td> 
              <td> gram per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> g/L</td> 
              <td> gram per liter</td> 
            </tr> 
            <tr> 
              <td> g/m2</td> 
              <td> grams Per Square Meter</td> 
            </tr> 
            <tr> 
              <td> g/mg</td> 
              <td> gram per milligram</td> 
            </tr> 
            <tr> 
              <td> g/min</td> 
              <td> gram per minute</td> 
            </tr> 
            <tr> 
              <td> g/mL</td> 
              <td> gram per milliliter</td> 
            </tr> 
            <tr> 
              <td> g/mmol</td> 
              <td> gram per millimole</td> 
            </tr> 
            <tr> 
              <td> g/mmol{creat}</td> 
              <td> gram / millimole creat</td> 
            </tr> 
            <tr> 
              <td> g/mol</td> 
              <td> gram per mole</td> 
            </tr> 
            <tr> 
              <td> GBq</td> 
              <td> gigaBecquerel</td> 
            </tr> 
            <tr> 
              <td> h</td> 
              <td> hour</td> 
            </tr> 
            <tr> 
              <td> hL</td> 
              <td> hectoliter</td> 
            </tr> 
            <tr> 
              <td> Hz</td> 
              <td> Hertz</td> 
            </tr> 
            <tr> 
              <td> [iU]</td> 
              <td> international unit</td> 
            </tr> 
            <tr> 
              <td> J</td> 
              <td> joule</td> 
            </tr> 
            <tr> 
              <td> J/L</td> 
              <td> joule per liter</td> 
            </tr> 
            <tr> 
              <td> K</td> 
              <td> Kelvin</td> 
            </tr> 
            <tr> 
              <td> K/W</td> 
              <td> Kelvin / Watt</td> 
            </tr> 
            <tr> 
              <td> k[IU]/L</td> 
              <td> kilo international unit per liter</td> 
            </tr> 
            <tr> 
              <td> k[IU]/mL</td> 
              <td> kilo international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> kat/kg</td> 
              <td> katal / kilogram</td> 
            </tr> 
            <tr> 
              <td> kat/L</td> 
              <td> katal / liter</td> 
            </tr> 
            <tr> 
              <td> kBq</td> 
              <td> kiloBecquerel</td> 
            </tr> 
            <tr> 
              <td> kcal</td> 
              <td> kilocalorie</td> 
            </tr> 
            <tr> 
              <td> kcal/(8.h)</td> 
              <td> kilocalorie / 8 * hour</td> 
            </tr> 
            <tr> 
              <td> kcal/h</td> 
              <td> kilocalorie per hour</td> 
            </tr> 
            <tr> 
              <td> kg</td> 
              <td> kilogram</td> 
            </tr> 
            <tr> 
              <td> kg.m/s</td> 
              <td> kilogram meter per second</td> 
            </tr> 
            <tr> 
              <td> kg/(s.m2)</td> 
              <td> kilogram per second per square meter</td> 
            </tr> 
            <tr> 
              <td> kg/h</td> 
              <td> kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> kg/L</td> 
              <td> kilogram per liter</td> 
            </tr> 
            <tr> 
              <td> kg/m2</td> 
              <td> kilogram / (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> kg/m3</td> 
              <td> kilogram / (meter ^ 3)</td> 
            </tr> 
            <tr> 
              <td> kg/min</td> 
              <td> kilogram / minute</td> 
            </tr> 
            <tr> 
              <td> kg/mol</td> 
              <td> kilogram per mole</td> 
            </tr> 
            <tr> 
              <td> kg/s</td> 
              <td> kilogram / second</td> 
            </tr> 
            <tr> 
              <td> kL</td> 
              <td> kiloliter</td> 
            </tr> 
            <tr> 
              <td> km</td> 
              <td> kilometer</td> 
            </tr> 
            <tr> 
              <td> kPa</td> 
              <td> kiloPascal</td> 
            </tr> 
            <tr> 
              <td> ks</td> 
              <td> kilosecond</td> 
            </tr> 
            <tr> 
              <td> kU/g</td> 
              <td> kiloenzyme Unit per gram</td> 
            </tr> 
            <tr> 
              <td> kU/h</td> 
              <td> kiloUnit / hour</td> 
            </tr> 
            <tr> 
              <td> kU/L</td> 
              <td> kiloenzyme Unit per liter</td> 
            </tr> 
            <tr> 
              <td> kU/mL</td> 
              <td> kilo enzyme unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> L</td> 
              <td> liter</td> 
            </tr> 
            <tr> 
              <td> L.s2/s</td> 
              <td> liter * (second ^ 2) / second</td> 
            </tr> 
            <tr> 
              <td> L/(8.h)</td> 
              <td> liter per 8 hour</td> 
            </tr> 
            <tr> 
              <td> L/(min.m2)</td> 
              <td> liter per minute per square meter</td> 
            </tr> 
            <tr> 
              <td> L/d</td> 
              <td> liter per day</td> 
            </tr> 
            <tr> 
              <td> L/h</td> 
              <td> liter per hour</td> 
            </tr> 
            <tr> 
              <td> L/kg</td> 
              <td> liter per kilogram</td> 
            </tr> 
            <tr> 
              <td> L/L</td> 
              <td> liter per liter</td> 
            </tr> 
            <tr> 
              <td> L/min</td> 
              <td> liter per minute</td> 
            </tr> 
            <tr> 
              <td> L/s</td> 
              <td> liter / second</td> 
            </tr> 
            <tr> 
              <td> lm/m2</td> 
              <td> lumen / (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> m</td> 
              <td> meter</td> 
            </tr> 
            <tr> 
              <td> m/s</td> 
              <td> meter per second</td> 
            </tr> 
            <tr> 
              <td> m/s2</td> 
              <td> meter per square second</td> 
            </tr> 
            <tr> 
              <td> m[iU]</td> 
              <td> milliinternational unit</td> 
            </tr> 
            <tr> 
              <td> m[IU]/L</td> 
              <td> milli international unit per liter</td> 
            </tr> 
            <tr> 
              <td> m[IU]/mL</td> 
              <td> milli international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> m2</td> 
              <td> square meter</td> 
            </tr> 
            <tr> 
              <td> m2/s</td> 
              <td> square meter per second</td> 
            </tr> 
            <tr> 
              <td> m3/s</td> 
              <td> cubic meter per second</td> 
            </tr> 
            <tr> 
              <td> mA</td> 
              <td> milliAmpère</td> 
            </tr> 
            <tr> 
              <td> mbar</td> 
              <td> millibar</td> 
            </tr> 
            <tr> 
              <td> mbar.s/L</td> 
              <td> millibar second per liter</td> 
            </tr> 
            <tr> 
              <td> MBq</td> 
              <td> megaBecquerel</td> 
            </tr> 
            <tr> 
              <td> mCi</td> 
              <td> milliCurie</td> 
            </tr> 
            <tr> 
              <td> meq</td> 
              <td> milliequivalent</td> 
            </tr> 
            <tr> 
              <td> meq/(12.h)</td> 
              <td> milliequivalent per 12 hour</td> 
            </tr> 
            <tr> 
              <td> meq/(2.h)</td> 
              <td> milliequivalent per 2 hour</td> 
            </tr> 
            <tr> 
              <td> meq/(24.h)</td> 
              <td> milliequivalent per 24 hour</td> 
            </tr> 
            <tr> 
              <td> meq/(8.h)</td> 
              <td> milliequivalent per 8 hour</td> 
            </tr> 
            <tr> 
              <td> meq/(8.h.kg)</td> 
              <td> milliequivalents / 8 * hour * kilogram</td> 
            </tr> 
            <tr> 
              <td> meq/(kg.d)</td> 
              <td> milliequivalents / kilogram * day</td> 
            </tr> 
            <tr> 
              <td> meq/{Specimen}</td> 
              <td> milliequivalents / Specimen</td> 
            </tr> 
            <tr> 
              <td> meq/d</td> 
              <td> milliequivalent per day</td> 
            </tr> 
            <tr> 
              <td> meq/dL</td> 
              <td> milliequivalent per deciliter</td> 
            </tr> 
            <tr> 
              <td> meq/g</td> 
              <td> milliequivalent per gram</td> 
            </tr> 
            <tr> 
              <td> meq/g{Cre}</td> 
              <td> milliequivalents / gram Cre</td> 
            </tr> 
            <tr> 
              <td> meq/h</td> 
              <td> milliequivalent per hour</td> 
            </tr> 
            <tr> 
              <td> meq/kg</td> 
              <td> milliequivalent per kilogram</td> 
            </tr> 
            <tr> 
              <td> meq/kg/h</td> 
              <td> milliequivalent per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> meq/kg/min</td> 
              <td> milliequivalents / kilogram / minute</td> 
            </tr> 
            <tr> 
              <td> meq/L</td> 
              <td> milliequivalent per liter</td> 
            </tr> 
            <tr> 
              <td> meq/m2</td> 
              <td> milliequivalent per square meter</td> 
            </tr> 
            <tr> 
              <td> meq/min</td> 
              <td> milliequivalent per minute</td> 
            </tr> 
            <tr> 
              <td> meq/mL</td> 
              <td> milliequivalent per milliliter</td> 
            </tr> 
            <tr> 
              <td> mg</td> 
              <td> milligram</td> 
            </tr> 
            <tr> 
              <td> mg/(10.h)</td> 
              <td> milligram per 10 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(12.h)</td> 
              <td> milligram per 12 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(18.h)</td> 
              <td> milligram per 18 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(2.h)</td> 
              <td> milligram per 2 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(24.h)</td> 
              <td> milligram per 24 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(72.h)</td> 
              <td> milligram per 72 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(8.h)</td> 
              <td> milligram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mg/(8.h.kg)</td> 
              <td> milligram / 8 * hour * kilogram</td> 
            </tr> 
            <tr> 
              <td> mg/(kg.h)</td> 
              <td> milligram / kilogram * hour</td> 
            </tr> 
            <tr> 
              <td> mg/{Hgb}/g</td> 
              <td> milligram / Hgb / gram</td> 
            </tr> 
            <tr> 
              <td> mg/{Specimen}</td> 
              <td> milligram / Specimen</td> 
            </tr> 
            <tr> 
              <td> mg/{Tot'Volume}</td> 
              <td> milligram / Tot'Volume</td> 
            </tr> 
            <tr> 
              <td> mg/{Volume}</td> 
              <td> milligram / Volume</td> 
            </tr> 
            <tr> 
              <td> mg/d</td> 
              <td> milligram per day</td> 
            </tr> 
            <tr> 
              <td> mg/d/(173.10*-2.m2)</td> 
              <td> milligram / day / 173 * (the number ten for arbitrary powers ^ -2) * (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> mg/dL</td> 
              <td> milligram per deciliter</td> 
            </tr> 
            <tr> 
              <td> mg/g</td> 
              <td> milligram per gram</td> 
            </tr> 
            <tr> 
              <td> mg/g{Cre}</td> 
              <td> milligram / gram Cre</td> 
            </tr> 
            <tr> 
              <td> mg/g{creat}</td> 
              <td> milligram per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> mg/h</td> 
              <td> milligram per hour</td> 
            </tr> 
            <tr> 
              <td> mg/kg</td> 
              <td> milligram per kilogram</td> 
            </tr> 
            <tr> 
              <td> mg/kg/(24.h)</td> 
              <td> milligram / kilogram / 24 * hour</td> 
            </tr> 
            <tr> 
              <td> mg/kg/d</td> 
              <td> milligram per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> mg/kg/min</td> 
              <td> milligram per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> mg/L</td> 
              <td> milligram per liter</td> 
            </tr> 
            <tr> 
              <td> mg/m2</td> 
              <td> milligram per square meter</td> 
            </tr> 
            <tr> 
              <td> mg/m3</td> 
              <td> milligram per cubic meter</td> 
            </tr> 
            <tr> 
              <td> mg/mg</td> 
              <td> milligram per milligram</td> 
            </tr> 
            <tr> 
              <td> mg/mg{cre}</td> 
              <td> milligram / milligram cre</td> 
            </tr> 
            <tr> 
              <td> mg/min</td> 
              <td> milligram per minute</td> 
            </tr> 
            <tr> 
              <td> mg/mL</td> 
              <td> milligram per milliliter</td> 
            </tr> 
            <tr> 
              <td> mg/mmol</td> 
              <td> milligram per millimole</td> 
            </tr> 
            <tr> 
              <td> mg/mmol{Cre}</td> 
              <td> milligram / millimole Cre</td> 
            </tr> 
            <tr> 
              <td> mg/mmol{creat}</td> 
              <td> milligram per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> mg/wk</td> 
              <td> milligram per week</td> 
            </tr> 
            <tr> 
              <td> mg{Phenylketones}/dL</td> 
              <td> milligram Phenylketones / deciliter</td> 
            </tr> 
            <tr> 
              <td> min</td> 
              <td> minute</td> 
            </tr> 
            <tr> 
              <td> mL</td> 
              <td> milliliter</td> 
            </tr> 
            <tr> 
              <td> mL/({h'b}.m2)</td> 
              <td> milliliter / h'b * (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> mL/(10.h)</td> 
              <td> milliliter per 10 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(12.h)</td> 
              <td> milliliter per 12 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(2.h)</td> 
              <td> milliliter per 2 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(24.h)</td> 
              <td> milliliter per 24 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(4.h)</td> 
              <td> milliliter per 4 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(72.h)</td> 
              <td> milliliter per 72 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(8.h)</td> 
              <td> milliliter per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(kg.min)</td> 
              <td> milliliter / kilogram * minute</td> 
            </tr> 
            <tr> 
              <td> mL/[sin_i]</td> 
              <td> milliliter per square inch (international)</td> 
            </tr> 
            <tr> 
              <td> mL/{h'b}</td> 
              <td> MilliLitersPerHeartbeat [SI Volume Units]</td> 
            </tr> 
            <tr> 
              <td> mL/cm[H2O]</td> 
              <td> milliliter / centimeter of water column</td> 
            </tr> 
            <tr> 
              <td> mL/d</td> 
              <td> milliliter per day</td> 
            </tr> 
            <tr> 
              <td> mL/dL</td> 
              <td> milliliter per deciliter</td> 
            </tr> 
            <tr> 
              <td> mL/h</td> 
              <td> milliliter per hour</td> 
            </tr> 
            <tr> 
              <td> mL/kg</td> 
              <td> milliliter per kilogram</td> 
            </tr> 
            <tr> 
              <td> mL/kg/(8.h)</td> 
              <td> milliliter per kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mL/kg/d</td> 
              <td> milliliter per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> mL/kg/h</td> 
              <td> milliliter per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> mL/kg/min</td> 
              <td> milliliter per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> mL/L</td> 
              <td> milliliter per liter</td> 
            </tr> 
            <tr> 
              <td> mL/m2</td> 
              <td> milliliter per square meter</td> 
            </tr> 
            <tr> 
              <td> mL/mbar</td> 
              <td> milliliter per millibar</td> 
            </tr> 
            <tr> 
              <td> mL/min</td> 
              <td> milliliter per minute</td> 
            </tr> 
            <tr> 
              <td> mL/min/(173.10*-2.m2)</td> 
              <td> milliliter / minute / 173 * (the number ten for arbitrary powers ^ -2) * (meter ^ 2)</td> 
            </tr> 
            <tr> 
              <td> mL/min/{1.73_m2}</td> 
              <td> milliliter per minute per 1.73 square meter</td> 
            </tr> 
            <tr> 
              <td> mL/min/m2</td> 
              <td> milliliter per minute per square meter</td> 
            </tr> 
            <tr> 
              <td> mL/mm</td> 
              <td> milliliter per millimeter</td> 
            </tr> 
            <tr> 
              <td> mL/s</td> 
              <td> milliliter per second</td> 
            </tr> 
            <tr> 
              <td> mm</td> 
              <td> millimeter</td> 
            </tr> 
            <tr> 
              <td> mm/h</td> 
              <td> millimeter per hour</td> 
            </tr> 
            <tr> 
              <td> mm/min</td> 
              <td> millimeter per minute</td> 
            </tr> 
            <tr> 
              <td> mm[H2O]</td> 
              <td> millimeter of water</td> 
            </tr> 
            <tr> 
              <td> mm[Hg]</td> 
              <td> millimeter of mercury</td> 
            </tr> 
            <tr> 
              <td> mm2</td> 
              <td> square millimeter</td> 
            </tr> 
            <tr> 
              <td> mm3</td> 
              <td> cubic millimeter</td> 
            </tr> 
            <tr> 
              <td> mmol</td> 
              <td> millimole</td> 
            </tr> 
            <tr> 
              <td> mmol/(12.h)</td> 
              <td> millimole per 12 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(18.h)</td> 
              <td> millimole per 18 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(2.h)</td> 
              <td> millimole per 2 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(24.h)</td> 
              <td> millimole per 24 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(6.h)</td> 
              <td> millimole per 6 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(8.h)</td> 
              <td> millimole per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/(8.h.kg)</td> 
              <td> millimole / 8 * hour * kilogram</td> 
            </tr> 
            <tr> 
              <td> mmol/{Tot'Volume}</td> 
              <td> millimole / Tot'Volume</td> 
            </tr> 
            <tr> 
              <td> mmol/d</td> 
              <td> millimole per day</td> 
            </tr> 
            <tr> 
              <td> mmol/dL</td> 
              <td> millimole per deciliter</td> 
            </tr> 
            <tr> 
              <td> mmol/g</td> 
              <td> millimole per gram</td> 
            </tr> 
            <tr> 
              <td> mmol/g{creat}</td> 
              <td> millimole per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> mmol/g{hemoglobin}</td> 
              <td> millimole per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> mmol/h</td> 
              <td> millimole per hour</td> 
            </tr> 
            <tr> 
              <td> mmol/h/mg{Hb}</td> 
              <td> millimole per hour per milligram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> mmol/h/mg{protein}</td> 
              <td> millimole per hour per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> mmol/kg</td> 
              <td> millimole per kilogram</td> 
            </tr> 
            <tr> 
              <td> mmol/kg/d</td> 
              <td> millimole per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> mmol/kg/h</td> 
              <td> millimole per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> mmol/kg/min</td> 
              <td> millimole per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> mmol/kg{H2O}</td> 
              <td> millimole per kilogram of water</td> 
            </tr> 
            <tr> 
              <td> mmol/L</td> 
              <td> millimole per liter</td> 
            </tr> 
            <tr> 
              <td> mmol/L/s</td> 
              <td> millimole per liter per second</td> 
            </tr> 
            <tr> 
              <td> mmol/m</td> 
              <td> millimole / meter</td> 
            </tr> 
            <tr> 
              <td> mmol/m2</td> 
              <td> millimole per square meter</td> 
            </tr> 
            <tr> 
              <td> mmol/min</td> 
              <td> millimole per minute</td> 
            </tr> 
            <tr> 
              <td> mmol/mmol</td> 
              <td> millimole per millimole</td> 
            </tr> 
            <tr> 
              <td> mmol/mol</td> 
              <td> millimole per mole</td> 
            </tr> 
            <tr> 
              <td> mmol/mol{creat}</td> 
              <td> millimole per mole of creatinine</td> 
            </tr> 
            <tr> 
              <td> mmol/s/L</td> 
              <td> millimole per second per liter</td> 
            </tr> 
            <tr> 
              <td> mo</td> 
              <td> month</td> 
            </tr> 
            <tr> 
              <td> mol</td> 
              <td> mole</td> 
            </tr> 
            <tr> 
              <td> mol/d</td> 
              <td> mole per day</td> 
            </tr> 
            <tr> 
              <td> mol/kg</td> 
              <td> mole per kilogram</td> 
            </tr> 
            <tr> 
              <td> mol/kg/s</td> 
              <td> mole per kilogram per second</td> 
            </tr> 
            <tr> 
              <td> mol/L</td> 
              <td> mole per liter</td> 
            </tr> 
            <tr> 
              <td> mol/m3</td> 
              <td> mole per cubic meter</td> 
            </tr> 
            <tr> 
              <td> mol/mL</td> 
              <td> mole per milliliter</td> 
            </tr> 
            <tr> 
              <td> mol/mol</td> 
              <td> mole per mole</td> 
            </tr> 
            <tr> 
              <td> mol/mol{creat}</td> 
              <td> mole / mole creat</td> 
            </tr> 
            <tr> 
              <td> mol/s</td> 
              <td> mole per second</td> 
            </tr> 
            <tr> 
              <td> mosm</td> 
              <td> milliosmole</td> 
            </tr> 
            <tr> 
              <td> mosm/kg</td> 
              <td> milliosmole per kilogram</td> 
            </tr> 
            <tr> 
              <td> mosm/L</td> 
              <td> milliosmole per liter</td> 
            </tr> 
            <tr> 
              <td> mPa</td> 
              <td> millipascal</td> 
            </tr> 
            <tr> 
              <td> ms</td> 
              <td> millisecond</td> 
            </tr> 
            <tr> 
              <td> mU</td> 
              <td> millienzyme Unit</td> 
            </tr> 
            <tr> 
              <td> mU/g</td> 
              <td> millienzyme Unit per gram</td> 
            </tr> 
            <tr> 
              <td> mU/g{Hgb}</td> 
              <td> milliUnit / gram Hgb</td> 
            </tr> 
            <tr> 
              <td> mU/L</td> 
              <td> millienzyme Unit per liter</td> 
            </tr> 
            <tr> 
              <td> mU/mg</td> 
              <td> milliUnit / milligram</td> 
            </tr> 
            <tr> 
              <td> mU/mg{Cre}</td> 
              <td> milliUnit / milligram Cre</td> 
            </tr> 
            <tr> 
              <td> mU/min</td> 
              <td> milliUnit / minute</td> 
            </tr> 
            <tr> 
              <td> mU/mL</td> 
              <td> millienzyme Unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> mU/mL/min</td> 
              <td> millienzyme Unit per milliliter per minute</td> 
            </tr> 
            <tr> 
              <td> mU/mmol{creatinine}</td> 
              <td> millienzyme Unit per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> mU/mmol{RBCs}</td> 
              <td> millienzyme Unit per millimole of red blood cells</td> 
            </tr> 
            <tr> 
              <td> mV</td> 
              <td> milliVolt</td> 
            </tr> 
            <tr> 
              <td> N</td> 
              <td> Newton</td> 
            </tr> 
            <tr> 
              <td> N.cm</td> 
              <td> Newton centimeter</td> 
            </tr> 
            <tr> 
              <td> N.s</td> 
              <td> Newton second</td> 
            </tr> 
            <tr> 
              <td> nCi</td> 
              <td> nanoCurie</td> 
            </tr> 
            <tr> 
              <td> ng</td> 
              <td> nanogram</td> 
            </tr> 
            <tr> 
              <td> ng/(24.h)</td> 
              <td> nanogram per 24 hour</td> 
            </tr> 
            <tr> 
              <td> ng/(8.h)</td> 
              <td> nanogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> ng/(8.h.kg)</td> 
              <td> nanogram / 8 * hour * kilogram</td> 
            </tr> 
            <tr> 
              <td> ng/(kg.d)</td> 
              <td> nanogram / kilogram * day</td> 
            </tr> 
            <tr> 
              <td> ng/(kg.h)</td> 
              <td> nanogram / kilogram * hour</td> 
            </tr> 
            <tr> 
              <td> ng/(kg.min)</td> 
              <td> nanogram / kilogram * minute</td> 
            </tr> 
            <tr> 
              <td> ng/10*6</td> 
              <td> nanogram per million</td> 
            </tr> 
            <tr> 
              <td> ng/d</td> 
              <td> nanogram per day</td> 
            </tr> 
            <tr> 
              <td> ng/dL</td> 
              <td> nanogram per deciliter</td> 
            </tr> 
            <tr> 
              <td> ng/dL/h</td> 
              <td> nanogram / deciliter / hour</td> 
            </tr> 
            <tr> 
              <td> ng/g</td> 
              <td> nanogram per gram</td> 
            </tr> 
            <tr> 
              <td> ng/g{Cre}</td> 
              <td> nanogram / gram Cre</td> 
            </tr> 
            <tr> 
              <td> ng/g{creat}</td> 
              <td> nanogram per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> ng/h</td> 
              <td> nanogram per hour</td> 
            </tr> 
            <tr> 
              <td> ng/kg</td> 
              <td> nanogram per kilogram</td> 
            </tr> 
            <tr> 
              <td> ng/kg/(8.h)</td> 
              <td> nanogram per kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> ng/kg/h</td> 
              <td> nanogram per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> ng/kg/min</td> 
              <td> nanogram per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> ng/L</td> 
              <td> nanogram per liter</td> 
            </tr> 
            <tr> 
              <td> ng/m2</td> 
              <td> nanogram per square meter</td> 
            </tr> 
            <tr> 
              <td> ng/mg</td> 
              <td> nanogram per milligram</td> 
            </tr> 
            <tr> 
              <td> ng/mg/h</td> 
              <td> nanogram per milligram per hour</td> 
            </tr> 
            <tr> 
              <td> ng/mg{Protein}</td> 
              <td> nanogram / milligram Protein</td> 
            </tr> 
            <tr> 
              <td> ng/min</td> 
              <td> nanogram per minute</td> 
            </tr> 
            <tr> 
              <td> ng/mL</td> 
              <td> nanogram per millliiter</td> 
            </tr> 
            <tr> 
              <td> ng/mL/h</td> 
              <td> nanogram per milliliter per hour</td> 
            </tr> 
            <tr> 
              <td> ng/mL{rbc}</td> 
              <td> nanogram / milliliter rbc</td> 
            </tr> 
            <tr> 
              <td> ng/s</td> 
              <td> nanogram per second</td> 
            </tr> 
            <tr> 
              <td> nkat</td> 
              <td> nanokatal</td> 
            </tr> 
            <tr> 
              <td> nL</td> 
              <td> nanoliter</td> 
            </tr> 
            <tr> 
              <td> nm</td> 
              <td> nanometer</td> 
            </tr> 
            <tr> 
              <td> nm/s/L</td> 
              <td> nanometer per second per liter</td> 
            </tr> 
            <tr> 
              <td> nmol</td> 
              <td> nanomole</td> 
            </tr> 
            <tr> 
              <td> nmol/(24.h)</td> 
              <td> nanomole per 24 hour</td> 
            </tr> 
            <tr> 
              <td> nmol/d</td> 
              <td> nanomole per day</td> 
            </tr> 
            <tr> 
              <td> nmol/dL</td> 
              <td> nanomole per deciliter</td> 
            </tr> 
            <tr> 
              <td> nmol/g</td> 
              <td> nanomole per gram</td> 
            </tr> 
            <tr> 
              <td> nmol/g{Cre}</td> 
              <td> nanomole / gram Cre</td> 
            </tr> 
            <tr> 
              <td> nmol/g{creat}</td> 
              <td> nanomole per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> nmol/g{dry_wt}</td> 
              <td> nanomole per gram of dry weight</td> 
            </tr> 
            <tr> 
              <td> nmol/h/L</td> 
              <td> nanomole per hour per liter</td> 
            </tr> 
            <tr> 
              <td> nmol/h/mg{protein}</td> 
              <td> nanomole per hour per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> nmol/h/mL</td> 
              <td> nanomole per hour per milliliter</td> 
            </tr> 
            <tr> 
              <td> nmol/L</td> 
              <td> nanomole per liter</td> 
            </tr> 
            <tr> 
              <td> nmol/L/mmol{creat}</td> 
              <td> nanomole per liter per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> nmol/L/s</td> 
              <td> nanomole per liter per second</td> 
            </tr> 
            <tr> 
              <td> nmol/L{RBCs}</td> 
              <td> nanomole per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> nmol/m/mg{protein}</td> 
              <td> nanomole per meter per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> nmol/mg</td> 
              <td> nanomole per milligram</td> 
            </tr> 
            <tr> 
              <td> nmol/mg/h</td> 
              <td> nanomole per milligram per hour</td> 
            </tr> 
            <tr> 
              <td> nmol/min/mg{hemoglobin}</td> 
              <td> nanomole per minute per milligram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> nmol/min/mg{protein}</td> 
              <td> nanomole per minute per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> nmol/min/mL</td> 
              <td> nanomole per minute per milliliter</td> 
            </tr> 
            <tr> 
              <td> nmol/mL</td> 
              <td> nanomole per milliliter</td> 
            </tr> 
            <tr> 
              <td> nmol/mL/h</td> 
              <td> nanomole per milliliter per hour</td> 
            </tr> 
            <tr> 
              <td> nmol/mL/min</td> 
              <td> nanomole per milliliter per minute</td> 
            </tr> 
            <tr> 
              <td> nmol/mmol</td> 
              <td> nanomole per millimole</td> 
            </tr> 
            <tr> 
              <td> nmol/mmol{Cre}</td> 
              <td> nanomole / millimole Cre</td> 
            </tr> 
            <tr> 
              <td> nmol/mmol{creat}</td> 
              <td> nanomole per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> nmol/mol</td> 
              <td> nanomole per mole</td> 
            </tr> 
            <tr> 
              <td> nmol/nmol</td> 
              <td> nanomole per nanomole</td> 
            </tr> 
            <tr> 
              <td> nmol/s</td> 
              <td> nanomole per second</td> 
            </tr> 
            <tr> 
              <td> nmol/s/L</td> 
              <td> nanomole per second per liter</td> 
            </tr> 
            <tr> 
              <td> nmol/umol{creat}</td> 
              <td> nanomole per micromole  of creatinine</td> 
            </tr> 
            <tr> 
              <td> ns</td> 
              <td> nanosecond</td> 
            </tr> 
            <tr> 
              <td> Ohm</td> 
              <td> Ohm</td> 
            </tr> 
            <tr> 
              <td> osm/kg</td> 
              <td> osmole per kilogram</td> 
            </tr> 
            <tr> 
              <td> osm/L</td> 
              <td> osmole per liter</td> 
            </tr> 
            <tr> 
              <td> Pa</td> 
              <td> Pascal</td> 
            </tr> 
            <tr> 
              <td> pg</td> 
              <td> picogram</td> 
            </tr> 
            <tr> 
              <td> pg/dL</td> 
              <td> picogram per deciliter</td> 
            </tr> 
            <tr> 
              <td> pg/L</td> 
              <td> picogram per liter</td> 
            </tr> 
            <tr> 
              <td> pg/mg</td> 
              <td> picogram per milligram</td> 
            </tr> 
            <tr> 
              <td> pg/mL</td> 
              <td> picogram per milliliter</td> 
            </tr> 
            <tr> 
              <td> pg/mm</td> 
              <td> picogram per millimeter</td> 
            </tr> 
            <tr> 
              <td> pkat</td> 
              <td> picokatal</td> 
            </tr> 
            <tr> 
              <td> pL</td> 
              <td> picoliter</td> 
            </tr> 
            <tr> 
              <td> pm</td> 
              <td> picometer</td> 
            </tr> 
            <tr> 
              <td> pmol</td> 
              <td> picomole</td> 
            </tr> 
            <tr> 
              <td> pmol/d</td> 
              <td> picomole per day</td> 
            </tr> 
            <tr> 
              <td> pmol/dL</td> 
              <td> picomole per deciliter</td> 
            </tr> 
            <tr> 
              <td> pmol/g</td> 
              <td> picomole per gram</td> 
            </tr> 
            <tr> 
              <td> pmol/h/mg{protein}</td> 
              <td> picomole per hour per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> pmol/h/mL</td> 
              <td> picomole per hour per milliliter</td> 
            </tr> 
            <tr> 
              <td> pmol/L</td> 
              <td> picomole per liter</td> 
            </tr> 
            <tr> 
              <td> pmol/mg{protein}</td> 
              <td> picomole per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> pmol/min</td> 
              <td> picomole per minute</td> 
            </tr> 
            <tr> 
              <td> pmol/min/mg{protein}</td> 
              <td> picomole per minute per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> pmol/mL</td> 
              <td> picomole per milliliter</td> 
            </tr> 
            <tr> 
              <td> pmol/mmol</td> 
              <td> picomole per millimole</td> 
            </tr> 
            <tr> 
              <td> pmol/mmol{creat}</td> 
              <td> picomole per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> pmol/mol</td> 
              <td> picomole per mole</td> 
            </tr> 
            <tr> 
              <td> pmol/umol</td> 
              <td> picomole per micromole</td> 
            </tr> 
            <tr> 
              <td> pmol/umol{creat}</td> 
              <td> picomole per micromole of creatinine</td> 
            </tr> 
            <tr> 
              <td> ps</td> 
              <td> picosecond</td> 
            </tr> 
            <tr> 
              <td> pT</td> 
              <td> picotesla</td> 
            </tr> 
            <tr> 
              <td> s</td> 
              <td> second</td> 
            </tr> 
            <tr> 
              <td> St</td> 
              <td> Stokes</td> 
            </tr> 
            <tr> 
              <td> t</td> 
              <td> tonne</td> 
            </tr> 
            <tr> 
              <td> U</td> 
              <td> enzyme Unit</td> 
            </tr> 
            <tr> 
              <td> U/(1.h)</td> 
              <td> enzyme Unit per 1 hour</td> 
            </tr> 
            <tr> 
              <td> U/(12.h)</td> 
              <td> enzyme unit per 12 hour</td> 
            </tr> 
            <tr> 
              <td> U/(18.h)</td> 
              <td> enzyme Unit per 18 hour</td> 
            </tr> 
            <tr> 
              <td> U/(2.h)</td> 
              <td> enzyme unit per 2 hour</td> 
            </tr> 
            <tr> 
              <td> U/(24.h)</td> 
              <td> enzyme unit per 24 hour</td> 
            </tr> 
            <tr> 
              <td> U/10*10{cells}</td> 
              <td> enzyme unit per 10 billion cells</td> 
            </tr> 
            <tr> 
              <td> U/10*12</td> 
              <td> enzyme unit per trillion</td> 
            </tr> 
            <tr> 
              <td> U/10*6</td> 
              <td> enzyme unit per million</td> 
            </tr> 
            <tr> 
              <td> U/10*9</td> 
              <td> enzyme unit per billion</td> 
            </tr> 
            <tr> 
              <td> U/d</td> 
              <td> enzyme unit per day</td> 
            </tr> 
            <tr> 
              <td> U/dL</td> 
              <td> enzyme unit per deciliter</td> 
            </tr> 
            <tr> 
              <td> U/g</td> 
              <td> enzyme unit per gram</td> 
            </tr> 
            <tr> 
              <td> U/g{Cre}</td> 
              <td> Unit / gram Cre</td> 
            </tr> 
            <tr> 
              <td> U/g{Hb}</td> 
              <td> enzyme unit per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> U/g{hemoglobin}</td> 
              <td> enzyme Unit per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> U/g{Hgb}</td> 
              <td> UnitsPerGramHemoglobin</td> 
            </tr> 
            <tr> 
              <td> U/h</td> 
              <td> enzyme unit per hour</td> 
            </tr> 
            <tr> 
              <td> U/kg/h</td> 
              <td> Unit / kilogram / hour</td> 
            </tr> 
            <tr> 
              <td> U/kg{Hb}</td> 
              <td> enzyme unit per kilogram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> U/kg{hemoglobin}</td> 
              <td> enzyme Unit per kilogram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> U/L</td> 
              <td> enzyme unit per liter</td> 
            </tr> 
            <tr> 
              <td> U/min</td> 
              <td> enzyme unit per minute</td> 
            </tr> 
            <tr> 
              <td> U/mL</td> 
              <td> enzyme unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> U/mL{RBC}</td> 
              <td> Unit / milliliter RBC</td> 
            </tr> 
            <tr> 
              <td> U/mL{RBCs}</td> 
              <td> enzyme unit per milliliter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> U/mmol{creat}</td> 
              <td> enzyme unit per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> U/mol</td> 
              <td> enzyme Unit per mole</td> 
            </tr> 
            <tr> 
              <td> U/s</td> 
              <td> enzyme unit per second</td> 
            </tr> 
            <tr> 
              <td> U/umol</td> 
              <td> enzyme Unit per micromole</td> 
            </tr> 
            <tr> 
              <td> u[IU]</td> 
              <td> micro international unit</td> 
            </tr> 
            <tr> 
              <td> u[IU]/L</td> 
              <td> microinternational unit per liter</td> 
            </tr> 
            <tr> 
              <td> u[IU]/mL</td> 
              <td> micro international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> ueq</td> 
              <td> microequivalents</td> 
            </tr> 
            <tr> 
              <td> ueq/L</td> 
              <td> microequivalent per liter</td> 
            </tr> 
            <tr> 
              <td> ueq/mL</td> 
              <td> microequivalent per milliliter</td> 
            </tr> 
            <tr> 
              <td> ug</td> 
              <td> microgram</td> 
            </tr> 
            <tr> 
              <td> ug/(24.h)</td> 
              <td> microgram per 24 hour</td> 
            </tr> 
            <tr> 
              <td> ug/(8.h)</td> 
              <td> microgram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> ug/(kg.d)</td> 
              <td> microgram / kilogram * day</td> 
            </tr> 
            <tr> 
              <td> ug/(kg.h)</td> 
              <td> microgram / kilogram * hour</td> 
            </tr> 
            <tr> 
              <td> ug/{Specimen}</td> 
              <td> microgram / Specimen</td> 
            </tr> 
            <tr> 
              <td> ug/{TotalVolume}</td> 
              <td> MicroGramsPerTotalVolume</td> 
            </tr> 
            <tr> 
              <td> ug/d</td> 
              <td> microgram per day</td> 
            </tr> 
            <tr> 
              <td> ug/dL</td> 
              <td> microgram per deciliter</td> 
            </tr> 
            <tr> 
              <td> ug/dL{rbc}</td> 
              <td> microgram / deciliter rbc</td> 
            </tr> 
            <tr> 
              <td> ug/g</td> 
              <td> microgram per gram</td> 
            </tr> 
            <tr> 
              <td> ug/g{Cre}</td> 
              <td> microgram / gram Cre</td> 
            </tr> 
            <tr> 
              <td> ug/g{creat}</td> 
              <td> microgram per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> ug/g{DryWeight}</td> 
              <td> microgram / gram DryWeight</td> 
            </tr> 
            <tr> 
              <td> ug/g{Hgb}</td> 
              <td> microgram / gram Hgb</td> 
            </tr> 
            <tr> 
              <td> ug/g{Tissue}</td> 
              <td> microgram / gram Tissue</td> 
            </tr> 
            <tr> 
              <td> ug/h</td> 
              <td> microgram per hour</td> 
            </tr> 
            <tr> 
              <td> ug/kg</td> 
              <td> microgram per kilogram</td> 
            </tr> 
            <tr> 
              <td> ug/kg/(8.h)</td> 
              <td> microgram per kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> ug/kg/d</td> 
              <td> microgram per kilogram per day</td> 
            </tr> 
            <tr> 
              <td> ug/kg/h</td> 
              <td> microgram per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> ug/kg/min</td> 
              <td> microgram per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> ug/L</td> 
              <td> microgram per liter</td> 
            </tr> 
            <tr> 
              <td> ug/L/(24.h)</td> 
              <td> microgram per liter per 24 hour</td> 
            </tr> 
            <tr> 
              <td> ug/L{DDU}</td> 
              <td> microgram / liter DDU</td> 
            </tr> 
            <tr> 
              <td> ug/m2</td> 
              <td> microgram per square meter</td> 
            </tr> 
            <tr> 
              <td> ug/mg</td> 
              <td> microgram per milligram</td> 
            </tr> 
            <tr> 
              <td> ug/mg{Cre}</td> 
              <td> microgram / milligram Cre</td> 
            </tr> 
            <tr> 
              <td> ug/mg{creat}</td> 
              <td> microgram per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> ug/min</td> 
              <td> microgram per minute</td> 
            </tr> 
            <tr> 
              <td> ug/mL</td> 
              <td> microgram per milliliter</td> 
            </tr> 
            <tr> 
              <td> ug/mL{FEU}</td> 
              <td> microgram / milliliter FEU</td> 
            </tr> 
            <tr> 
              <td> ug/mmol</td> 
              <td> microgram per millimole</td> 
            </tr> 
            <tr> 
              <td> ug/ng</td> 
              <td> microgram per nanogram</td> 
            </tr> 
            <tr> 
              <td> ug{T4}/dL</td> 
              <td> microgram T4 / deciliter</td> 
            </tr> 
            <tr> 
              <td> ukat</td> 
              <td> microkatal</td> 
            </tr> 
            <tr> 
              <td> uL</td> 
              <td> microliter</td> 
            </tr> 
            <tr> 
              <td> uL/(2.h)</td> 
              <td> microliter per 2 hour</td> 
            </tr> 
            <tr> 
              <td> uL/h</td> 
              <td> microliter per hour</td> 
            </tr> 
            <tr> 
              <td> um</td> 
              <td> micrometer</td> 
            </tr> 
            <tr> 
              <td> um/s</td> 
              <td> micrometer per second</td> 
            </tr> 
            <tr> 
              <td> umol</td> 
              <td> micromole</td> 
            </tr> 
            <tr> 
              <td> umol/(24.h)</td> 
              <td> micromole per 24 hour</td> 
            </tr> 
            <tr> 
              <td> umol/d</td> 
              <td> micromole per day</td> 
            </tr> 
            <tr> 
              <td> umol/dL</td> 
              <td> micromole per deciliter</td> 
            </tr> 
            <tr> 
              <td> umol/g</td> 
              <td> micromole per gram</td> 
            </tr> 
            <tr> 
              <td> umol/g{Cre}</td> 
              <td> micromole / gram Cre</td> 
            </tr> 
            <tr> 
              <td> umol/g{creat}</td> 
              <td> micromole per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> umol/g{Hb}</td> 
              <td> micromole per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> umol/g{hemoglobin}</td> 
              <td> micromole per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> umol/g{Hgb}</td> 
              <td> micromole / gram Hgb</td> 
            </tr> 
            <tr> 
              <td> umol/h</td> 
              <td> micromole per hour</td> 
            </tr> 
            <tr> 
              <td> umol/h/g</td> 
              <td> micromole / hour / gram</td> 
            </tr> 
            <tr> 
              <td> umol/h/L</td> 
              <td> micromole per hour per liter</td> 
            </tr> 
            <tr> 
              <td> umol/h/mg{protein}</td> 
              <td> micromole per hour per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> umol/kg</td> 
              <td> micromole per kilogram</td> 
            </tr> 
            <tr> 
              <td> umol/L</td> 
              <td> micromole per liter</td> 
            </tr> 
            <tr> 
              <td> umol/L/h</td> 
              <td> micromole per liter per hour</td> 
            </tr> 
            <tr> 
              <td> umol/L{rbc}</td> 
              <td> micromole per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> umol/m</td> 
              <td> micromole / meter</td> 
            </tr> 
            <tr> 
              <td> umol/mg</td> 
              <td> micromole per milligram</td> 
            </tr> 
            <tr> 
              <td> umol/mg{Cre}</td> 
              <td> micromole / milligram Cre</td> 
            </tr> 
            <tr> 
              <td> umol/min</td> 
              <td> micromole per minute</td> 
            </tr> 
            <tr> 
              <td> umol/min/g</td> 
              <td> micromole per minute per gram</td> 
            </tr> 
            <tr> 
              <td> umol/min/g{prot}</td> 
              <td> micromole / minute / gram prot</td> 
            </tr> 
            <tr> 
              <td> umol/min/g{protein}</td> 
              <td> micromole per minute per gram of protein</td> 
            </tr> 
            <tr> 
              <td> umol/min/L</td> 
              <td> micromole per minute per liter</td> 
            </tr> 
            <tr> 
              <td> umol/mL</td> 
              <td> micromole per milliliter</td> 
            </tr> 
            <tr> 
              <td> umol/mL/min</td> 
              <td> micromole per milliliter per minute</td> 
            </tr> 
            <tr> 
              <td> umol/mmol</td> 
              <td> micromole per millimole</td> 
            </tr> 
            <tr> 
              <td> umol/mol</td> 
              <td> micromole per mole</td> 
            </tr> 
            <tr> 
              <td> umol/mol{Cre}</td> 
              <td> micromole / mole Cre</td> 
            </tr> 
            <tr> 
              <td> umol/mol{creat}</td> 
              <td> micromole per mole of creatinine</td> 
            </tr> 
            <tr> 
              <td> umol/mol{Hb}</td> 
              <td> micromole per mole of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> umol/umol</td> 
              <td> micromole per micromole</td> 
            </tr> 
            <tr> 
              <td> uOhm</td> 
              <td> microOhm</td> 
            </tr> 
            <tr> 
              <td> us</td> 
              <td> microsecond</td> 
            </tr> 
            <tr> 
              <td> uU</td> 
              <td> microUnit</td> 
            </tr> 
            <tr> 
              <td> uU/g</td> 
              <td> micro enzyme unit per gram</td> 
            </tr> 
            <tr> 
              <td> uU/L</td> 
              <td> micro enzyme unit per liter</td> 
            </tr> 
            <tr> 
              <td> uU/mL</td> 
              <td> micro enzyme unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> uV</td> 
              <td> microvolt</td> 
            </tr> 
            <tr> 
              <td> V</td> 
              <td> volt</td> 
            </tr> 
            <tr> 
              <td> wk</td> 
              <td> week</td> 
            </tr> 
            <tr> 
              <td> 10.uN.s/(cm5.m2)</td> 
              <td> 10 micronewton second per centimeter to the fifth power per square meter</td> 
            </tr> 
            <tr> 
              <td> 10*4/uL</td> 
              <td> 10 thousand per microliter</td> 
            </tr> 
            <tr> 
              <td> 24.h</td> 
              <td> 24 hour</td> 
            </tr> 
            <tr> 
              <td> A</td> 
              <td> Ampère</td> 
            </tr> 
            <tr> 
              <td> {ARU}</td> 
              <td> aspirin response unit</td> 
            </tr> 
            <tr> 
              <td> atm</td> 
              <td> standard atmosphere</td> 
            </tr> 
            <tr> 
              <td> ag/{cell}</td> 
              <td> attogram per cell</td> 
            </tr> 
            <tr> 
              <td> Bq</td> 
              <td> Becquerel</td> 
            </tr> 
            <tr> 
              <td> {binding_index}</td> 
              <td> binding index</td> 
            </tr> 
            <tr> 
              <td> [bdsk'U]</td> 
              <td> Bodansky unit</td> 
            </tr> 
            <tr> 
              <td> {CAG_repeats}</td> 
              <td> CAG trinucleotide repeats</td> 
            </tr> 
            <tr> 
              <td> cal</td> 
              <td> calorie</td> 
            </tr> 
            <tr> 
              <td> cm[H2O]/s/m</td> 
              <td> centimeter of water per second per meter</td> 
            </tr> 
            <tr> 
              <td> {delta_OD}</td> 
              <td> change in (delta) optical density</td> 
            </tr> 
            <tr> 
              <td> {copies}</td> 
              <td> copies</td> 
            </tr> 
            <tr> 
              <td> {count}</td> 
              <td> count</td> 
            </tr> 
            <tr> 
              <td> {CPM}</td> 
              <td> counts per minute</td> 
            </tr> 
            <tr> 
              <td> {CPM}/10*3{cell}</td> 
              <td> counts per minute per thousand cells</td> 
            </tr> 
            <tr> 
              <td> daL/min</td> 
              <td> dekaliter per minute</td> 
            </tr> 
            <tr> 
              <td> daL/min/m2</td> 
              <td> dekaliter per minute per square meter</td> 
            </tr> 
            <tr> 
              <td> {dilution}</td> 
              <td> dilution</td> 
            </tr> 
            <tr> 
              <td> dyn.s/cm</td> 
              <td> dyne second per centimeter</td> 
            </tr> 
            <tr> 
              <td> dyn.s/(cm.m2)</td> 
              <td> dyne second per centimeter per square meter</td> 
            </tr> 
            <tr> 
              <td> {Ehrlich'U}/100.g</td> 
              <td> Ehrlich unit per 100 gram</td> 
            </tr> 
            <tr> 
              <td> {EIA_index}</td> 
              <td> EIA index</td> 
            </tr> 
            <tr> 
              <td> {EIA_titer}</td> 
              <td> EIA titer</td> 
            </tr> 
            <tr> 
              <td> {EV}</td> 
              <td> EIA value</td> 
            </tr> 
            <tr> 
              <td> U/10</td> 
              <td> enzyme unit per 10</td> 
            </tr> 
            <tr> 
              <td> U/10*10</td> 
              <td> enzyme unit per 10 billion</td> 
            </tr> 
            <tr> 
              <td> U/(10.g){feces}</td> 
              <td> enzyme unit per 10 gram of feces</td> 
            </tr> 
            <tr> 
              <td> U/g{creat}</td> 
              <td> enzyme unit per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> U/g{protein}</td> 
              <td> enzyme unit per gram of protein</td> 
            </tr> 
            <tr> 
              <td> U{25Cel}/L</td> 
              <td> enzyme unit per liter at 25 deg Celsius</td> 
            </tr> 
            <tr> 
              <td> U{37Cel}/L</td> 
              <td> enzyme unit per liter at 37 deg Celsius</td> 
            </tr> 
            <tr> 
              <td> U/10*12{RBCs}</td> 
              <td> enzyme unit per trillion red blood cells</td> 
            </tr> 
            <tr> 
              <td> F</td> 
              <td> Farad</td> 
            </tr> 
            <tr> 
              <td> fmol/mg{cytosol_protein}</td> 
              <td> femtomole per milligram of cytosol protein</td> 
            </tr> 
            <tr> 
              <td> fmol/mg{protein}</td> 
              <td> femtomole per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> {FIU}</td> 
              <td> fluorescent intensity unit</td> 
            </tr> 
            <tr> 
              <td> {fraction}</td> 
              <td> fraction</td> 
            </tr> 
            <tr> 
              <td> {GAA_repeats}</td> 
              <td> GAA trinucleotide repeats</td> 
            </tr> 
            <tr> 
              <td> {genomes}/mL</td> 
              <td> genomes per milliliter</td> 
            </tr> 
            <tr> 
              <td> {Globules}/[HPF]</td> 
              <td> globules (drops)  per high power field</td> 
            </tr> 
            <tr> 
              <td> g.m/{beat}</td> 
              <td> gram meter per heart beat</td> 
            </tr> 
            <tr> 
              <td> g{creat}</td> 
              <td> gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> g{Hb}</td> 
              <td> gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> g{total_nit}</td> 
              <td> gram of total nitrogen</td> 
            </tr> 
            <tr> 
              <td> g{total_prot}</td> 
              <td> gram of total protein</td> 
            </tr> 
            <tr> 
              <td> g{wet_tissue}</td> 
              <td> gram of wet tissue</td> 
            </tr> 
            <tr> 
              <td> g/kg/(8.h)</td> 
              <td> gram per  kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> g/(8.h){shift}</td> 
              <td> gram per 8 hour shift</td> 
            </tr> 
            <tr> 
              <td> g/cm3</td> 
              <td> gram per cubic centimeter</td> 
            </tr> 
            <tr> 
              <td> g/g{globulin}</td> 
              <td> gram per gram of globulin</td> 
            </tr> 
            <tr> 
              <td> g/kg/(8.h){shift}</td> 
              <td> gram per kilogram per 8 hour shift</td> 
            </tr> 
            <tr> 
              <td> g/kg/h</td> 
              <td> gram per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> g/kg/min</td> 
              <td> gram per kilogram per minute</td> 
            </tr> 
            <tr> 
              <td> g/mol{creat}</td> 
              <td> gram per mole of creatinine</td> 
            </tr> 
            <tr> 
              <td> g/{specimen}</td> 
              <td> gram per specimen</td> 
            </tr> 
            <tr> 
              <td> g/{total_output}</td> 
              <td> gram per total output</td> 
            </tr> 
            <tr> 
              <td> g/{total_weight}</td> 
              <td> gram per total weight</td> 
            </tr> 
            <tr> 
              <td> Gy</td> 
              <td> Gray</td> 
            </tr> 
            <tr> 
              <td> {beats}/min</td> 
              <td> heart beats per minute</td> 
            </tr> 
            <tr> 
              <td> H</td> 
              <td> Henry</td> 
            </tr> 
            <tr> 
              <td> [HPF]</td> 
              <td> high power field</td> 
            </tr> 
            <tr> 
              <td> [GPL'U]/mL</td> 
              <td> IgG anticardiolipin unit per milliliter**</td> 
            </tr> 
            <tr> 
              <td> {GPS'U}</td> 
              <td> IgG antiphosphatidylserine unit</td> 
            </tr> 
            <tr> 
              <td> [MPL'U]/mL</td> 
              <td> IgM anticardiolipin unit per milliliter**</td> 
            </tr> 
            <tr> 
              <td> {ISR}</td> 
              <td> immune status ratio</td> 
            </tr> 
            <tr> 
              <td> {IFA_index}</td> 
              <td> immunofluorescence assay index</td> 
            </tr> 
            <tr> 
              <td> {IFA_titer}</td> 
              <td> Immunofluorescence assay titer</td> 
            </tr> 
            <tr> 
              <td> [in_i'H2O]</td> 
              <td> inch (international) of water</td> 
            </tr> 
            <tr> 
              <td> {index_val}</td> 
              <td> index value</td> 
            </tr> 
            <tr> 
              <td> {HA_titer}</td> 
              <td> influenza hemagglutination titer</td> 
            </tr> 
            <tr> 
              <td> [IU]</td> 
              <td> international unit</td> 
            </tr> 
            <tr> 
              <td> [IU]/L{37Cel}</td> 
              <td> international unit per liter at 37 degrees Celsius</td> 
            </tr> 
            <tr> 
              <td> [IU]/mg{creat}</td> 
              <td> international unit per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> kat</td> 
              <td> katal</td> 
            </tr> 
            <tr> 
              <td> kU</td> 
              <td> kilo enzyme unit</td> 
            </tr> 
            <tr> 
              <td> kU/L{class}</td> 
              <td> kilo enzyme unit per liter class</td> 
            </tr> 
            <tr> 
              <td> kcal/d</td> 
              <td> kilocalorie per day</td> 
            </tr> 
            <tr> 
              <td> kcal/kg/(24.h)</td> 
              <td> kilocalorie per kilogram per 24 hour</td> 
            </tr> 
            <tr> 
              <td> kcal/[oz_av]</td> 
              <td> kilocalorie per ounce (US &amp; British)</td> 
            </tr> 
            <tr> 
              <td> [ka'U]</td> 
              <td> King Armstrong unit</td> 
            </tr> 
            <tr> 
              <td> L/(24.h)</td> 
              <td> liter per 24 hour</td> 
            </tr> 
            <tr> 
              <td> L/s/s2</td> 
              <td> liter per second per square second</td> 
            </tr> 
            <tr> 
              <td> {Log_copies}/mL</td> 
              <td> log (base 10) copies per milliliter</td> 
            </tr> 
            <tr> 
              <td> {Log_IU}</td> 
              <td> log (base 10) international unit</td> 
            </tr> 
            <tr> 
              <td> {Log_IU}/mL</td> 
              <td> log (base 10) international unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> {Log}</td> 
              <td> log base 10</td> 
            </tr> 
            <tr> 
              <td> [LPF]</td> 
              <td> low power field</td> 
            </tr> 
            <tr> 
              <td> lm</td> 
              <td> lumen</td> 
            </tr> 
            <tr> 
              <td> lm.m2</td> 
              <td> lumen square meter</td> 
            </tr> 
            <tr> 
              <td> {Lyme_index_value}</td> 
              <td> Lyme index value</td> 
            </tr> 
            <tr> 
              <td> [mclg'U]</td> 
              <td> Mac Lagan unit</td> 
            </tr> 
            <tr> 
              <td> Ms</td> 
              <td> megasecond</td> 
            </tr> 
            <tr> 
              <td> ug/g{feces}</td> 
              <td> microgram  per gram of feces</td> 
            </tr> 
            <tr> 
              <td> ug{FEU}/mL</td> 
              <td> microgram fibrinogen equivalent unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> ug/(100.g)</td> 
              <td> microgram per 100 gram</td> 
            </tr> 
            <tr> 
              <td> ug/m3</td> 
              <td> microgram per cubic meter</td> 
            </tr> 
            <tr> 
              <td> ug/dL{RBCs}</td> 
              <td> microgram per deciliter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> ug/g{dry_tissue}</td> 
              <td> microgram per gram of dry tissue</td> 
            </tr> 
            <tr> 
              <td> ug/g{dry_wt}</td> 
              <td> microgram per gram of dry weight</td> 
            </tr> 
            <tr> 
              <td> ug/g{hair}</td> 
              <td> microgram per gram of hair</td> 
            </tr> 
            <tr> 
              <td> ug/g{Hb}</td> 
              <td> microgram per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> ug/g{tissue}</td> 
              <td> microgram per gram of tissue</td> 
            </tr> 
            <tr> 
              <td> ug/L{RBCs}</td> 
              <td> microgram per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> ug/mL{class}</td> 
              <td> microgram per milliliter class</td> 
            </tr> 
            <tr> 
              <td> ug/mL{eqv}</td> 
              <td> microgram per milliliter equivalent</td> 
            </tr> 
            <tr> 
              <td> ug/mmol{creat}</td> 
              <td> microgram per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> ug/{specimen}</td> 
              <td> microgram per specimen</td> 
            </tr> 
            <tr> 
              <td> ug/[sft_i]</td> 
              <td> microgram per square foot (international)</td> 
            </tr> 
            <tr> 
              <td> umol{BCE}/mol</td> 
              <td> micromole bone collagen equivalent per mole</td> 
            </tr> 
            <tr> 
              <td> umol/(2.h)</td> 
              <td> micromole per 2 hour</td> 
            </tr> 
            <tr> 
              <td> umol/(8.h)</td> 
              <td> micromole per 8 hour</td> 
            </tr> 
            <tr> 
              <td> umol/dL{GF}</td> 
              <td> micromole per deciliter of glomerular filtrate</td> 
            </tr> 
            <tr> 
              <td> umol/kg{feces}</td> 
              <td> micromole per kilogram of feces</td> 
            </tr> 
            <tr> 
              <td> umol/L{RBCs}</td> 
              <td> micromole per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> umol/umol{creat}</td> 
              <td> micromole per micromole of creatinine</td> 
            </tr> 
            <tr> 
              <td> umol/mg{creat}</td> 
              <td> micromole per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> umol/mmol{creat}</td> 
              <td> micromole per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> umol/min/g{mucosa}</td> 
              <td> micromole per minute per gram of mucosa</td> 
            </tr> 
            <tr> 
              <td> mU/mmol{creat}</td> 
              <td> milli  enzyme unit per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> mU/g{Hb}</td> 
              <td> milli enzyme unit per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> mU/g{protein}</td> 
              <td> milli enzyme unit per gram of protein</td> 
            </tr> 
            <tr> 
              <td> mU/mg{creat}</td> 
              <td> milli enzyme unit per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> mbar/L/s</td> 
              <td> millibar per liter per second</td> 
            </tr> 
            <tr> 
              <td> meq/g{creat}</td> 
              <td> milliequivalent per gram of creatinine</td> 
            </tr> 
            <tr> 
              <td> meq/{specimen}</td> 
              <td> milliequivalent per specimen</td> 
            </tr> 
            <tr> 
              <td> meq/{total_volume}</td> 
              <td> milliequivalent per total volume</td> 
            </tr> 
            <tr> 
              <td> mg{FEU}/L</td> 
              <td> milligram fibrinogen equivalent unit per liter</td> 
            </tr> 
            <tr> 
              <td> mg/(6.h)</td> 
              <td> milligram per 6 hour</td> 
            </tr> 
            <tr> 
              <td> mg/{collection}</td> 
              <td> milligram per collection</td> 
            </tr> 
            <tr> 
              <td> mg/d/{1.73_m2}</td> 
              <td> milligram per day per 1.73 square meter</td> 
            </tr> 
            <tr> 
              <td> mg/dL{RBCs}</td> 
              <td> milligram per deciliter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> mg/g{dry_tissue}</td> 
              <td> milligram per gram of dry tissue</td> 
            </tr> 
            <tr> 
              <td> mg/g{feces}</td> 
              <td> milligram per gram of feces</td> 
            </tr> 
            <tr> 
              <td> mg/g{tissue}</td> 
              <td> milligram per gram of tissue</td> 
            </tr> 
            <tr> 
              <td> mg/g{wet_tissue}</td> 
              <td> milligram per gram of wet tissue</td> 
            </tr> 
            <tr> 
              <td> mg/kg/(8.h)</td> 
              <td> milligram per kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mg/kg/h</td> 
              <td> milligram per kilogram per hour</td> 
            </tr> 
            <tr> 
              <td> mg/L{RBCs}</td> 
              <td> milligram per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> mg/mg{creat}</td> 
              <td> milligram per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> mg/{specimen}</td> 
              <td> milligram per specimen</td> 
            </tr> 
            <tr> 
              <td> mg/{total_output}</td> 
              <td> milligram per total output</td> 
            </tr> 
            <tr> 
              <td> mg/{total_volume}</td> 
              <td> milligram per total volume</td> 
            </tr> 
            <tr> 
              <td> mL{fetal_RBCs}</td> 
              <td> milliliter of fetal red blood cells</td> 
            </tr> 
            <tr> 
              <td> mL/(5.h)</td> 
              <td> milliliter per 5 hour</td> 
            </tr> 
            <tr> 
              <td> mL/(6.h)</td> 
              <td> milliliter per 6 hour</td> 
            </tr> 
            <tr> 
              <td> mL/{beat}</td> 
              <td> milliliter per heart beat</td> 
            </tr> 
            <tr> 
              <td> mL/{beat}/m2</td> 
              <td> milliliter per heart beat per  square meter</td> 
            </tr> 
            <tr> 
              <td> mmol/(5.h)</td> 
              <td> millimole per 5 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/{ejaculate}</td> 
              <td> millimole per ejaculate</td> 
            </tr> 
            <tr> 
              <td> mmol/kg/(8.h)</td> 
              <td> millimole per kilogram per 8 hour</td> 
            </tr> 
            <tr> 
              <td> mmol/L{RBCs}</td> 
              <td> millimole per liter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> mmol/mmol{urea}</td> 
              <td> millimole per millimole of urea</td> 
            </tr> 
            <tr> 
              <td> mmol/mmol{creat}</td> 
              <td> millimole per millmole of creatinine</td> 
            </tr> 
            <tr> 
              <td> mmol/{specimen}</td> 
              <td> millimole per specimen</td> 
            </tr> 
            <tr> 
              <td> mmol/{total_vol}</td> 
              <td> millimole per total volume</td> 
            </tr> 
            <tr> 
              <td> 10*6.[CFU]/L</td> 
              <td> million colony forming unit per liter</td> 
            </tr> 
            <tr> 
              <td> 10*6.[IU]</td> 
              <td> million international unit</td> 
            </tr> 
            <tr> 
              <td> 10*6/(24.h)</td> 
              <td> million per 24 hour</td> 
            </tr> 
            <tr> 
              <td> mPa.s</td> 
              <td> millipascal second</td> 
            </tr> 
            <tr> 
              <td> {minidrop}/min</td> 
              <td> minidrop per minute</td> 
            </tr> 
            <tr> 
              <td> {minidrop}/s</td> 
              <td> minidrop per second</td> 
            </tr> 
            <tr> 
              <td> {molecule}/{platelet}</td> 
              <td> molecule per platelet</td> 
            </tr> 
            <tr> 
              <td> {mm/dd/yyyy}</td> 
              <td> month-day-year</td> 
            </tr> 
            <tr> 
              <td> {mutation}</td> 
              <td> mutation</td> 
            </tr> 
            <tr> 
              <td> nU/mL</td> 
              <td> nanoenzyme unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> nU/{RBC}</td> 
              <td> nanoenzyme unit per red blood cell</td> 
            </tr> 
            <tr> 
              <td> ng{FEU}/mL</td> 
              <td> nanogram fibrinogen equivalent unit per milliliter</td> 
            </tr> 
            <tr> 
              <td> ng/U</td> 
              <td> nanogram per enzyme unit</td> 
            </tr> 
            <tr> 
              <td> ng/mg{creat}</td> 
              <td> nanogram per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> ng/mg{protein}</td> 
              <td> nanogram per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> ng/mL{RBCs}</td> 
              <td> nanogram per milliliter of red blood cells</td> 
            </tr> 
            <tr> 
              <td> ng/10*6{RBCs}</td> 
              <td> nanogram per million red blood cells</td> 
            </tr> 
            <tr> 
              <td> nmol{BCE}</td> 
              <td> nanomole bone collagen equivalent</td> 
            </tr> 
            <tr> 
              <td> nmol{BCE}/L</td> 
              <td> nanomole bone collagen equivalent per liter</td> 
            </tr> 
            <tr> 
              <td> nmol{BCE}/mmol{creat}</td> 
              <td> nanomole bone collagen equivalent per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> nmol{1/2cys}/mg{protein}</td> 
              <td> nanomole of 1/2 cystine per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> nmol{ATP}</td> 
              <td> nanomole of ATP</td> 
            </tr> 
            <tr> 
              <td> nmol/dL{GF}</td> 
              <td> nanomole per deciliter of glomerular filtrate</td> 
            </tr> 
            <tr> 
              <td> nmol/mg{creat}</td> 
              <td> nanomole per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> nmol/mg{protein}</td> 
              <td> nanomole per milligram of protein</td> 
            </tr> 
            <tr> 
              <td> nmol/mg{protein}/h</td> 
              <td> nanomole per milligram of protein per hour</td> 
            </tr> 
            <tr> 
              <td> nmol/min</td> 
              <td> nanomole per minute</td> 
            </tr> 
            <tr> 
              <td> nmol/min/mg{Hb}</td> 
              <td> nanomole per minute per milligram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> nmol/min/10*6{cells}</td> 
              <td> nanomole per minute per million cells</td> 
            </tr> 
            <tr> 
              <td> {#}/[HPF]</td> 
              <td> number per high power field</td> 
            </tr> 
            <tr> 
              <td> {#}/L</td> 
              <td> number per liter</td> 
            </tr> 
            <tr> 
              <td> {#}/[LPF]</td> 
              <td> number per low power field</td> 
            </tr> 
            <tr> 
              <td> {#}/uL</td> 
              <td> number per microliter</td> 
            </tr> 
            <tr> 
              <td> {#}/mL</td> 
              <td> number per milliliter</td> 
            </tr> 
            <tr> 
              <td> {#}/min</td> 
              <td> number per minute</td> 
            </tr> 
            <tr> 
              <td> Ohm.m</td> 
              <td> Ohm meter</td> 
            </tr> 
            <tr> 
              <td> osm</td> 
              <td> osmole</td> 
            </tr> 
            <tr> 
              <td> {Pan_Bio'U}</td> 
              <td> panbio unit</td> 
            </tr> 
            <tr> 
              <td> /10*4{RBCs}</td> 
              <td> per 10 thousand red blood cells</td> 
            </tr> 
            <tr> 
              <td> /m3</td> 
              <td> per cubic meter</td> 
            </tr> 
            <tr> 
              <td> /{entity}</td> 
              <td> per entity</td> 
            </tr> 
            <tr> 
              <td> /g{Hb}</td> 
              <td> per gram of hemoglobin</td> 
            </tr> 
            <tr> 
              <td> /g{tot_nit}</td> 
              <td> per gram of total nitrogen</td> 
            </tr> 
            <tr> 
              <td> /g{tot_prot}</td> 
              <td> per gram of total protein</td> 
            </tr> 
            <tr> 
              <td> /g{wet_tis}</td> 
              <td> per gram of wet tissue</td> 
            </tr> 
            <tr> 
              <td> /[IU]</td> 
              <td> per international unit</td> 
            </tr> 
            <tr> 
              <td> /kg{body_wt}</td> 
              <td> per kilogram of body weight</td> 
            </tr> 
            <tr> 
              <td> /mm</td> 
              <td> per millimeter</td> 
            </tr> 
            <tr> 
              <td> /mmol{creat}</td> 
              <td> per millimole of creatinine</td> 
            </tr> 
            <tr> 
              <td> /{OIF}</td> 
              <td> per oil immersion field</td> 
            </tr> 
            <tr> 
              <td> /10*3</td> 
              <td> per thousand</td> 
            </tr> 
            <tr> 
              <td> /10*3.{RBCs}</td> 
              <td> per thousand red blood cells</td> 
            </tr> 
            <tr> 
              <td> /10*12{RBCs}</td> 
              <td> per trillion red blood cells</td> 
            </tr> 
            <tr> 
              <td> %{loss_AChR}</td> 
              <td> percent  loss of acetylcholine receptor</td> 
            </tr> 
            <tr> 
              <td> %{penetration}</td> 
              <td> percent  penetration</td> 
            </tr> 
            <tr> 
              <td> %{abnormal}</td> 
              <td> percent abnormal</td> 
            </tr> 
            <tr> 
              <td> %{activity}</td> 
              <td> percent activity</td> 
            </tr> 
            <tr> 
              <td> %{aggregation}</td> 
              <td> percent aggregation</td> 
            </tr> 
            <tr> 
              <td> %{at_60_min}</td> 
              <td> percent at 60 minute</td> 
            </tr> 
            <tr> 
              <td> %{basal_activity}</td> 
              <td> percent basal activity</td> 
            </tr> 
            <tr> 
              <td> %{binding}</td> 
              <td> percent binding</td> 
            </tr> 
            <tr> 
              <td> %{blockade}</td> 
              <td> percent blockade</td> 
            </tr> 
            <tr> 
              <td> %{blocked}</td> 
              <td> percent blocked</td> 
            </tr> 
            <tr> 
              <td> %{bound}</td> 
              <td> percent bound</td> 
            </tr> 
            <tr> 
              <td> %{breakdown}</td> 
              <td> percent breakdown</td> 
            </tr> 
            <tr> 
              <td> %{deficient}</td> 
              <td> percent deficient</td> 
            </tr> 
            <tr> 
              <td> %{dose}</td> 
              <td> percent dose</td> 
            </tr> 
            <tr> 
              <td> %{excretion}</td> 
              <td> percent excretion</td> 
            </tr> 
            <tr> 
              <td> %{Hb}</td> 
              <td> percent hemoglobin</td> 
            </tr> 
            <tr> 
              <td> %{hemolysis}</td> 
              <td> percent hemolysis</td> 
            </tr> 
            <tr> 
              <td> %{index}</td> 
              <td> percent index</td> 
            </tr> 
            <tr> 
              <td> %{inhibition}</td> 
              <td> percent inhibition</td> 
            </tr> 
            <tr> 
              <td> %{loss}</td> 
              <td> percent loss</td> 
            </tr> 
            <tr> 
              <td> %{lysis}</td> 
              <td> percent lysis</td> 
            </tr> 
            <tr> 
              <td> %{normal}</td> 
              <td> percent normal</td> 
            </tr> 
            <tr> 
              <td> %{normal_pooled_plasma}</td> 
              <td> percent normal pooled plasma</td> 
            </tr> 
            <tr> 
              <td> %{bacteria}</td> 
              <td> percent of bacteria</td> 
            </tr> 
            <tr> 
              <td> %{baseline}</td> 
              <td> percent of baseline</td> 
            </tr> 
            <tr> 
              <td> %{cells}</td> 
              <td> percent of cells</td> 
            </tr> 
            <tr> 
              <td> %{RBCs}</td> 
              <td> percent of red blood cells</td> 
            </tr> 
            <tr> 
              <td> %{WBCs}</td> 
              <td> percent of white blood cells</td> 
            </tr> 
            <tr> 
              <td> %{positive}</td> 
              <td> percent positive</td> 
            </tr> 
            <tr> 
              <td> %{reactive}</td> 
              <td> percent reactive</td> 
            </tr> 
            <tr> 
              <td> %{recovery}</td> 
              <td> percent recovery</td> 
            </tr> 
            <tr> 
              <td> %{reference}</td> 
              <td> percent reference</td> 
            </tr> 
            <tr> 
              <td> %{residual}</td> 
              <td> percent residual</td> 
            </tr> 
            <tr> 
              <td> %{saturation}</td> 
              <td> percent saturation</td> 
            </tr> 
            <tr> 
              <td> %{total}</td> 
              <td> percent total</td> 
            </tr> 
            <tr> 
              <td> %{uptake}</td> 
              <td> percent uptake</td> 
            </tr> 
            <tr> 
              <td> %{viable}</td> 
              <td> percent viable</td> 
            </tr> 
            <tr> 
              <td> {percentile}</td> 
              <td> percentile</td> 
            </tr> 
            <tr> 
              <td> {phenotype}</td> 
              <td> phenotype</td> 
            </tr> 
            <tr> 
              <td> pA</td> 
              <td> picoampere</td> 
            </tr> 
            <tr> 
              <td> pg/{cell}</td> 
              <td> picogram per cell</td> 
            </tr> 
            <tr> 
              <td> pg/mg{creat}</td> 
              <td> picogram per milligram of creatinine</td> 
            </tr> 
            <tr> 
              <td> pg/{RBC}</td> 
              <td> picogram per red blood cell</td> 
            </tr> 
            <tr> 
              <td> pmol/(24.h)</td> 
              <td> picomole per 24 hour</td> 
            </tr> 
            <tr> 
              <td> pmol/{RBC}</td> 
              <td> picomole per red blood cell</td> 
            </tr> 
            <tr> 
              <td> [pt_us]</td> 
              <td> pint</td> 
            </tr> 
            <tr> 
              <td> %{relative}</td> 
              <td> relative percent</td> 
            </tr> 
            <tr> 
              <td> {relative_saturation}</td> 
              <td> relative saturation</td> 
            </tr> 
            <tr> 
              <td> {Rubella_virus}