Mobile Antepartum Summary US Realm
1.0.0-current - ci-build International flag

Mobile Antepartum Summary US Realm, published by IHE Patient Care Coordination Committee. This guide is not an authorized publication; it is the continuous build for version 1.0.0-current built by the FHIR (HL7® FHIR® Standard) CI Build. This version is based on the current content of and changes regularly. See the Directory of published versions

mAPS US National Extension Home

Official URL: Version: 1.0.0-current
Active as of 2024-06-05 Computable Name: IHE_PCC_mAPS_us

Mobile Antepartum Summary is a content profile that defines the structure for the aggregation of significant events, diagnoses, and plans of care derived from the visits over the course of an antepartum episode.

This National Extension is intended to be a summary for supporting pregnancy care prior to and leading up to delivery in the United States.

Organization of This Guide

This guide is organized into the following sections:

  1. National Extensions:
    1. Mobile Antepartum Summary US Realm
  2. Other
    1. Changes to Other IHE Specifications
    2. Download and Analysis
    3. Test Plan

See also the Table of Contents and the index of Artifacts defined as part of this implementation guide.

Conformance Expectations

IHE uses the normative words: Shall, Should, and May according to standards conventions.

Must Support

The use of mustSupport in StructureDefinition profiles equivalent to the IHE use of R2 as defined in Appendix Z.

mustSupport of true - only has a meaning on items that are minimal cardinality of zero (0), and applies only to the source actor populating the data. The source actor shall populate the elements marked with MustSupport, if the concept is supported by the actor, a value exists, and security and consent rules permit. The consuming actors should handle these elements being populated or being absent/empty. Note that sometimes mustSupport will appear on elements with a minimal cardinality greater than zero (0), this is due to inheritance from a less constrained profile.