HL7 Terminology (THO)
6.1.0 - Publication
This page is part of the HL7 Terminology (v6.1.0: Release) based on FHIR (HL7® FHIR® Standard) v5.0.0. This is the current published version. For a full list of available versions, see the Directory of published versions
Official URL: http://terminology.hl7.org/ValueSet/v3-xActClassCareProvisionObservation | Version: 3.0.0 | |||
Active as of 2014-03-26 | Responsible: Health Level Seven International | Computable Name: XActClassCareProvisionObservation | ||
Other Identifiers: OID:2.16.840.1.113883.1.11.19888 | ||||
Copyright/Legal: This material derives from the HL7 Terminology THO. THO is copyright ©1989+ Health Level Seven International and is made available under the CC0 designation. For more licensing information see: https://terminology.hl7.org/license.html |
No description
References
This value set is not used here; it may be used elsewhere (e.g. specifications and/or implementations that use this content)
Generated Narrative: ValueSet v3-xActClassCareProvisionObservation
Language: en
http://terminology.hl7.org/CodeSystem/v3-ActClass
Code | Display | Definition |
OBS | observation | **Description:**An act that is intended to result in new information about a subject. The main difference between Observations and other Acts is that Observations have a value attribute. The **code** attribute of Observation and the **value** attribute of Observation must be considered in combination to determine the semantics of the observation. **Discussion:** Structurally, many observations are name-value-pairs, where the Observation.code (inherited from Act) is the name and the Observation.value is the value of the property. Such a construct is also known as a variable (a named feature that can assume a value) hence, the Observation class is always used to hold generic name-value-pairs or variables, even though the variable valuation may not be the result of an elaborate observation method. It may be a simple answer to a question or it may be an assertion or setting of a parameter. As with all Act statements, Observation statements describe what was done, and in the case of Observations, this includes a description of what was actually observed (results or answers); and those results or answers are part of the observation and not split off into other objects. The method of action is asserted by the Observation classCode or its subclasses at the least granular level, by the Observation.code attribute value at the medium level of granularity, and by the attribute value of observation.methodCode when a finer level of granularity is required. The method in whole or in part may also appear in the attribute value of Observation.value when using coded data types to express the value of the attribute. Relevant aspects of methodology may also be restated in value when the results themselves imply or state a methodology. An observation may consist of component observations each having their own Observation.code and Observation.value. In this case, the composite observation may not have an Observation.value for itself. For instance, a white blood cell count consists of the sub-observations for the counts of the various granulocytes, lymphocytes and other normal or abnormal blood cells (e.g., blasts). The overall white blood cell count Observation itself may therefore not have a value by itself (even though it could have one, e.g., the sum total of white blood cells). Thus, as long as an Act is essentially an Act of recognizing and noting information about a subject, it is an Observation, regardless of whether it has a simple value by itself or whether it has sub-observations. Even though observations are professional acts (see Act) and as such are intentional actions, this does not require that every possible outcome of an observation be pondered in advance of it being actually made. For instance, differential white blood cell counts (WBC) rarely show blasts, but if they do, this is part of the WBC observation even though blasts might not be predefined in the structure of a normal WBC. Clinical documents commonly have Subjective and Objective findings, both of which are kinds of Observations. In addition, clinical documents commonly contain Assessments, which are also kinds of Observations. Thus, the establishment of a diagnosis is an Observation. **Examples:** * Recording the results of a Family History Assessment * Laboratory test and associated result * Physical exam test and associated result * Device temperature * Soil lead level |
PCPR | care provision | An **Act** that of taking on whole or partial responsibility for, or attention to, safety and well-being of a subject of care. *Discussion:* A **care provision** event may exist without any other care actions taking place. For example, when a patient is assigned to the care of a particular health professional. In **request** (RQO) mood **care provision** communicates a referral, which is a request: * from one party (linked as a **participant** of type **author** (AUT)), * to another party (linked as a **participant** of type **performer** (PRF), * to take responsibility for a scope specified by the code attribute, * for an entity (linked as a **participant** of type **subject** (SBJ)). The scope of the care for which responsibility is taken is identified by *code* attribute. In **event** (EVN) mood **care provision** indicates the effective time interval of a specified scope of responsibility by a **performer** (PRF) or set of **performers** (PRF) for a **subject** (SBJ). *Examples:* 1. Referral from GP to a specialist. 2. Assignment of a patient or group of patients to the case list of a health professional. 3. Assignment of inpatients to the care of particular nurses for a working shift. |
Generated Narrative: ValueSet
Language: en
Expansion based on codesystem ActClass v4.0.0 (CodeSystem)
This value set contains 2 concepts
Code | System | Display | Definition |
OBS | http://terminology.hl7.org/CodeSystem/v3-ActClass | observation | **Description:**An act that is intended to result in new information about a subject. The main difference between Observations and other Acts is that Observations have a value attribute. The code attribute of Observation and the value attribute of Observation must be considered in combination to determine the semantics of the observation. Discussion: Structurally, many observations are name-value-pairs, where the Observation.code (inherited from Act) is the name and the Observation.value is the value of the property. Such a construct is also known as a variable (a named feature that can assume a value) hence, the Observation class is always used to hold generic name-value-pairs or variables, even though the variable valuation may not be the result of an elaborate observation method. It may be a simple answer to a question or it may be an assertion or setting of a parameter. As with all Act statements, Observation statements describe what was done, and in the case of Observations, this includes a description of what was actually observed (results or answers); and those results or answers are part of the observation and not split off into other objects. The method of action is asserted by the Observation classCode or its subclasses at the least granular level, by the Observation.code attribute value at the medium level of granularity, and by the attribute value of observation.methodCode when a finer level of granularity is required. The method in whole or in part may also appear in the attribute value of Observation.value when using coded data types to express the value of the attribute. Relevant aspects of methodology may also be restated in value when the results themselves imply or state a methodology. An observation may consist of component observations each having their own Observation.code and Observation.value. In this case, the composite observation may not have an Observation.value for itself. For instance, a white blood cell count consists of the sub-observations for the counts of the various granulocytes, lymphocytes and other normal or abnormal blood cells (e.g., blasts). The overall white blood cell count Observation itself may therefore not have a value by itself (even though it could have one, e.g., the sum total of white blood cells). Thus, as long as an Act is essentially an Act of recognizing and noting information about a subject, it is an Observation, regardless of whether it has a simple value by itself or whether it has sub-observations. Even though observations are professional acts (see Act) and as such are intentional actions, this does not require that every possible outcome of an observation be pondered in advance of it being actually made. For instance, differential white blood cell counts (WBC) rarely show blasts, but if they do, this is part of the WBC observation even though blasts might not be predefined in the structure of a normal WBC. Clinical documents commonly have Subjective and Objective findings, both of which are kinds of Observations. In addition, clinical documents commonly contain Assessments, which are also kinds of Observations. Thus, the establishment of a diagnosis is an Observation. Examples:
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PCPR | http://terminology.hl7.org/CodeSystem/v3-ActClass | care provision | An Act that of taking on whole or partial responsibility for, or attention to, safety and well-being of a subject of care. Discussion: A care provision event may exist without any other care actions taking place. For example, when a patient is assigned to the care of a particular health professional. In request (RQO) mood care provision communicates a referral, which is a request:
The scope of the care for which responsibility is taken is identified by code attribute. In event (EVN) mood care provision indicates the effective time interval of a specified scope of responsibility by a performer (PRF) or set of performers (PRF) for a subject (SBJ). Examples:
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Explanation of the columns that may appear on this page:
Level | A few code lists that FHIR defines are hierarchical - each code is assigned a level. In this scheme, some codes are under other codes, and imply that the code they are under also applies |
System | The source of the definition of the code (when the value set draws in codes defined elsewhere) |
Code | The code (used as the code in the resource instance) |
Display | The display (used in the display element of a Coding). If there is no display, implementers should not simply display the code, but map the concept into their application |
Definition | An explanation of the meaning of the concept |
Comments | Additional notes about how to use the code |
History
Date | Action | Custodian | Author | Comment |
2023-11-14 | revise | TSMG | Marc Duteau | Add standard copyright and contact to internal content; up-476 |
2022-10-18 | revise | TSMG | Marc Duteau | Fixing missing metadata; up-349 |
2020-05-06 | revise | Vocabulary WG | Ted Klein | Migrated to the UTG maintenance environment and publishing tooling. |
2014-03-26 | revise | 2014T1_2014-03-26_001283 (RIM release ID) | Vocabulary (Woody Beeler) (no record of original request) | Lock all vaue sets untouched since 2014-03-26 to trackingId 2014T1_2014_03_26 |