CH LAB-Report (R4)
1.0.0-ballot - ballot
This page is part of the CH LAB-Report (R4) (v1.0.0-ballot: STU 1 Ballot 1) based on FHIR (HL7® FHIR® Standard) R4. This is the current published version in its permanent home (it will always be available at this URL). For a full list of available versions, see the Directory of published versions
This profile constrains the Composition resource for the purpose of laboratory test reports in Switzerland.
Holds Laboratory Analyzer Data
Holds Laboratory Test-Kit Data
This profile constrains the DiagnosticReport resource for the purpose of laboratory test reports in Switzerland.
This profile constrains the Bundle resource for the purpose of laboratory test reports in Switzerland.
This panel is the traditional hemogram plus platelet count which must now be reported with with hemograms according to current US re-imbursement rule The panel includes 2 different RDWs to accommodate the two different ways of reporting them. (Most automated instruments report as a percent ). The hemoglobin produced by the automatic counters does not use a counting method to generate the hemoglobin so we have used the fotometry version of hemoglobin in this panel.
Profile for observation laboratory result of automated Count of Blood Cells. We choose as Unit 10⁹/L or 10¹²/L for Cell Count.
This profile constrains the ChLabObservationSingleTest profile determine ratio of the concentration of albumin and creatinine in urine.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory Erythrocyte Distribuition Width in Switzerland.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory Erythrocyte Distribution Width Ratio.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory erythrocyte count.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory hemoglobin.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory hemotocrit in Switzerland.
This profile constrains the Observation resource for the purpose of laboratory test reports in Switzerland.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory leucocyte count.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory MCH in Switzerland.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory MCHC in Switzerland.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory MCV.
This profile constrains the ChLabObservationResultsLaboratory profile to represent only a panel / battery of laboratory test results for the HL7 Swiss project. The top-level observation contains only further observations-panels and observations-single-tests in the hasMember element. The observation-panels may carry a conclusion in the note element and/or a global interpretation by the producer of the study, in the interpretation element; value[x] and component elements are not allowed and have to be shown in the observation-single-test profile.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory platelet count.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory platelet count.
This profile constrains the ChLabObservationSingleTest profile for the purpose of laboratory platelet mean volume.
This panel collects the lab results in relation to renal insufiency.
This profile constrains the ChLabObservationResultsLaboratory profile to represent single test results for the HL7 Swiss project. The profile enables only value[x] and component elements, hasMemer elemens are not allowed
Renal function can be determined by laboratory measurement of serum creatinine, from which the estimated glomerular (eGFR_CKD_EPI) filtration rate can be calculated.
Renal function can be determined by laboratory measurement of serum creatinine, from which the estimated glomerular (eGFR_CKD_EPI) filtration rate can be calculated.
Renal function can be determined by laboratory measurement of serum creatinine, from which the estimated glomerular (eGFR_MDMR) filtration rate can be calculated.
Renal function can be determined by laboratory measurement of serum creatinine, from which the estimated glomerular (eGFR_MDMR) filtration rate can be calculated.
Renal function can be determined by laboratory measurement of serum creatinine, from which the estimated glomerular filtration rate (eGFR) can be calculated.
Glomerular filtration rate (GFR) is considered the best overall index of kidney function; however measured GFR is not practical in the routine clinical setting. Estimated glomerular filtration rate (eGFR) is a suitable alternative and can be calculated for adults >= 18 years using an equation incorporating the patient's age, gender, and measured serum/plasma/blood creatinine only (eGFRcr) (this term) or both serum/plasma/blood creatinine and serum/plasma cystatin C (eGFRcr-cys) [LOINC: 98980-6]. The serum/plasma/blood creatinine value is based on a measurement procedure that is traceable to the isotope dilution mass spectrometry (IDMS) reference measurement procedure for creatinine. The 2021 CKD-EPI equations used for eGFRcr and eGFRcr-cys do not have a race term as does the older estimating equations that they replace. [https://www.nejm.org/doi/pdf/10.1056/NEJMoa2102953]
Glomerular filtration rate (GFR) is considered the best overall index of kidney function; however measured GFR is not practical in the routine clinical setting. Estimated glomerular filtration rate (eGFR) is a suitable alternative and can be calculated for adults >= 18 years using an equation incorporating the patient's age, gender, and measured serum/plasma/blood creatinine only (eGFRcr) (this term) or both serum/plasma/blood creatinine and serum/plasma cystatin C (eGFRcr-cys) [LOINC: 98980-6]. The serum/plasma/blood creatinine value is based on a measurement procedure that is traceable to the isotope dilution mass spectrometry (IDMS) reference measurement procedure for creatinine. The 2021 CKD-EPI equations used for eGFRcr and eGFRcr-cys do not have a race term as does the older estimating equations that they replace. [https://www.nejm.org/doi/pdf/10.1056/NEJMoa2102953]
This profile constrains the Patient resource for the purpose of laboratory test reports in Switzerland.
This profile constrains the Practitioner resource for the purpose of laboratory test reports in Switzerland.
This profile constrains the PractitionerRole resource for the purpose of laboratory test reports in Switzerland.
This profile constrains the ServiceRequest resource for the purpose of laboratory orders in Switzerland.
This profile constrains the Specimen resource for the purpose of laboratory test reports in Switzerland.
This profile defines how to represent Specimen Additive Substances in HL7 FHIR for the purpose of this guide.