Microsoft Cognitive Services Health Insights Clinical Matching Client Library for Python
Project description
Azure Cognitive Services Health Insights Clinical Matching client library for Python
Health Insights is an Azure Applied AI Service built with the Azure Cognitive Services Framework, that leverages multiple Cognitive Services, Healthcare API services and other Azure resources. The Clinical Matching model receives patients data and clinical trials protocols, and provides relevant clinical trials based on eligibility criteria.
Source code | Package (PyPI) | API reference documentation | Product documentation | Samples
Getting started
Prerequisites
- Python 3.7 or later is required to use this package.
- You need an Azure subscription to use this package.
- An existing Cognitive Services Health Insights instance.
Install the package
pip install azure-healthinsights-clinicalmatching
This table shows the relationship between SDK versions and supported API versions of the service:
SDK version | Supported API version of service |
---|---|
1.0.0b1 | 2023-03-01-preview |
Authenticate the client
Get the endpoint
You can find the endpoint for your Health Insights service resource using the Azure Portal or Azure CLI
# Get the endpoint for the Health Insights service resource
az cognitiveservices account show --name "resource-name" --resource-group "resource-group-name" --query "properties.endpoint"
Get the API Key
You can get the API Key from the Health Insights service resource in the Azure Portal. Alternatively, you can use Azure CLI snippet below to get the API key of your resource.
az cognitiveservices account keys list --resource-group <your-resource-group-name> --name <your-resource-name>
Create a ClinicalMatchingClient with an API Key Credential
Once you have the value for the API key, you can pass it as a string into an instance of AzureKeyCredential. Use the key as the credential parameter to authenticate the client:
import os
from azure.core.credentials import AzureKeyCredential
from azure.healthinsights.clinicalmatching import ClinicalMatchingClient
KEY = os.environ["HEALTHINSIGHTS_KEY"]
ENDPOINT = os.environ["HEALTHINSIGHTS_ENDPOINT"]
trial_matcher_client = ClinicalMatchingClient(endpoint=ENDPOINT, credential=AzureKeyCredential(KEY))
Long-Running Operations
Long-running operations are operations which consist of an initial request sent to the service to start an operation, followed by polling the service at intervals to determine whether the operation has completed or failed, and if it has succeeded, to get the result.
Methods that support healthcare analysis, custom text analysis, or multiple analyses are modeled as long-running operations.
The client exposes a begin_<method-name>
method that returns a poller object. Callers should wait
for the operation to complete by calling result()
on the poller object returned from the begin_<method-name>
method.
Sample code snippets are provided to illustrate using long-running operations below.
Key concepts
Trial Matcher provides the user of the services two main modes of operation: patients centric and clinical trial centric.
- On patient centric mode, the Trial Matcher model bases the patient matching on the clinical condition, location, priorities, eligibility criteria, and other criteria that the patient and/or service users may choose to prioritize. The model helps narrow down and prioritize the set of relevant clinical trials to a smaller set of trials to start with, that the specific patient appears to be qualified for.
- On clinical trial centric, the Trial Matcher is finding a group of patients potentially eligible to a clinical trial. The Trial Matcher narrows down the patients, first filtered on clinical condition and selected clinical observations, and then focuses on those patients who met the baseline criteria, to find the group of patients that appears to be eligible patients to a trial.
Examples
The following section provides several code snippets covering some of the most common Health Insights - Clinical Matching service tasks, including:
Match trials
Finding potential eligible trials for a patient.
import os
import datetime
from azure.core.credentials import AzureKeyCredential
from azure.healthinsights.clinicalmatching import ClinicalMatchingClient, models
KEY = os.environ["HEALTHINSIGHTS_KEY"]
ENDPOINT = os.environ["HEALTHINSIGHTS_ENDPOINT"]
# Create a Trial Matcher client
# <client>
trial_matcher_client = ClinicalMatchingClient(endpoint=ENDPOINT,
credential=AzureKeyCredential(KEY))
# </client>
# Create clinical info list
# <clinicalInfo>
clinical_info_list = [models.ClinicalCodedElement(system="http://www.nlm.nih.gov/research/umls",
code="C0032181",
name="Platelet count",
value="250000"),
models.ClinicalCodedElement(system="http://www.nlm.nih.gov/research/umls",
code="C0002965",
name="Unstable Angina",
value="true"),
models.ClinicalCodedElement(system="http://www.nlm.nih.gov/research/umls",
code="C1522449",
name="Radiotherapy",
value="false"),
models.ClinicalCodedElement(system="http://www.nlm.nih.gov/research/umls",
code="C0242957",
name="GeneOrProtein-Expression",
value="Negative;EntityType:GENEORPROTEIN-EXPRESSION"),
models.ClinicalCodedElement(system="http://www.nlm.nih.gov/research/umls",
code="C1300072",
name="cancer stage",
value="2")]
# </clinicalInfo>
# Construct Patient
# <PatientConstructor>
patient_info = models.PatientInfo(sex=models.PatientInfoSex.MALE, birth_date=datetime.date(1965, 12, 26),
clinical_info=clinical_info_list)
patient1 = models.PatientRecord(id="patient_id", info=patient_info)
# </PatientConstructor>
# Create registry filter
registry_filters = models.ClinicalTrialRegistryFilter()
# Limit the trial to a specific patient condition ("Non-small cell lung cancer")
registry_filters.conditions = ["non small cell lung cancer (nsclc)"]
# Specify the clinical trial registry source as ClinicalTrials.Gov
registry_filters.sources = [models.ClinicalTrialSource.CLINICALTRIALS_GOV]
# Limit the clinical trial to a certain location, in this case California, USA
registry_filters.facility_locations = [
models.GeographicLocation(country_or_region="United States", city="Gilbert", state="Arizona")]
# Limit the trial to a specific recruitment status
registry_filters.recruitment_statuses = [models.ClinicalTrialRecruitmentStatus.RECRUITING]
# Construct ClinicalTrial instance and attach the registry filter to it.
clinical_trials = models.ClinicalTrials(registry_filters=[registry_filters])
# Create TrialMatcherRequest
configuration = models.TrialMatcherModelConfiguration(clinical_trials=clinical_trials)
trial_matcher_data = models.TrialMatcherData(patients=[patient1], configuration=configuration)
poller = trial_matcher_client.begin_match_trials(trial_matcher_data)
trial_matcher_result = poller.result()
if trial_matcher_result.status == models.JobStatus.SUCCEEDED:
tm_results = trial_matcher_result.results
for patient_result in tm_results.patients:
print(f"Inferences of Patient {patient_result.id}")
for tm_inferences in patient_result.inferences:
print(f"Trial Id {tm_inferences.id}")
print(f"Type: {str(tm_inferences.type)} Value: {tm_inferences.value}")
print(f"Description {tm_inferences.description}")
else:
tm_errors = trial_matcher_result.errors
if tm_errors is not None:
for error in tm_errors:
print(f"{error.code} : {error.message}")
Troubleshooting
General
Health Insights Clinical Matching client library will raise exceptions defined in Azure Core.
Logging
This library uses the standard logging library for logging.
Basic information about HTTP sessions (URLs, headers, etc.) is logged at INFO
level.
Detailed DEBUG
level logging, including request/response bodies and unredacted
headers, can be enabled on the client or per-operation with the logging_enable
keyword argument.
See full SDK logging documentation with examples here.
Optional Configuration
Optional keyword arguments can be passed in at the client and per-operation level. The azure-core reference documentation describes available configurations for retries, logging, transport protocols, and more.
Next steps
Additional documentation
For more extensive documentation on Azure Health Insights Clinical Matching, see the Clinical Matching documentation on docs.microsoft.com.
Contributing
This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.
When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.
This project has adopted the Microsoft Open Source Code of Conduct. For more information, see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.
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