Searching for FHIR resources

This page explains the basic instructions for how to search for FHIR resources in a FHIR store. Searching for FHIR resources is the primary way to query and get insights from FHIR data.

You can search for FHIR resources in the Cloud Healthcare API in the following ways:

This page summarizes many of the commonly used search features, but is not an exhaustive list of parts of the FHIR search specification supported by the Cloud Healthcare API.

Using the FHIR viewer

The FHIR viewer is a page in the console that lets you search for and view the contents of FHIR resources.

To search for resources in a FHIR store, complete the following steps:

  1. In the console, go to the FHIR viewer page.

    Go to the FHIR viewer

  2. In the FHIR Store drop-down list, select a dataset, and then select a FHIR store in the dataset.

  3. To filter the list of resource types, search for the resource types that you want to display:

    1. Click the Resource Type field.

    2. In the Properties drop-down list that appears, select Resource Type.

    3. Enter a resource type.

    4. To search for another resource type, select OR from the Operators drop-down list that appears, and then enter another resource type.

  4. In the list of resource types, select the resource type that you want to search on.

  5. In the search box for the table of resources that appears, enter the value that you want to search for.

The FHIR viewer displays the search results in a table. After you select a resource, the FHIR viewer displays the contents of the resource.

When you view the contents of a resource, you can search for data inside the resource.

To search for data inside a resource, follow these steps:

  1. Select a resource.

  2. In the FHIR viewer pane, click the Elements tab.

  3. In the search box, enter the value that you want to search for.

Downloading data within binary resources

To download the available binary data associated with a resource in the FHIR viewer, follow these steps:

  1. Select a resource.

  2. In the FHIR viewer pane, click the Elements tab.

  3. If necessary, expand the elements to access the required resource element.

  4. Click Download File to download the available data.

Creating and running advanced search queries

You can use advanced search queries to search for specific FHIR resources using the FHIR search specification.

To create an advanced search query, complete the following steps:

  1. On the FHIR viewer page, click the Search tab.

  2. To create a search query, click Open query Builder.

    The Query Selection panel is displayed.

  3. From the Select a FHIR resource type drop-down list, choose the FHIR resource type you want to search for.

  4. Click Continue.

  5. From the Parameter drop-down list, choose the parameters, from the list of supported search parameters for your resource type, that you want to use to search for resources.

  6. To add more than one parameter value, click OR. This enables you to include multiple values of your resource parameter in your search query.

    As you build your search query, the query is displayed on the Query Preview pane. To view the full URL of the search query, click Show full path.

  7. To add more than one parameter, click AND.

  8. Click Continue.

  9. To include resources that are referenced by the resources returned in your search query, choose the resource parameter from the Included parameters drop-down list.

  10. To include resources that reference the resources returned in your search query, choose the resource parameter from the Reverse included parameters drop-down list.

  11. Click Done to save your search query.

    The saved search query is displayed in the FHIR search operation field.

  12. To search for resources with the query, click Run Search.

    The search results are displayed in the Search results list. To view details of a resource returned by the search, click a resource in the list.

  13. To save the query as a query template, click Save template and choose Save template or Save template as. You are prompted for a name and description for the query. The query parameters are saved in a template, but any defined values are removed.

Example search query

The following example shows a search query that searches for Claim resources from a specific healthcare provider, Practitioner/12345, for the month of August, 2021:

  • Parameter: care-team
    • Value: Practitioner/12345
  • Operator: AND
  • Parameter: created
    • Prefix: lt (lesser than)
    • Value: 8/1/21, 12:00 AM
  • Operator: AND
  • Parameter: created
    • Prefix: gt (greater than)
    • Value: 8/31/21, 11:59 PM

This is configured as follows in the Query Selection panel and the query is previewed in the Query Preview pane. The query will be displayed in the FHIR search operation field.

FHIR advanced search query

Editing search queries

To edit a search query, do one of the following:

  • To edit the query in the query builder, click Open Query Builder.
  • To manually edit the query, edit the parameter values in the text box.

Running query templates

To run a query from a saved template, complete the following steps:

  1. Click Saved templates.

    The Search templates tab of the Query Selection panel is displayed, showing all saved query templates.

  2. Select the query template you want to run and click Done.

    The template's search query is displayed in the FHIR search operation field without any values.

  3. To define the values of your search query, edit the parameter values in the field.

  4. Click Run Search to search for resources with the query.

Using the search method

To search for FHIR resources with the REST API, use the projects.locations.datasets.fhirStores.fhir.search method. You can call the method using GET or POST requests.

Using the search method with GET

The following samples show how to search for resources in a given FHIR store using the projects.locations.datasets.fhirStores.fhir.search method with GET.

curl

To search for resources in a FHIR store, make a GET request and specify the following information:

  • The name of the dataset
  • The name of the FHIR store
  • The type of resource to search for
  • A query string containing the information you're searching for, as described in the Constructing a search query section
  • An access token

The following sample shows a GET request using curl to search for all patients with the last name "Smith".

curl -X GET \
     -H "Authorization: Bearer $(gcloud auth application-default print-access-token)" \
     "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient?family:exact=Smith"

If the request is successful, the server returns the response as a FHIR Bundle in JSON format. The Bundle.type is searchset and the search results are entries in the Bundle.entry array. In this example, the request returns a single Patient resource including the data inside that resource:

{
  "entry": [
    {
      "fullUrl": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/PATIENT_ID",
      "resource": {
        "birthDate": "1970-01-01",
        "gender": "female",
        "id": "PATIENT_ID",
        "meta": {
          "lastUpdated": "LAST_UPDATED",
          "versionId": "VERSION_ID"
        },
        "name": [
          {
            "family": "Smith",
            "given": [
              "Darcy"
            ],
            "use": "official"
          }
        ],
        "resourceType": "Patient"
      },
      "search": {
        "mode": "match"
      }
    }
  ],
  "link": [
    {
      "url": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/?family%3Aexact=Smith"
    }
  ],
  "resourceType": "Bundle",
  "total": 1,
  "type": "searchset"
}

PowerShell

To search for resources in a FHIR store, make a GET request and specify the following information:

  • The name of the dataset
  • The name of the FHIR store
  • The type of resource to search for
  • A query string containing the information you're searching for, as described in the Constructing a search query section
  • An access token

The following sample shows a GET request using Windows PowerShell to search for all patients with the last name "Smith".

$cred = gcloud auth application-default print-access-token
$headers = @{ Authorization = "Bearer $cred" }

Invoke-RestMethod `
  -Method Get `
  -Headers $headers `
  -Uri "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/RESOURCE_TYPE?family:exact=Smith" | ConvertTo-Json

If the request is successful, the server returns the response as a FHIR Bundle in JSON format. The Bundle.type is searchset and the search results are entries in the Bundle.entry array. In this example, the request returns a single Patient resource including the data inside that resource:

{
  "entry": [
    {
      "fullUrl": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/PATIENT_ID",
      "resource": {
        "birthDate": "1970-01-01",
        "gender": "female",
        "id": "PATIENT_ID",
        "meta": {
          "lastUpdated": "LAST_UPDATED",
          "versionId": "VERSION_ID"
        },
        "name": [
          {
            "family": "Smith",
            "given": [
              "Darcy"
            ],
            "use": "official"
          }
        ],
        "resourceType": "Patient"
      },
      "search": {
        "mode": "match"
      }
    }
  ],
  "link": [
    {
      "url": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/?family%3Aexact=Smith"
    }
  ],
  "resourceType": "Bundle",
  "total": 1,
  "type": "searchset"
}

Java

import com.google.api.client.http.HttpRequestInitializer;
import com.google.api.client.http.javanet.NetHttpTransport;
import com.google.api.client.json.JsonFactory;
import com.google.api.client.json.jackson2.JacksonFactory;
import com.google.api.services.healthcare.v1.CloudHealthcare;
import com.google.api.services.healthcare.v1.CloudHealthcareScopes;
import com.google.auth.http.HttpCredentialsAdapter;
import com.google.auth.oauth2.GoogleCredentials;
import java.io.IOException;
import java.net.URISyntaxException;
import java.util.Collections;
import org.apache.http.HttpEntity;
import org.apache.http.HttpResponse;
import org.apache.http.HttpStatus;
import org.apache.http.client.HttpClient;
import org.apache.http.client.methods.HttpUriRequest;
import org.apache.http.client.methods.RequestBuilder;
import org.apache.http.client.utils.URIBuilder;
import org.apache.http.entity.StringEntity;
import org.apache.http.impl.client.HttpClients;

public class FhirResourceSearchGet {
  private static final String FHIR_NAME =
      "projects/%s/locations/%s/datasets/%s/fhirStores/%s/fhir/%s";
  // The endpoint URL for the Healthcare API. Required for HttpClient.
  private static final String API_ENDPOINT = "https://healthcare.googleapis.com";
  private static final JsonFactory JSON_FACTORY = new JacksonFactory();
  private static final NetHttpTransport HTTP_TRANSPORT = new NetHttpTransport();

  public static void fhirResourceSearchGet(String resourceName)
      throws IOException, URISyntaxException {
    // String resourceName =
    //    String.format(
    //        FHIR_NAME, "project-id", "region-id", "dataset-id", "fhir-store-id");
    // String resourceType = "Patient";

    // Instantiate the client, which will be used to interact with the service.
    HttpClient httpClient = HttpClients.createDefault();
    String uri = String.format("%s/v1/%s", API_ENDPOINT, resourceName);
    URIBuilder uriBuilder = new URIBuilder(uri).setParameter("access_token", getAccessToken());
    // To set additional parameters for search filtering, add them to the URIBuilder. For
    // example, to search for a Patient with the family name "Smith", specify the following:
    // uriBuilder.setParameter("family:exact", "Smith");

    HttpUriRequest request =
        RequestBuilder.get()
            .setUri(uriBuilder.build())
            .build();

    // Execute the request and process the results.
    HttpResponse response = httpClient.execute(request);
    HttpEntity responseEntity = response.getEntity();
    if (response.getStatusLine().getStatusCode() != HttpStatus.SC_OK) {
      System.err.print(
          String.format(
              "Exception searching GET FHIR resources: %s\n", response.getStatusLine().toString()));
      responseEntity.writeTo(System.err);
      throw new RuntimeException();
    }
    System.out.println("FHIR resource GET search results: ");
    responseEntity.writeTo(System.out);
  }

  private static CloudHealthcare createClient() throws IOException {
    // Use Application Default Credentials (ADC) to authenticate the requests
    // For more information see https://cloud.google.com/docs/authentication/production
    GoogleCredentials credential =
        GoogleCredentials.getApplicationDefault()
            .createScoped(Collections.singleton(CloudHealthcareScopes.CLOUD_PLATFORM));
    // Create a HttpRequestInitializer, which will provide a baseline configuration to all requests.
    HttpRequestInitializer requestInitializer =
        request -> {
          new HttpCredentialsAdapter(credential).initialize(request);
          request.setConnectTimeout(60000); // 1 minute connect timeout
          request.setReadTimeout(60000); // 1 minute read timeout
        };
    // Build the client for interacting with the service.
    return new CloudHealthcare.Builder(HTTP_TRANSPORT, JSON_FACTORY, requestInitializer)
        .setApplicationName("your-application-name")
        .build();
  }

  private static String getAccessToken() throws IOException {
    GoogleCredentials credential =
        GoogleCredentials.getApplicationDefault()
            .createScoped(Collections.singleton(CloudHealthcareScopes.CLOUD_PLATFORM));

    return credential.refreshAccessToken().getTokenValue();
  }
}

Node.js

// Import google-auth-library for authentication.
const {GoogleAuth} = require('google-auth-library');

const searchFhirResourcesGet = async () => {
  const auth = new GoogleAuth({
    scopes: 'https://www.googleapis.com/auth/cloud-platform',
  });
  // TODO(developer): uncomment these lines before running the sample
  // const cloudRegion = 'us-central1';
  // const projectId = 'adjective-noun-123';
  // const datasetId = 'my-dataset';
  // const fhirStoreId = 'my-fhir-store';
  // const resourceType = 'Patient';
  const url = `https://healthcare.googleapis.com/v1/projects/${projectId}/locations/${cloudRegion}/datasets/${datasetId}/fhirStores/${fhirStoreId}/fhir/${resourceType}`;

  const params = {};
  // Specify search filters in a params object. For example, to filter on a
  // Patient with the last name "Smith", set resourceType to "Patient" and
  // specify the following params:
  // params = {'family:exact' : 'Smith'};
  const client = await auth.getClient();
  const response = await client.request({url, method: 'GET', params});
  const resources = response.data.entry;
  console.log(`Resources found: ${resources.length}`);
  console.log(JSON.stringify(resources, null, 2));
};

searchFhirResourcesGet();

Python

def search_resources_get(
    project_id,
    location,
    dataset_id,
    fhir_store_id,
    resource_type,
):
    """
    Uses the searchResources GET method to search for resources in the given FHIR store.

    See https://github.com/GoogleCloudPlatform/python-docs-samples/tree/main/healthcare/api-client/v1/fhir
    before running the sample."""
    # Imports Python's built-in "os" module
    import os

    # Imports the google.auth.transport.requests transport
    from google.auth.transport import requests

    # Imports a module to allow authentication using a service account
    from google.oauth2 import service_account

    # Gets credentials from the environment.
    credentials = service_account.Credentials.from_service_account_file(
        os.environ["GOOGLE_APPLICATION_CREDENTIALS"]
    )
    scoped_credentials = credentials.with_scopes(
        ["https://www.googleapis.com/auth/cloud-platform"]
    )
    # Creates a requests Session object with the credentials.
    session = requests.AuthorizedSession(scoped_credentials)

    # URL to the Cloud Healthcare API endpoint and version
    base_url = "https://healthcare.googleapis.com/v1"

    # TODO(developer): Uncomment these lines and replace with your values.
    # project_id = 'my-project'  # replace with your GCP project ID
    # location = 'us-central1'  # replace with the parent dataset's location
    # dataset_id = 'my-dataset'  # replace with the parent dataset's ID
    # fhir_store_id = 'my-fhir-store' # replace with the FHIR store ID
    # resource_type = 'Patient'  # replace with the FHIR resource type
    url = "{}/projects/{}/locations/{}".format(base_url, project_id, location)

    resource_path = "{}/datasets/{}/fhirStores/{}/fhir/{}".format(
        url, dataset_id, fhir_store_id, resource_type
    )

    response = session.get(resource_path)
    response.raise_for_status()

    resources = response.json()

    print(
        "Using GET request, found a total of {} {} resources:".format(
            resources["total"], resource_type
        )
    )
    print(json.dumps(resources, indent=2))

    return resources

Using the search method with POST

The following samples show how to search for resources in a given FHIR store using the projects.locations.datasets.fhirStores.fhir.search method with POST.

curl

To search for resources in a FHIR store, make a POST request and specify the following information:

  • The name of the dataset
  • The name of the FHIR store
  • The type of resource to search for
  • A query string containing the information you're searching for, as described in the Constructing a search query section
  • An access token

The following sample shows a POST request using curl to search for all patients with the last name "Smith".

curl -X POST \
    --data "" \
    -H "Authorization: Bearer $(gcloud auth application-default print-access-token)" \
    -H "Content-Type: application/fhir+json; charset=utf-8" \
    "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/_search?family:exact=Smith"

If the request is successful, the server returns the response as a FHIR Bundle in JSON format. The Bundle.type is searchset and the search results are entries in the Bundle.entry array. In this example, the request returns a single Patient resource including the data inside that resource:

{
  "entry": [
    {
      "fullUrl": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/PATIENT_ID",
      "resource": {
        "birthDate": "1970-01-01",
        "gender": "female",
        "id": "PATIENT_ID",
        "meta": {
          "lastUpdated": "LAST_UPDATED",
          "versionId": "VERSION_ID"
        },
        "name": [
          {
            "family": "Smith",
            "given": [
              "Darcy"
            ],
            "use": "official"
          }
        ],
        "resourceType": "Patient"
      },
      "search": {
        "mode": "match"
      }
    }
  ],
  "link": [
    {
      "url": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/?family%3Aexact=Smith"
    }
  ],
  "resourceType": "Bundle",
  "total": 1,
  "type": "searchset"
}

PowerShell

To search for resources in a FHIR store, make a POST request and specify the following information:

  • The name of the dataset
  • The name of the FHIR store
  • The type of resource to search for
  • A query string containing the information you're searching for, as described in the Constructing a search query section
  • An access token

The following sample shows a POST request using Windows PowerShell to search for all patients with the last name "Smith".

$cred = gcloud auth application-default print-access-token
$headers = @{ Authorization = "Bearer $cred" }

Invoke-RestMethod `
  -Method Post `
  -Headers $headers `
  -ContentType: "application/fhir+json; charset=utf-8" `
  -Uri "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/_search?family:exact=Smith" | ConvertTo-Json

If the request is successful, the server returns the response as a FHIR Bundle in JSON format. The Bundle.type is searchset and the search results are entries in the Bundle.entry array. In this example, the request returns a single Patient resource including the data inside that resource:

{
  "entry": [
    {
      "fullUrl": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/PATIENT_ID",
      "resource": {
        "birthDate": "1970-01-01",
        "gender": "female",
        "id": "PATIENT_ID",
        "meta": {
          "lastUpdated": "LAST_UPDATED",
          "versionId": "VERSION_ID"
        },
        "name": [
          {
            "family": "Smith",
            "given": [
              "Darcy"
            ],
            "use": "official"
          }
        ],
        "resourceType": "Patient"
      },
      "search": {
        "mode": "match"
      }
    }
  ],
  "link": [
    {
      "url": "https://healthcare.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION/datasets/DATASET_ID/fhirStores/FHIR_STORE_ID/fhir/Patient/?family%3Aexact=Smith"
    }
  ],
  "resourceType": "Bundle",
  "total": 1,
  "type": "searchset"
}

Java

import com.google.api.client.http.HttpRequestInitializer;
import com.google.api.client.http.javanet.NetHttpTransport;
import com.google.api.client.json.JsonFactory;
import com.google.api.client.json.jackson2.JacksonFactory;
import com.google.api.services.healthcare.v1.CloudHealthcare;
import com.google.api.services.healthcare.v1.CloudHealthcareScopes;
import com.google.auth.http.HttpCredentialsAdapter;
import com.google.auth.oauth2.GoogleCredentials;
import java.io.IOException;
import java.net.URISyntaxException;
import java.util.Collections;
import org.apache.http.HttpEntity;
import org.apache.http.HttpResponse;
import org.apache.http.HttpStatus;
import org.apache.http.client.HttpClient;
import org.apache.http.client.methods.HttpUriRequest;
import org.apache.http.client.methods.RequestBuilder;
import org.apache.http.client.utils.URIBuilder;
import org.apache.http.entity.StringEntity;
import org.apache.http.impl.client.HttpClients;

public class FhirResourceSearchPost {
  private static final String FHIR_NAME =
      "projects/%s/locations/%s/datasets/%s/fhirStores/%s/fhir/%s";
  // The endpoint URL for the Healthcare API. Required for HttpClient.
  private static final String API_ENDPOINT = "https://healthcare.googleapis.com";
  private static final JsonFactory JSON_FACTORY = new JacksonFactory();
  private static final NetHttpTransport HTTP_TRANSPORT = new NetHttpTransport();

  public static void fhirResourceSearchPost(String resourceName)
      throws IOException, URISyntaxException {
    // String resourceName =
    //    String.format(
    //        FHIR_NAME, "project-id", "region-id", "dataset-id", "store-id", "resource-type");

    // Instantiate the client, which will be used to interact with the service.
    HttpClient httpClient = HttpClients.createDefault();
    String uri = String.format("%s/v1/%s/_search", API_ENDPOINT, resourceName);
    URIBuilder uriBuilder = new URIBuilder(uri).setParameter("access_token", getAccessToken());
    // To set additional parameters for search filtering, add them to the URIBuilder. For
    // example, to search for a Patient with the family name "Smith", specify the following:
    // uriBuilder.setParameter("family:exact", "Smith");

    // Set a body otherwise HttpClient complains there is no Content-Length set.
    StringEntity requestEntity = new StringEntity("");

    HttpUriRequest request =
        RequestBuilder.post()
            .setUri(uriBuilder.build())
            .setEntity(requestEntity)
            .addHeader("Content-Type", "application/fhir+json")
            .addHeader("Accept-Charset", "utf-8")
            .addHeader("Accept", "application/fhir+json; charset=utf-8")
            .build();

    // Execute the request and process the results.
    HttpResponse response = httpClient.execute(request);
    HttpEntity responseEntity = response.getEntity();
    if (response.getStatusLine().getStatusCode() != HttpStatus.SC_OK) {
      System.err.print(
          String.format(
              "Exception searching POST FHIR resources: %s\n",
              response.getStatusLine().toString()));
      responseEntity.writeTo(System.err);
      throw new RuntimeException();
    }
    System.out.println("FHIR resource POST search results: ");
    responseEntity.writeTo(System.out);
  }

  private static CloudHealthcare createClient() throws IOException {
    // Use Application Default Credentials (ADC) to authenticate the requests
    // For more information see https://cloud.google.com/docs/authentication/production
    GoogleCredentials credential =
        GoogleCredentials.getApplicationDefault()
            .createScoped(Collections.singleton(CloudHealthcareScopes.CLOUD_PLATFORM));

    // Create a HttpRequestInitializer, which will provide a baseline configuration to all requests.
    HttpRequestInitializer requestInitializer =
        request -> {
          new HttpCredentialsAdapter(credential).initialize(request);
          request.setConnectTimeout(60000); // 1 minute connect timeout
          request.setReadTimeout(60000); // 1 minute read timeout
        };

    // Build the client for interacting with the service.
    return new CloudHealthcare.Builder(HTTP_TRANSPORT, JSON_FACTORY, requestInitializer)
        .setApplicationName("your-application-name")
        .build();
  }

  private static String getAccessToken() throws IOException {
    GoogleCredentials credential =
        GoogleCredentials.getApplicationDefault()
            .createScoped(Collections.singleton(CloudHealthcareScopes.CLOUD_PLATFORM));

    return credential.refreshAccessToken().getTokenValue();
  }
}

Node.js

// Import google-auth-library for authentication.
const {GoogleAuth} = require('google-auth-library');

const searchFhirResourcesPost = async () => {
  const auth = new GoogleAuth({
    scopes: 'https://www.googleapis.com/auth/cloud-platform',
    // Set application/fhir+json header because this is a POST request.
    headers: {'Content-Type': 'application/fhir+json'},
  });
  // TODO(developer): uncomment these lines before running the sample
  // const cloudRegion = 'us-central1';
  // const projectId = 'adjective-noun-123';
  // const datasetId = 'my-dataset';
  // const fhirStoreId = 'my-fhir-store';
  // const resourceType = 'Patient';
  const url = `https://healthcare.googleapis.com/v1/projects/${projectId}/locations/${cloudRegion}/datasets/${datasetId}/fhirStores/${fhirStoreId}/fhir/${resourceType}/_search`;

  const params = {};
  // Specify search filters in a params object. For example, to filter on a
  // Patient with the last name "Smith", set resourceType to "Patient" and
  // specify the following params:
  // params = {'family:exact' : 'Smith'};
  const client = await auth.getClient();
  const response = await client.request({url, method: 'POST', params});
  const resources = response.data.entry;
  console.log(`Resources found: ${resources.length}`);
  console.log(JSON.stringify(resources, null, 2));
};

searchFhirResourcesPost();

Python

def search_resources_post(project_id, location, dataset_id, fhir_store_id):
    """
    Searches for resources in the given FHIR store. Uses the
    _search POST method and a query string containing the
    information to search for. In this sample, the search criteria is
    'family:exact=Smith' on a Patient resource.

    See https://github.com/GoogleCloudPlatform/python-docs-samples/tree/main/healthcare/api-client/v1/fhir
    before running the sample."""
    # Imports Python's built-in "os" module
    import os

    # Imports the google.auth.transport.requests transport
    from google.auth.transport import requests

    # Imports a module to allow authentication using a service account
    from google.oauth2 import service_account

    # Gets credentials from the environment.
    credentials = service_account.Credentials.from_service_account_file(
        os.environ["GOOGLE_APPLICATION_CREDENTIALS"]
    )
    scoped_credentials = credentials.with_scopes(
        ["https://www.googleapis.com/auth/cloud-platform"]
    )
    # Creates a requests Session object with the credentials.
    session = requests.AuthorizedSession(scoped_credentials)

    # URL to the Cloud Healthcare API endpoint and version
    base_url = "https://healthcare.googleapis.com/v1"

    # TODO(developer): Uncomment these lines and replace with your values.
    # project_id = 'my-project'  # replace with your GCP project ID
    # location = 'us-central1'  # replace with the parent dataset's location
    # dataset_id = 'my-dataset'  # replace with the parent dataset's ID
    # fhir_store_id = 'my-fhir-store' # replace with the FHIR store ID
    url = "{}/projects/{}/locations/{}".format(base_url, project_id, location)

    fhir_store_path = "{}/datasets/{}/fhirStores/{}/fhir".format(
        url, dataset_id, fhir_store_id
    )

    resource_path = "{}/Patient/_search?family:exact=Smith".format(fhir_store_path)

    # Sets required application/fhir+json header on the request
    headers = {"Content-Type": "application/fhir+json;charset=utf-8"}

    response = session.post(resource_path, headers=headers)
    response.raise_for_status()

    resources = response.json()
    print(
        "Using POST request, found a total of {} Patient resources:".format(
            resources["total"]
        )
    )

    print(json.dumps(resources, indent=2))

    return resources

Constructing a search query

The query string is a series of name=value pairs encoded in URL form. A search combines all the pairs with a logical AND. Each value can be a comma-separated list of values, which are treated as a logical OR of those values. For example, Patient?key1=value1&key2=value2,value3 is a search on Patient resources using the following criteria:

(key1 = value1) AND (key2 = value2 OR key2 = value3)

There is no syntax to perform an OR of two name=value pairs.

Each FHIR resource type defines its own search parameters in each version of FHIR. The available parameters are documented in the FHIR specification for each resource. For an example, see FHIR R4 Patient. You can retrieve the parameters programmatically through the capability statement. The Cloud Healthcare API supports most search parameters; you can find exclusions through the capability statement or FHIR conformance statement.

Pagination and sorting

The _count parameter controls the maximum number of resources returned from the search method. For example, _count=10 returns, at most, 10 resources matching the query. The default is 100 and the maximum value allowed is 1,000.

If a search returns more resources than fit on one page, the response includes a pagination URL in the Bundle.link field. There might be multiple values returned in this field; the value with Bundle.link.relation = next indicates that you can use the corresponding Bundle.link.url to retrieve the next page.

The value of Bundle.total indicates the total number of matching resources. This value is exact if the results fit entirely in one page, but becomes a rough estimate as the number of results becomes larger than one page. You can obtain an exact total for a search that matches many results by following pagination links repeatedly until the results are exhausted.

You can sort results using the _sort parameter, which accepts a comma-separated list of search parameter names in priority order. You can use a - prefix to indicate decreasing order. For example, the following query sorts by status ascending, breaking ties by date descending, and breaking any remaining ties by category ascending:

_sort=status,-date,category

Indexing delay

FHIR resources are indexed asynchronously, so there might be a slight delay between the time a resource is created or changed and when the creation or change is reflected in search results.

Searching across all resource types

Certain search parameters, shown by a leading underscore like _id, apply to all resource types. These all-resource parameters are listed in the FHIR specification for the Resource type.

When using these search parameters, you can perform a search across multiple resource types by omitting the resource type from the request path. For example, using GET .../fhir?_id=1234 instead of GET .../fhir/Patient?_id=1234 searches across all FHIR resources instead of only a Patient resource. You can use the special parameter _type with this type of request to limit the results to a comma-separated list of resource types. For example, the following query only returns matching results for Observation and Condition resources:

GET .../fhir?_tag=active&_type=Observation,Condition

Data types

Each search parameter defined by FHIR has a data type, which includes primitive types such as the following:

  • String
  • Number
  • Date

Data types also include the following complex types:

  • Token
  • Reference
  • Quantity

Each data type has its own syntax for specifying values. Each data type supports modifiers that alter how the search is performed.

The following sections show how to use data types. For more details on additional data types, value syntaxes, and modifiers, see Advanced FHIR search features.

Number

Searches on integer or floating point values. To change the comparator, prefix the value with one of the following modifiers:

  • ne
  • lt
  • le
  • gt
  • ge

For example, use [parameter]=100 for equality, or use [parameter]=ge100 for greater than or equal to 100.

Date

Searches on any type of date, time, or period. The date parameter format is the following:

yyyy-mm-ddThh:mm:ss[Z|(+|-)hh:mm]

The same prefix modifiers used for number apply.

String

Defaults to a prefix search that is insensitive to case, accents, or other diacritical marks.

Token

Searches for an exact string match of a "code". You can scope the search to the URI of a "system" indicating the value set the code is taken from using the following format:

[parameter]=[system]|[code]

For example, the following search matches a code of 10738-3, but only when qualified as a value from a coding system with the specified URI:

code=http://hl7.org/fhir/ValueSet/observation-codes|10738-3

Quantity

Searches for a numeric value using the same prefix modifiers as number. You can qualify the search with a specific system and code indicating the units of the value in following format:

[parameter]=[prefix][number]|[system]|[code]

For example, the following query searches for quantity values less than 9.1 that have the specified unit system and code:

value-quantity=lt9.1|http://unitsofmeasure.org|mg

Reference

Searches for references between resources. You can use the following queries for references to resources inside a FHIR store:

  • [parameter]=[id]
  • [parameter]=[type]/[id]

You can use [parameter]=[url] to specify references by URL that might be outside the FHIR store.

Search parameter handling

By default, the search method applies "lenient" handling, which ignores parameters that the search does not recognize. The search method performs the search using any remaining parameters in the request, which might return more resources than expected.

The response includes the following:

  • A value in Bundle.link with a value of Bundle.link.relation = self
  • A Bundle.link.url of a URL containing only the parameters that were successfully applied to the search. You can inspect this value to determine whether any parameters were ignored.

You can set the request HTTP header to Prefer: handling=strict on a search request. Setting the header causes the FHIR store to return an error on any unrecognized parameter.