Skip to content

CDAKit for iOS, the Open Source Clinical Document Architecture Library with HealthKit Connectivity. Helping you quickly manage CDA-structured health data.

License

Notifications You must be signed in to change notification settings

ewhitley/CDAKit

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

56 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

CDAKit Logo

CocoaPods Compatible License Zeonodo DOI

CDAKit

CDAKit for iOS, the Open Source Clinical Document Architecture Library with HealthKit Connectivity. Helping you quickly manage CDA-structured health data.

CDAKit provides C32 and C-CDA import and export functionality as well as the ability to connect CDA concepts with HealthKit samples. This allows for bridging between CDA and HealthKit so you can integrate with an Electronic Medical Records system.

CDAKit's models, importer, and exporter are based on the Ruby Health-Data-Standards project (HDS), which was funded by the US Office of the National Coordinator for Health Information Technology (ONC) and built primarily by MITRE Corporation (MITRE).

You can read more about some of the rationale behind CDAKit here: LinkedIn posts.

The CDAKit Team

Special Thanks

CDAKit wouldn't exist without the Ruby Health-Data-Standards library. In particular, the following individuals whose leadership, commitment, and hard work are helping drive healthcare interoperability:

Features

  • Create CDA documents (C32 and CCDA)
  • Import CDA documents (C32 and CCDA)
  • Bridge to/from HealthKit (for CDA import and export)

The Fast Track

let doc = ((supply your CDA XML string))

do {
  //let's try to import from CDA
  let record = try CDAKRecord(fromXML: doc)

  //let's create a new vital
  // use the coded values to govern "meaning" (height, weight, BMI, BP items, etc.)
  let aVital = CDAKVitalSign()
  aVital.codes.addCodes("LOINC", code: "3141-9") //weight
  aVital.values.append(CDAKPhysicalQuantityResultValue(scalar: 155.0, units: "lb"))
  aVital.start_time = NSDate().timeIntervalSince1970
  aVital.end_time = NSDate().timeIntervalSince1970

  //append our height to our record
  record.vital_signs.append(aVital)

  //OK, let's convert our CDAK record to HealthKit
  let hkRecord = CDAKHKRecord(fromCDAKRecord: record)

  //let's explicitly set our preferred units to metric for a few things
  CDAKHealthKitBridge.sharedInstance.CDAKHKQuantityTypeDefaultUnits[.HKQuantityTypeIdentifierHeight] = "cm"
  CDAKHealthKitBridge.sharedInstance.CDAKHKQuantityTypeDefaultUnits[.HKQuantityTypeIdentifierBodyMass] = "kg"

  //now let's convert back from HealthKit to our model
  let cdakRecord = hkRecord.exportAsCDAKRecord()

  //render from our model to CDA - format set to .ccda (could also do .c32)
  print(cdakRecord.export(inFormat: .ccda))
}
catch {
  //do something
}

Installation

Requirements

  • iOS 8+
  • Xcode 7
  • Swift 2.1

Using CocoaPods

CDAKit is currently distributed through CocoaPods. To install CDAKit, add it to your to your Podfile:

platform :ios, '8.0'
use_frameworks!

target 'MyApp' do
pod 'CDAKit', '~> 1.0'
end

Then, run the following command from Terminal:

$ pod install

Dependencies

CDAKit proudly uses the following projects:

  • Fuzi - "A fast & lightweight XML & HTML parser in Swift with XPath & CSS support" Used for all XPath-based parsing of inbound CDA XML.
  • GRMustache - "Flexible Mustache templates for Swift" Swift version of the Mustache templating engine. Used for CDA XML generation.
  • Try - "Handle Objective-C Exceptions with Swift's error handling system" There is one specific place (attempting to create an HKUnit from string) where we need to use the more traditional "try" (with failure) to handle exceptions that Swift can't yet address.

Usage

Reference CDAKit in your app

import CDAKit

Basic Models

CDAKit Record Model

CDAKit uses a "Record" object (CDAKRecord) that represents the core CDA document. Within the record are individual entries (CDAKEntry) with various more precise types for elements like encounters, medications, allergies, etc.

  • CDAKRecord: Central record

    • Record header metadata
    • Patient name, medical record numbers, demographics, gender, etc.
    • Specific typed arrays of child CDA Entries by type (allergies, encounters, etc.)
  • CDAKEntry: Your detailed CDA content. These may either be CDAKEntry or more specific subclasses like CDAKAllergy, CDAKMedication, CDAKEncounter, etc.

  • CDAKCodedEntries and CDAKCodedEntry: These represent the pairing (or collections of pairings) or a medical terminology system and a concept code.

  • CDAKPhysicalQuantityResultValue: A pairing of a unit of measure (lb, in, mm, etc.) and an associated value (1, 2.3, 75, etc).

Coded Data

Entries can contain codes which represent vocabulary-encoded concept codes. A "BMI," for example, can be represented with LOINC:39156-5 (Body mass index (BMI) [Ratio]). In the absence of coded data, the concept is effectively "meaningless" for the purposes of interoperability. While you and I may be able to read a textual "BMI" description, coded vocabulary entries are essential for machines to interpret the intended meaning of a piece of information.

Adding coded data to an Entry

  let aVital = CDAKVitalSign()
  aVital.codes.addCodes("LOINC", code: "3141-9") //weight

The vocabulary keys are flexible, but there are some fixed keys to help ensure concepts that have "preferred" vocabularies are able to resolve the choice of preferred vs. translation entries.

The list of known, commonly-used keys is available through CDAKVocabularyKeys.

You could then use these constants as follows:

      let aVital = CDAKVitalSign()
      aVital.codes.addCodes(CDAKVocabularyKeys.LOINC, code: "3141-9") //weight

This is probably preferred just to ensure consistency and ensure any associated OID lookups succeed.

You can also supply an optional descriptive displayName which would appear in the finalized coded results.

      let aVital = CDAKVitalSign()
      aVital.codes.addCodes(CDAKVocabularyKeys.LOINC, code: "3141-9", displayName: "Body Weight") //weight

Basic Methods

Importing from CDA XML

Import your CDA XML from wherever it might be. If you need some sample CDA files, Bostron Children's Hospital has set up a great repository.

Once you have your XML, you can try to create a CDAKRecord from it by parsing the String. The XML is expected to be a well-formed XML document with a ClinicalDocument root element.

let myXML:String = ((Get some CDA XML))
do {
  //try to import some CDA XML
  let record = try CDAKRecord(fromXML: myXML)
}
catch {
}

CDA parsing-specific errors may be of a few types, all defined in CDAKImportError

public enum CDAKImportError : ErrorType {
  case NotImplemented
  case UnableToDetermineFormat
  case NoClinicalDocumentElement
  case InvalidXML
}
  • NotImplemented: This is a known CDA document type, but the importer doesn't (yet) handle the format
  • UnableToDetermineFormat: This appears to be a valid XML file and also a valid ClinicalDocument, but contains no known template OIDs.
  • NoClinicalDocumentElement: Could not find a ClinicalDocument root element
  • InvalidXML: No XML header

Exporting to CDA XML

Once your CDAKRecord is populated you can export it to one of the supported CDA XML formats.

The formats are enumerated

  • .c32
  • .ccda
let myOutboundCDAXML = cdakRecord.export(inFormat: .ccda)
print(myOutboundCDAXML)

Importing: Enabling Support for "Indeterminate" CDA Formats

CDAKit uses the templateId OIDs within the XML file's ClinicalDocument header to determine format (found in bulk_record_importer).

  • C32: 2.16.840.1.113883.3.88.11.32.1
  • CCDA: 2.16.840.1.113883.10.20.22.1.2
  • QRDA1: 2.16.840.1.113883.10.20.24.1.2 (Not yet supported and will intentinoally throw an error)

By default, failing to detect any of those OIDs will result in a document parsing exception. Some document templates may contain valid CDA, but will not use one of those OIDs. They might, instead, use only the "US General Realm" header.

  • "MAYBE": 2.16.840.1.113883.10.20.22.1.1 (US General Realm header)

You can attempt to find any "might be supported" files by specifying the attemptNonStandardCDAImport flag in the global CDAKit singleton before attempting import.

CDAKGlobals.sharedInstance.attemptNonStandardCDAImport = true

From there you can then attempt to import an unspecified CDA file

CDAKGlobals.sharedInstance.attemptNonStandardCDAImport = true //enable wider support

let myCDAXMLWithoutTheRightType:String = ((Get some non-standard CDA XML))
do {
  //try to import some CDA XML
  let record = try CDAKRecord(fromXML: myCDAXMLWithoutTheRightType:String)
}
catch {
}

HealthKit Bridge

You can transform between the CDA models and HealthKit models in order to bridge the two different representations. An extended discussion of the approach can be found here.

This process uses an intermediate CDAKHKRecord model to house the HealthKit samples. If you have existing HealthKit samples, just just need to add them to the samples collection. Ideally, you're also able to provide some basic name and gender information.

You will likely experience two challenges:

  • Concept / clinical code mappings: What is a "height"? How do heights in a CDA file reconcile with heights in HealthKit?
  • Unit mappings: If I have a measurement of "98.6 degF" in CDA, how do I transform that into something HealthKit samples can use?

The HealthKit bridge provides default behaviors for both of these, but you will almost certainly wish to alter them to suit your specific needs.

CDA to HealthKit

Importing from CDA to HealthKit can be done fairly quickly by converting a CDA-oriented CDAKRecord into HealthKit-compatible record. To do so, you can just initialize a (HealthKit) CDAKHKRecord from a (CDA) CDAKRecord.

let doc = ((my CDA XML))
do {
  //try to import some CDA XML
  let record = try CDAKRecord(fromXML: doc)
  
  //OK, let's convert our CDAK record to HealthKit
  let hkRecord = CDAKHKRecord(fromCDAKRecord: record)

  for sample in hkRecord.samples {
    print(sample)//these are all HKQuantitySamples
  }
}
catch {
}

HealthKit to CDA

You can quickly transform a HealthKit CDAKHKRecord into a CDA-oriented CDAKHKRecord using the exportAsCDAKRecord method. This reads all samples in the HealthKit bridging record and attempts to transform the clinical concept and associated unit representations into a CDA structure.

//our wrapping record for HealthKit stuff
let hkRecord = CDAKHKRecord()

//Let's create a HealthKit height
let aUnit = HKUnit(fromString: "in")
let aQty = HKQuantity(unit: aUnit, doubleValue: 72 )
let aQtyType = HKQuantityType.quantityTypeForIdentifier(HKQuantityTypeIdentifierHeight)
let hkHeight = HKQuantitySample(type: aQtyType!, quantity: aQty, startDate: NSDate(), endDate: NSDate())

//store the sample in our record
hkRecord.samples.append(hkHeight)

//convert the HealthKit record to CDAKRecord
let cdakRecord = hkRecord.exportAsCDAKRecord()

Overriding CDA-Based Units Explicitly

The HealthKit bridge defaults output units to settings managed through a preferences file.

If you wish to default preferred units for a given set of quantity types you can do so per HealthKit sample type identifier.

CDAKHealthKitBridge.sharedInstance.CDAKHKQuantityTypeDefaultUnits[.HKQuantityTypeIdentifierHeight] = "cm"

You can modify large groups of default units by changing CDAKHKQuantityTypeDefaultUnits, which is the dictionary where unit maps are stored at runtime.

Example:

["HKQuantityTypeIdentifierBasalBodyTemperature", "degF"]

This is initially loaded from the local CDAKitDefaultSampleTypeIdentifierSettings resource file in CDAKit.

The plist uses the unit key and associated string value

  <key>HKQuantityTypeIdentifierBasalBodyTemperature</key>
  <dict>
  <key>unit</key>
  <string>degF</string>

Overriding Units Based on User Preferences

If you want to export HealthKit objects, you may want to let the user's personal unit settings drive the HKUnit selection (where possible). For example, we may import a "body temperature" in Fahrenheit, but a user may prefer to see that information rendered in Celsius. If their personal unit settings for a quantity type are set, this will overwrite the global defaults with the user's preferred setting.

This feature uses HKHealthStore. It is assumed all authorizations will be managed by your application.

This functionality modifies the HealthKit samples - NOT the native CDA data stored in the CDAKRecord. You must set the unit preferences BEFORE you export a HKRecord (exportAsCDAKRecord). Once exported to a CDAKRecord, any changes to the bridge's unit types will not be reflected. CDA unit types are fixed strings.

HealthKit does this on a background thread, so be careful how you handle things on the UI.

//create an instance of the HealthKit management service
let healthKitStore:HKHealthStore = HKHealthStore()
//NOTE: you'd need to handle authorizations for your specific sample types

//attempt to set the HealthKit bridge's desired target units to whatever the user's device preferences might be
CDAKHealthKitBridge.sharedInstance.setCDAKUnitTypesWithUserSettings(self.healthManager.healthKitStore)

Vocabulary and Unit Mappings

This is the most complex and "personal preference" aspect of mapping between HealthKit and CDA. When, for example, you export a HealthKit glucose HKQuantityTypeIdentifierBloodGlucose sample to CDA, which clinical vocabulary and concept code would you like to use? Which measurement units would be most appropriate? Likewise, when importing from CDA to HealthKit, how do you infer that "LOINC:2345-7" is a blood glucose measurement? And how do you transform the variety of CDA-based UCUM units into Apple's expected "mg/dl"?

To help, CDAKit provides two key mechanisms:

  • A vocabulary mapping system: This simply takes a HealthKit sample type identifier like HKQuantityTypeIdentifierBloodGlucose and asserts a specific set of vocabulary types and coded values
  • A unit mapping closure: This attempts to interpret the variety of inbound CDA units and transform them into a HealthKit-compatible representation. This is defaulted, but the cdaStringUnitFinder closure variable may (and should) be used by developers to change this behavior to suit their particular needs.

Vocabulary Mapping

Vocabulary mapping simply tries to tie a HealthKit quantity sample type identifier to a set of known vocabulary types and associated codes.

In CDA, you might receive a lab result with the following coded entry XML:

<code 
  codeSystem="2.16.840.1.113883.6.1"
  codeSystemName="LOINC" 
  code="2345-7" 
  displayName="Glucose, Serum" />

How do we transform that into a HKQuantityTypeIdentifierBloodGlucose?

We simply provide a map from "LOINC:2345-7" to HKQuantityTypeIdentifierBloodGlucose.

CDAKit provides two maps to help with this:

  • import : used exclusively when importing values from CDA to HealthKit
  • export : used exclusively when exporting values from HealthKit to CDA

CDAKit provides default curated "starter" maps, but you can override all values via the loadHealthKitTermMap method. This method accepts a Swift dictionary [String:AnyObject] based on a structure defined below:

  • The primary key is HealthKit sample type identifier you wish to bind.
  • Within this, there is a child array bound to the key/tag CDAKit uses to map to a vocabulary. EX: "LOINC" or "SNOMED-CT". This declares that all following coded entries within the array will be of that specified vocabulary.
  • Details for code, displayName, and mapping restriction. code is the vocabulary concept code (EX: 39156-5) for the associated displayName (EX: "Body mass index (BMI) [Ratio]").
   <key>HKQuantityTypeIdentifierBodyMassIndex</key>
   <dict>
			<key>LOINC</key>
			<array>
   <dict>
   <key>code</key>
   <string>39156-5</string>
   <key>displayName</key>
   <string>Body mass index (BMI) [Ratio]</string>
   <key>mapRestriction</key>
   <string>both</string>
   </dict>
			</array>
   ... (more vocabularies)
   </dict> 

Unit Mapping

The default unit mapping is a prototype and very brittle. It simply uses a combination of regular expressions and "best guesses" to attempt to transform a set of UCUM-like unit strings into something HealthKit can utilize.

If developers have known CDA structures they would like to handle, it is suggested that they override the default unit matching algorithm.

To do so, simply provide your own custom closure via the cdaStringUnitFinder variable.

  public var cdaStringUnitFinder : ((unit_string: String?, typeIdentifier: String? ) -> HKUnit?)?

This mock example would simply look for anything like "beats" and transform it into the HealthKit-compatible "count/min".

var cdaStringUnitFinder : ((unit_string: String?, typeIdentifier: String? ) -> HKUnit?) = {
   (unit_string: String?, typeIdentifier: String?) -> HKUnit? in
      
   if unit_string == "beats" {
     return HKUnit(fromString: "count/min")
   }
      
   return nil
}

    //Tell CDAKit to use your custom unit finder
    CDAKHealthKitBridge.sharedInstance.cdaStringUnitFinder = cdaStringUnitFinder

Searching for HealthKit Samples Imported from CDA

HKQuantitySample created by CDAKit's record import process will include a few custom metadata keys. These are intended to help you identify and manage CDA-based samples (merging, deletion, etc.).

public enum CDAKHKMetadataKeys: String {
  case CDAKMetadataRecordIDRoot
  case CDAKMetadataEntryHash
}
  • CDAKMetadataRecordIDRoot: the root (if found) from the source CDA XML file
  • CDAKMetadataEntryHash: the hash value from the CDA entry

You can also supply your own Swift [String:AnyObject] dictionary to add additional custom metadata.

License

This work is Apache 2 licensed.

About

CDAKit for iOS, the Open Source Clinical Document Architecture Library with HealthKit Connectivity. Helping you quickly manage CDA-structured health data.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages