Healthcare Data Standards

         Standards are critical components in the development and implementation of an electronic health record (EHR). The effectiveness of healthcare delivery is dependent on the ability of the clinicians to access critical health information when and where it is needed. The ability to exchange health information across organizational and system boundaries, whether between multiple departments within a single institution or among a varied cast of providers, payers, regulators and others is essential. A common set of rules and definitions both at the level of data meaning as well as the technical level of data exchange is needed to make this possible. In addition, there must be a sociopolitical structure in place that recognizes the benefits of shared information and supports the adoption and implementation of such standards.

        Need for Healthcare Data Standards

Data standards as applied to healthcare include the “methods, protocols, terminologies, and specifications for the collection exchange, storage, and retrieval of information associated with healthcare applications including medical records, medications, radiological images, payment and reimbursement, medical devices and monitoring systems, and administrative processes” (Washington Publishing Company 1998). In the domain of information management, standards can be further categorized as those that support the generic infrastructure and are not domain-specific, those that support the exchange of information and are domain-specific, and those that support activities and practices within a specific domain. Examples of the first type of standard would include equipment specifications such as processor type or network transmission protocols such as Ethernet or token ring.

The second type of standard typically involves the specification data structures and content and would include such standards as message formats and core data sets.



 The third type of standard addresses the interpretation of that data as information, including how it should be acted on within a particular context. An example of this type of standard would be professional practice guidelines. 

        Healthcare is fundamentally a process of communication. For much history, verbal communication between a patient and a healthcare provider characterized this process. The temporal and physical proximity of the communicators provided ample opportunity to clarify any ambiguity regarding the intended meaning of what was being communicated. It is this tremendous increase in the need for health information exchange that has driven the push for use of electronic information and management systems in the healthcare domain. Data standards are an attempt to reduce the level of ambiguity in the communication of data so that actions taken based on the data are consistent with the actual meaning of the data. Data are collections of unstructured, discrete entities (facts) that exist outside of any particular context. When data are interpreted within a given context and given meaningful structure within that context, they become information. When information from various contexts is aggregated following a defined set of rules, it becomes knowledge and provides the basis for informed action (Saba and McCormick, 2000). Analysis generates knowledge, which is the foundation of professional practice standards.

Healthcare Data Interchange Standards

Data interchange standards address, primarily, the format of messages that are exchanged between computer systems, document architecture, clinical templates, user interface, and patient data linkage (Committee on Data Standards for Patient Safety, 2004). To achieve data compatibility between systems, it is necessary to have prior agreement on the syntax of the messages to be exchanged. The receiving system must be able to parse the incoming message into discrete data elements that reflect what the sending system wishes to communicate. In addition to a common message format, it is necessary that the individual data elements be structured in a common way as well. Although there is a great deal of interest in the development of natural language processing capabilities, most health data exchange still involves coded, or structured, information.

                                       Message Format Standards

Four broad classes of message format standards have emerged in the healthcare sector: medical device communications, digital imaging communications, administrative data exchange, and clinical data exchange (Saba and McCormick, 2000). The National Committee on Vital and Health Statistics (NCVHS) is the advisory committee established to make recommendations on health information policy to the Department of Health and Human Services (HHS) and Congress. As part of its responsibilities under the Health Insurance Portability and Accountability Act of 1996 (HIPAA), NCVHS was called on to “study the issues related to the adoption of uniform data standards for patient medical record information (PMRI) and the electronic exchange of such information.” This public-private partnership has recommended that several message format standards be adopted for federal healthcare services programs including Health Level Seven (HL7) (v2.2 and later), Digital Imaging Communication in Medicine Standards Committee (DICOM), National Council for Prescription  Drug Programs (NCPDP) SCRIPT and Institute of Electrical and Electronic Engineers (IEEE) 1073.

Institute of Electrical and Electronic Engineers

The IEEE has developed a series of standards known collectively as P1073 Medical Information Bus (MIB), which support real-time, continuous, and comprehensive capture and communication of the data from bedside medical devices such as those found in intensive care units, operating rooms, and emergency departments. Current activities include efforts to develop standards that support wireless technology. The IEEE 802.xx suite of wireless networking standards, 802.11, 802.15, and 802.16, has stirred up developments in an otherwise sluggish communications market. The most widely known standard, 802,11, commonly referred to as Wi-Fi, allows anyone with a computer and either a plug-in card or built-in circuitry to connect to the internet wirelessly through a myriad access points installed in offices, hotels, airports, coffeehouses, convention centers, and even parks, among other locations.




           National Electrical Manufacturers Association

The National Electrical Manufacturers Association (NEMA), in collaboration with the American College of Radiologists (ACR) and others, formed the DICOM to develop a generic digital format and a transfer protocol for biochemical images and images-related information. The DICOM standard is the dominant international data interchange message format in biochemical imaging. The Joint NEMA/The European Coordination Committee of Radiological and Electromedical Industry/ Japan Industries Association of radiological Systems (COCIR/JIRA) Security and Privacy Committee (SPC) has recently issued a white paper which provides a guide for vendors and users on how to protect medical information systems against viruses, Trojan horses, denial of service attacks, Internet worms and related forms of so-called “malicious software.”

Accredited Standards Committee X12N/Insurance

Accredited Standards committee (ASC) X12N has developed broad range electronic data interchange (EDI) standards to facilitate electronic business transactions. In healthcare arena, X12N standards have been adopted as national standards for such administrative transactions as claims, enrollment, and eligibility in health plans and first report of I injury under the requirements of the HIPAA. HIPAA directed the secretary of the department of HHS to adopt standards for transactions to enable health information to be exchange electronically, and the Administrative Simplification Act (ASA), one of the HIPAA provisions, requires standard formats to be used for electronically submitted healthcare transactions.

National Council for Prescription Drug Programs

The NCPDP develops standards for information processing for the pharmacy services sector of the healthcare industry. NCPDP's Telecommunication Standard Version 5.1 was named the official standard of pharmacy claims within HIPAA. Electronic prescription transactions are defined as EDI messages flowing between healthcare providers (i.e., pharmacy software systems and prescriber software systems)that are concerned with prescription orders. The major areas covered by the standard include medical orders; clinical observations; test results; admission, transfer,  and discharge; document architecture, clinical templates, user interface, EHR, and charge and billing information. The HL7 Board of Directors recently approved the electronic record system (EHR-S) functional model to move forward as a draft standard for trial use. This draft standard consists of four distinct sections including an EHR-S functional overview, direct care, supportive, and information infrastructure. 

Terminologies

A fundamental requirement for effective communication is the ability to represent concepts in an unambiguous fashion between both the sender and receiver of the message. While there have been great advances in the ability of computers to process natural language, most communication between health information systems relies on the use of structured vocabularies, code sets, and classification systems to represent healthcare concepts. Standardized terminologies enable data collection at the point of care, and retrieval of data, information, and knowledge in support of clinical practice.

International Statistical Classification of Diseases and Related Health Care Problems: Ninth Revision and Clinical Modifications



It is also referred as ICD-9-CM, it is the latest version of a mortality and morbidity classification that originated in 1893. It is widely accepted and used in the healthcare industry and has been adopted for a number of purposes including data collection quality-of-care analysis, resource utilization, and statistical reporting. It is the basis for diagnostic related groups (DGRs), which are used extensively for hospital reimbursement. Effective October 1, 2004 medicare will no longer accept outpatient claims with ICD-9 procedure codes.

    LOINC

Logical observation identifiers names and codes (Regenstrief Institute, 1994) provides a set of universal names and numeric identifier codes for laboratory and clinical observations and measurements in the database structure. It is clear that such consistency in terminology is important for patient safety. LOINC is used to standardized the electronic exchange of laboratory test orders and drug label section headers.

     RxNorm

RxNorm is a clinical drug nomenclature produced by NLM, in consultation with the Food and Drug Administration (FDA), the department of Veterans Affairs (VA), and HL7 SDO.  RxNorm provides standard names for clinical drugs (active ingredient + strength + dose form) and for dose forms as administered. It provides links for from clinical drugs to their active ingredients, drug components (active ingredient + strength), and some related brand names. To the extent available from the FDA, Nods (National Drug Codes) for specific drug products that deliver the clinical drug are stored as attributes of the clinical drug in RxNorm.

Unified Medical Language

There are specialized vocabularies, code sets, and classification systems for almost every practice domain in healthcare. Currently, the UMLS consist of metathesaurus of terms and concepts from dozens of vocabularies; a semantic network of relationships among the concepts recognized in the metathesaurus;
and an information sources map of the various biomedical databases references.














Data Content Standards

The concept of a minimum data set is that of “a minimum set of items with uniform definitions and categories specific aspect or dimension of the healthcare system which meets the essential needs of the multiple users” (Health Information Policy Council, 1983). Core data elements are seen as serving as the building blocks for well-formed minimum data sets and may appear in several minimum data sets. As with code sets, professional specialty groups are the best source for current information on minimum data set development efforts.

National Uniform Claim Committee Recommended Data Set for a Non-institutional Claim

The NUCC was organized in 1995 to develop promote, and maintain a standard data set for use in non-institutional claims and encounter information. The committee was chaired by the American Medical Association, and its member organizations represent a number of the major public and private sector payers.

Standard Guide for Content and Structure of the Computer-Based Patient Record (ASTM E1384-96)

The American Society for Testing and Materials (ASTM) is one of the largest SDOs in the world and publishes over 9,000 standards covering all sectors in the economy. E1384-96 provides a framework vocabulary for the computer-based patient record (CPR) content. A new work item being  proposed by the E31 subcommittee is the continuity of care record (CCR). The CCR is a core data set of the most relevant and timely fact6s about patient’s healthcare.

The Standard Development Process

        The development  and adoption of data standards is not only a technical process; it takes place within a sociopolitical context. In healthcare, there is an increasing recognition that there exist significant opportunities to improve the quality of care provided and the outcomes associated with that care. It has also been recognized that any potential improvement in quality of care depends realty on the ability to communicate healthcare information consistently, efficiently, and effectively.

        At the core of such systems is the concept of secure, patient-centered HER that (1) safeguards personal privacy, (2) uses standardized medical terminology that can be correctly read by any care provider and incorporated into computerized tools to support clinical decision masking, (3) eliminates the danger of illegible handwriting and missing patient information and (4) can be transferred as a patient’s care requires over a secure communications infrastructure for electronic information exchange. There are primarily three ways in which standards are commonly developed and adopted: proprietary standards developed by vendors who hold a dominant position in the market, legislated standards developed by government organizations, and census-based standards developed by SDOs and adopted by virtue of their utility.

       Although proprietary standards can respond quickly to technologic changes, they can, paradoxically, also result in a delay in the adoption of new technologies as the creator of the standard wishes too ain a maximum return on the investment required to develop the standard in its current form. Because government0-developed standards are in the public domain, they are available at little or no cost and can be incorporated into any information system; however, they are often developed to support particular in initiatives and not be as suitable for general, private sector use. The most problematic aspect of consensus-based standards is that there is no mechanism to ensure that they are adopted by the industry, since there is usually little infrastructure in place to actively and aggressively market them.

International Organization of Standardization (ISO)

It is an organization that develops and publishes standards internationally. ISO standards are developed, in large part, from standards brought forth by member countries, and through liaison activities with other SDOs.  ISO Technical committee (TC) 215 on Health Informatics recently published the first international standard for nursing titled Integration of a Reference Terminology Model for Nursing.

European Technical Committee for Standardization

In 1990, TC 251 on medical informatics was established by the European Committee for Standardization (CEN). This works to develop a wide variety of standards in the area of healthcare data management and interchange.

American National Standards Institute

ANSI serves as the coordinator for voluntary standards activity in the United States. Standrds are submitted to ANSI by member SDOs and are approved as American National Standardsnthrough a consensus methodology developed by ANSI.

Object Management Group (OMG)

It is a representative of a different approach to standards development. It is an international consortium of over 800 organizations, primarily for-profit vendors of information system technology, who are interested in the development of standards based on object-oriented technologies.

Health Insurance Portability and Accountability Act (HIPAA)

Administrative over-head includes such tasks as enrolling an individual in a health plan, paying health insurance premiums, checking insurance eligibility, getting authorization to refer a patient to a specialist, filing a claim for insurance reimbursement for delivered healthcare, requesting additional information to support a claim, coordinating the processing of a claim across different insurance companies, and notifying the provider about the payment of a claim.

National Committee on Vital and Health Statistics Subcommittee on Standards and Security

The administrative simplification provisions also begin the process of addressing the broader standards issues of electronic healthcare records in general.  NCVHS formed the CPR Workgroup. This work group develops recommendations based on public hearings and input from informed stakeholders and domain experts. The workgroup has identified six major areas of interest (NCVHS, 1996):

1.       Message format standards that contain PMRI.

2.       Medical terminology related top PMRI including data element definitions data models, and code sets.

3.       Business case issues related to the development and implementation of information data standards for PMRI.

4.       National Healthcare Information Infrastructure (NHII).

5.       Data quality, accountability, and integrity related to PMRI.

6.       Inconsistencies and contraindications among state laws that discourage or prevent the creation, storage, or communication of PMRI in a consistent manner nationwide.

Consolidated Health Informatics

The goal of this ambitious project is to develop and implement a standard means of exchanging and managing health information across federal health providers. It is focusing on creating interoperability between health information systems in terms of how data are defined,  structured, and exchanged.

The Business Value of Data Standards

Clearly the importance of data standards to enhancing the quality and efficiency of healthcare delivery is being recognized by our national leadership. Reviewing the business value of the defining and using data standards is critical for driving the implementation of these standards into applications and systems. Defining information exchange and requirements will enhance the ability to automate interaction with external partners which in turn will decrease costs. Considering the value proposition for incorporating data standards into products, applications, and systems should be a part of every organization’s information technology strategy. 

Electronic Health Record Systems: U.S. Federal Initiatives and Public/Private Partnerships

Introduction
In April 2004, the president of the United States issued an executive order that called for action to put EHRs in place for the most Americans in 10 years. Today, there is growing consensus that EHR-Ss, can meet clinical and business needs in healthcare by capturing, storing, and displaying clinical information when and where it is needed to improve treatment and to provide aggregated cross patient data analysis.These systems can manage healthcare data information in a way that is patient-centered and information-rich. Improved information access and availability can enable both the provider and the patient to better manage the patients health by using capabilities provided by enhanced clinical decision support and customized education materials. 

Defining Electronic Health Record Systems

The IOM’s 1991 definition of computer-based patient record system is currently the basis for domestic and international definitions of an HER-S:

• The set of components that form the mechanism by which patient records are created, used, stored, and retrieved.
• It includes people, data, rules, and procedures, processing and storage devices.

Recently, the IOM modified this definition in its report, Key Capabilities of an Electronic Health Record System (2003), reiterating the new definition in a report on patient safety. An EHR-S includes the following:

• Longitudinal collection of electronic health information for about persons, where health care is provided to an individual.
•  Immediate electronic access to person- and population-level information by authorized, and only authorized users.
• Provision of knowledge and decision support that enhances the quality, safety, and efficiency of patient care
• Support of efficient processes for healthcare delivery.

Federal Initiatives  

Within the federal government, different departments exert different influences toward the common goal of an EHR for most Americans. Agencies providing direct healthcare offer evidence that the use of EHR-Ss across a multifacility enterprise is a realistic goal with measurable, repeatable positive outcomes.

Department of Veterans Affairs

The Veterans Health Information Systems and Technology Architecture (VistA) supports day-to-day clinical and administrative operations at local
VA healthcare facilities. This new interface named the computerized patient record system (CPRS) provided a single place for healthcare providers to review and update a patient’s health record and order medications, special procedures, x-rays, nursing orders, diets, and laboratory tests.

Department of Defense

Providers have had a computerized physician order entry capability that enables them to order lab tests and radiology examinations and issue prescriptions electronically for over 10 years. DoD’s Pharmacy Data Transaction Service links military treatment facilities, mail order, and network pharmacies. This service enables providers at all military and civilian pharmacies to track daily medications transactions and to check for drug allergies and drug interactions.

Indian Health Service

The IHS has long been a pioneer in using computer technology to capture clinical and public health data. Its Resource and Patient Management System (RPMS) was developed in the1970s, and many facilities have access to decades of personal health information and epidemiologic data on local populations.Its primary clinical component, the patient care component (PCC), has been in place since the early 1980s.  

Office of the National Coordinator for Health Information Technology





The executive order of April 2004, mentioned earlier created the ONCHIT to coordinate HIT efforts in the federal sector and to collaborate with private sector in driving HIT adoption across the healthcare system. In July 2004, HHS Secretary Tommy Thompson and Dr. Brailer released a framework for strategic action intended to guide collaborative effort to promote progress toward a consumer-centric and information rich- healthcare industry.

The National Committee on Vital and Health Statistics

Held a series of national hearings to develop a consensus vision of the National Health Information Infrastructure ( NHII). In resulting report, Information for Health was presented the concept of an infrastructure that emphasizes health-oriented interactions and information-sharing among individuals and institutions, rather than simply the physical, technical, and data systems that make those interactions possible.

Agency for Healthcare Research and Quality 

Unveiled a major HIT portfolio, with grants, contracts, and other activities to demonstrate the role of HIT in improving patient safety and the quality of care. AHRQ funded demonstration grants to establish and implement interoperable health information systems and data sharing to improve the quality, safety, efficiency, and effectiveness of healthcare for patients and populations on a specific state or regional level.

Centers for Medicare and Medicaid Services

CMS has initiated several pilot projects to promote health IT. CMS awarded a $100,000 grant to the American Academy of Family Physicians (AAFP) for a pilot project to provide comprehensive, standardized EHR software to small and medium-sized ambulatory care practices.

Public-Private Partnerships

A number of collaborative efforts are focused on the use of EHR-Ss and HIT to improve care. Among these private sector organizations are those formed specifically to address issues of connectivity, HIT, and standards development. Others are established standards development organizations, some are based in professional association, where they arose in efforts to serve their memberships.

Connecting for Health

A large private collaborative with federal participants supported by the Markle and the Robert Wood Johnson Foundations, Connecting for Health is addressing the barriers to development of an interconnected health information infrastructure. It brings together several dozen of the leading healthcare provider and payer organizations, HIT vendors, and representatives of federal and state agencies.

Health Initiative

Is an independent, nonprofit affiliated organization established to foster improvement in the quality, safety, and efficiency of  healthcare through information and IT.  Its membership brings together hospitals and other providers, practicing clinicians, community organizations, payers, employers, community-based organizations, HIT suppliers, manufacturers, and academic organizations.

Institute of Medicine

As an independent advisor to the nation with the goal of improving health, the IOM has championed the advantages of use of IT to improve healthcare since 1991 foundational work. The IOM continues to illuminate the importance for the use of IT in healthcare.

Certification Commission for Health Information Technology

The Health Information and Management Systems (HIMSS), American Health Information Management Association( AHIMA), and National Alliance for Health Information Technology ( NAHIT) have joined together to establish the Certification Commission for Health Information Technology(CCHIT). The goal of this group is to reduce the risk of HER investment.

Health Level Seven

An international, non-profit, volunteer standards organization, Health Level Seven (HL7, 2004) is known for its large body of work in the production of technical specifications for the transfer of healthcare data. The HL7 HER-S functional model contains a list functions in (3) categories:

• Direct Care

The direct care functions are familiar to clinicians, contained the user interface, these functions are needed to support direct care delivery.

• Supportive Care

The supportive care functions involve secondary use of the data captured via the direct care functions, these functions support enhanced functions for direct care and advanced information handling needs for the organization.

• Information Infrastructure     

The information infrastructure section is the “backend” of the system, unfamiliar to many clinicians, this is considered essential by informaticists and technical staff.