NPCR Timeline

What to know

Highlights from the 30-year history of the National Program of Cancer Registries.

Timeline

  • 1990

    Before ÐÇ¿ÕÓéÀÖ¹ÙÍø’s National Program of Cancer Registries (NPCR) was established, 10 states had no registry, and most states with registries lacked the resources and legislative support they needed to gather complete data. A centralized national program to collect cancer data is needed.

  • NPCR Cancer Surveillance map in 1992. All states except Alaska, Oregon, North Dakota, South Dakota, Oklahoma, Arkansas, Mississippi, Alabama, South Carolina, and Maryland have cancer registries.
    1992

    The is passed to establish ÐÇ¿ÕÓéÀÖ¹ÙÍø support for statewide registries to collect basic data on cancer, such as incidence, stage, and treatment. This act created NPCR.

  • NPCR Cancer Surveillance map in 1994. 26 states have received funding through NPCR: Washington, California, Nevada, Idaho, Montana, Arizona, Colorado, Nebraska, Kansas, Texas, Louisiana, Minnesota, Wisconsin, Illinois, Indiana, Michigan, Kentucky, Georgia, Florida, North Carolina, West Virginia, Pennsylvania, New Jersey, Maine, New Hampshire, and Rhode Island.
    1994
    • By the end of 1994, 26 states have received funding through NPCR.
    • To facilitate data transmission and improve data quality, NPCR develops EDITS, software tools that standardize methods for identifying errors and inconsistencies in cancer registry data.
  • Registry Plus Abstract Plus
    1996

    Abstract Plus is released. This software summarizes medical records into an electronic report of cancer diagnosis and treatment.

  • 1999
    • NPCR works with the North American Association of Central Cancer Registries (NAACCR), central cancer registries, and a national laboratory to develop a national standard for reporting cancer pathology data to central cancer registries.
    • Prep Plus is released. This program incorporates NAACCR-formatted abstracts into a central cancer registry’s database.
  • Registry Plus CRS Plus
    2000
    • Central Registry System (CRS) Plus is released. It links, consolidates, and maintains source records in a central cancer registry’s database. Together with Prep Plus, CRS Plus allows registries to create records to submit to ÐÇ¿ÕÓéÀÖ¹ÙÍø each year. No information submitted to ÐÇ¿ÕÓéÀÖ¹ÙÍø identifies individual patients. The software is provided free of charge to NPCR registries.
    • The NPCR-Cancer Surveillance System (NPCR-CSS) is established to receive, evaluate, and disseminate data from central cancer registries.
  • 2001
    • In January 2001, NPCR registries begin reporting their cancer incidence data to ÐÇ¿ÕÓéÀÖ¹ÙÍø every year.
    • Seven NPCR registries complete activities for the  and participate in the international  Three NPCR registries receive funding to conduct the
    • All 50 states, the District of Columbia, US Virgin Islands, and Puerto Rico have a central cancer registry.
  • 2002
    • In the fall of 2002, NPCR, the National Cancer Institute’s Surveillance, Epidemiology, and End Results (SEER) Program, and NAACCR jointly produce the first official federal cancer incidence statistics. The resulting report, U.S. Cancer Statistics: 1999 Incidence, provides state-specific and regional data for cancer cases diagnosed in 1999. Cancer statistics from 37 states, 6 metropolitan areas, and the District of Columbia are included. These areas contain about 78% of the United States population.
    • Congress authorizes the  It requires cancer registries to collect data about non-cancerous brain tumors.
  • U.S. Department of Health and Human Services: Indian Health Services
    2003

    The Indian Health Service (IHS) and ÐÇ¿ÕÓéÀÖ¹ÙÍø start a data linkage project to help registries describe the rates of cancer among American Indian and Alaska Native people more accurately. Data from 25 NPCR registries are linked with data from IHS patient administrative records to improve the classification of American Indian and Alaska Native race in the registries.

  • 2004

    NPCR starts the Modeling Electronic Reporting Project (MERP) in collaboration with the Virginia Commonwealth University Health System, the Virginia Cancer Registry, and the National Cancer Institute’s SEER Program. MERP finds the best ways to use the electronic medical record for cancer surveillance reporting.

  • 2005
    • NPCR establishes the Advancing E-cancer Reporting and Registry Operations (AERRO) project. The Electronic Pathology (ePath) project is part of AERRO. The ePath project helps registries implement electronic reporting of pathology reports and cancer biomarkers using NAACCR guidelines.
    • Electronic Mapping, Reporting, and Coding (eMaRC) Plus is developed to receive and process Health Level Seven (HL7) files from pathology laboratories.
  • 2006

    NPCR and ÐÇ¿ÕÓéÀÖ¹ÙÍø’s National Center for Health Statistics agree to add data from the National Death Index to United States Cancer Statistics. This allows USCS to include data about survival.

  • 2007

    The Pacific Island Jurisdiction has a central cancer registry.

  • ÐÇ¿ÕÓéÀÖ¹ÙÍø's Pediatric and Young Adult Early Case Capture: What does it do? Provides data faster to encourage support for pediatric cancer research, and serves as a model for rapid cancer case reporting.
    2008

    Congress authorizes the It establishes a national childhood cancer registry and provides support for electronic early case capture of childhood cancer cases.

  • 2009

    The American Recovery and Reinvestment Act is passed, increasing support for meaningful use of electronic health records. NPCR is instrumental in establishing electronic reporting to cancer registries as a public health objective.

  • NPCR Success Stories
    2010

    NPCR begins collecting success stories from funded registries to describe their progress and value.

  • Five steps in NLP Workbench project: environmental scan; stakeholder engagement, requirements gathering, and technical design; prototype development; pilot testing; and release.
    2016

    NPCR and the Food and Drug Administration begin working on a natural language processing (NLP) workbench. It provides access to NLP and machine learning tools needed to develop and share language models that map unstructured clinical text to standardized coded data.

  • 2017
    • The is released. It displays the official federal statistics on cancer incidence and deaths.
    • The first United States Cancer Statistics Public Use Database is released for cases diagnosed between 2001 and 2014.
  • Childhood Cancer Survivorship, Treatment, Access and Research (STAR) Act
    2018
    • Congress passes the Childhood Cancer Survivorship, Treatment, Access and Research (STAR) Act. It reauthorizes the Carolyn Pryce Walker Conquer Childhood Cancer Act and allows ÐÇ¿ÕÓéÀÖ¹ÙÍø to expand ways that laboratories can rapidly report cases of cancer among children, adolescents, and young adults into NPCR registries.
    • NPCR launches the National Oncology rapid Ascertainment Hub (NOAH). NOAH supports analysis of laboratory reports and processes all data.
  • Data Modernization Initiative
    2021

    NPCR starts work on a data modernization initiative to develop a cloud-based computing platform specifically for cancer data. Laboratories and health care providers successfully sent, and some central cancer registries received, data using the new platform.

  • National Program of Cancer Registries: 30 Years: 1992 to 2022
    2022

    NPCR celebrates 30 years of helping central cancer registries collect high-quality data to measure progress, drive action, prevent cancers, and improve treatment for all people.

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Content Source:
National Center for Chronic Disease Prevention and Health Promotion; Division of Cancer Prevention and Control