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IH Laboratory Information Management Systems (LIMS) Improving Data Integrity in the Lab and the Field

IH Laboratory Information Management Systems (LIMS) Improving Data Integrity in the Lab and the Field. Maureen K. Hamilton, CIH Presented January 21, 2004 Yuma Pacific-Southwest Section, AIHA 29 th Annual Meeting. Acknowledgement of Information Sources.

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IH Laboratory Information Management Systems (LIMS) Improving Data Integrity in the Lab and the Field

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  1. IH Laboratory Information Management Systems (LIMS)Improving Data Integrity in the Lab and the Field Maureen K. Hamilton, CIH Presented January 21, 2004 Yuma Pacific-Southwest Section, AIHA 29th Annual Meeting

  2. Acknowledgement of Information Sources • Bob Lieckfield, Jr., CIH – Clayton Group Services, Inc. • Bob Kerns

  3. Topics to be Covered • History of Laboratory Data Management • What is a LIMS? • What can it do for the lab and its clients? • Concerns and Limitations • Client Responsibilities • Future Possibilities

  4. History of Laboratory Data Management • Prior to 1980 • Paper, pen, and slide rule calculations • Large bound books for data & sample tracking • Chart paper instrument printouts • Manually typed reports w/carbon copies

  5. History of Laboratory Data Management cont • 1980 to 1990 • Expensive hand-held calculators • Sophisticated software programs for data crunching & sample tracking that were difficult to use • First rudimentary commercial LIMS available • Large bound books still common • Basic word processing for reports

  6. History of Laboratory Data Management cont • 1990 to 1999 • Personal computers and software databases made programming and documentation easier • LIMS move from minicomputers to PCs • Different software systems spoke different languages creating communication issues • Direct instrument uploads developed • Analytical reports evolve from ground mail to overnight deliveries to facsimiles to e-mail PDFs to electronic files

  7. History of Laboratory Data Management cont • 21st Century • Laboratory data systems reach beyond simple lab sample tracking to web-based exchange of data • Field sample bar-coding & location ID via GPS possible • Data uses facilitated and expanded: • Exposure assessment data management • Industry-wide reports by job functions • Comparisons to historical data

  8. What is LIMS? • Computerized information management system designed for laboratories • Manages lab data from sample log-in to reporting • Interfaces with analytical instruments • Sorts and organizes data into various report formats • Stores data for future reference and use

  9. Current LIMS Structure • Database platforms range from Microsoft Access to Oracle to Web-based systems • Basic functionality built-in by vendor and adaptable by the individual laboratory for custom fit • Data format, management and storage media determined by regulatory and client needs

  10. Information Available from LIMS • Project, Sample, and Test documentation • Sample tracking history within laboratory • Reporting results (hardcopy, electronic file) • Financial information by test, client, dates • Information on productivity

  11. Advantages of LIMS Use • Fewer transcription errors & faster processing with direct instrument uploads • Real time control of data quality with built in QC criteria • Direct report generation meeting specific client requirements • Direct electronic reporting to clients or direct client access to data

  12. Disadvantages/Concerns • Customization of LIMS/interfaces required for specific lab/client needs • Adequate validation to ensure data quality • Data integrity and confidentiality, especially when clients have direct access to data • Limited interface between lab & field computer systems

  13. Client Responsibilities • Evaluate lab’s LIMS capabilities • System validation/maintenance • Interfacing capabilities • Regulatory compliance/accreditation status • Confidentiality/data integrity protection • Determine lab’s willingness & ability to meet current & future client needs

  14. LIMS of the Future • Provide a complete database management service • Direct downloads of field sampling data into LIMS, eliminating multiple entries of the same data • Direct uploads of laboratory data to the database, eliminating multiple entries of the same information • Standardized interfaces minimizing the need to build custom interfaces

  15. BIG BENEFITS • LIMS will store client-specific data by job function, job classification, employee, and facility • Enable identification of trends, best practices, and problem solving • If multiple companies within an industry use the same database, there will be an ability to benchmark between companies

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