Autoverification in Clinical Chemistry
Transcription
Autoverification in Clinical Chemistry
12/13/2011 2 Autoverification in Clinical Chemistry: From Theory to Practice Disclosure I have NO financial interests in any of the commercial products discussed in this presentation. By: Raffick Bowen, MLT (CSMLS), PhD, DClChem, FCACB, DABCC, MHA (c) Assistant Professor of Pathology Associate Director of Chemistry and Immunology Laboratory Stanford University December 13, 2011 Webinar- Lab Administration 3 SUMC Chemistry Lab Information Stanford University Hospital (SHC) ~ 456 active beds Lucile Packard Children’s Hospital (LPCH) ~ 218 beds 4 3 SHC Chemistry Volumes • Tests per year at SHC Chemistry: 5 -6 million 30% LPCH specimens 70% SHC specimens 1500 – 2500 tubes per day Total of 5-6 million chemistry tests per year Clinical Chemistry Section: • Tubes: 1500 – 2500 tubes per day AM Shift: 7 CLSs and 4 LTs PM Shift: 4 CLSs and 2 LTs MN Shift: 3-4 CLSs and 2-3 LTs • Urines: 40-50 per day • Misc fluids (e.g. CSF, pleural, peritoneal) 10-20/day Major instruments: 4 Siemens RxLs 3 ABL Blood Gas analyzers 3 Osmometers 1 Immulite 1000 2IMx 2 TDx/FLx Hillview Special Chemistry lab ~ 5 miles away from Stanford Hospital • 40 – 60% STAT specimens – At peak times (5am – 9am and 3pm to 5pm) it is much higher • 65 – 80% AV • Over 180 tests at SHC chemistry 1 12/13/2011 5 SHC Main Chemistry Panels Panel ~ 15,000 per month Met C ~ 15,000 per month Chem 23 ~ 1000 – 1500 per month Blood gases & co-oximetry Other Notable SHC Chemistry Tests Panel # Per Month Met B 6 ~ 4000 ABGs per month ~ 1700 VBGs per month ~ 200 – 300 cord BGs per month # Per Month Sweat chloride 35 – 40 per month Osmolality 440 per month Cortisol 40 per month IOPTH 2 – 5 patients per month iCa ~ 4000 per month TnI ~ 2300 per month Lactates ~ 1600 per month 7 Patient Safety From the Institute of Medicine (IOM) : “To Err is Human” and “Crossing the Quality Chasm” report in 1999, it estimated that of 33.6 million admission to US hospitals in 1997 ~44,000 to 98,000 admission die as result of medical errors Cost: 37.6 to 50 billion for adverse events and 17 to 29 billion for preventable adverse events A 2005 JAMA article suggests that 5 years after the IOM report there have NOT been substantial improvements in patient safety. The IOM report has no explicit information on lab errors ~60-80% of clinical decision is based on laboratory data Bonini et al (1992): - most lab errors occur in pre-analytical phase (32-75%) - CPOE - analytical phase (13-32%)- better instruments 8 What is Autoverification? College of American Pathologists (CAP): “Autoverification is the process by which patient results are generated from interfaced instruments and sent to the LIS, where they are compared against laboratory-defined acceptance parameters. If the results fall within these defined parameters, the results are automatically released to patient reporting formats without any additional laboratory staff intervention. Any data that fall outside the defined parameters is reviewed by laboratory staff prior to reporting.” - post-analytical phase (9-31%) –interfaced instruments NPSG 2c-Timely reporting of critical values and critical results (Kohn et al 1999;Leape and Berwick, 2005) http://www.cap.org/apps/docs/laboratory_accreditation/checklists/laboratory_general_sep07.pdf 2 12/13/2011 9 10 Why Autoverification? California State Legislation on Autoverification • ↑ Consistency: ▫ Autoverification removes technologist’s “subjectivity” and improves consistency of reporting (regardless of the number and skill set of the technologists in the lab) California Business and Professions Code Section 1209.5 Governor Schwarzenegger signed AB 2156 (Niello) into law, effective January 1, 2007: • ↑ Quality: Items discussed in law: ▫ Autoverification reduces errors/mistakes, and improves quality 1. Lab Director or Authorized designee to establish, validate, and document AV criteria • ↓ TAT: 2. Lab Director or Authorized designee must annually revalidate AV criteria. ▫ Autoverification reduces amount of labor required for validation of results ▫ About 60-80% of results could be automatically verified, while 20-40% require further attention. 3. Authorized designee must be licensed to work in clinical laboratory according to CA state regulations. Holy Trinity of Lab Testing 1. Increase Patient Safety 2. Decrease TAT 3. Cost-Savings 4. A licensed person must be physically present onsite and held responsible for accuracy and reliability of results www.dhs.ca.gov/ps.ls.lfsb 11 How to go about implementing Autoverification? SUMC Autoverification Team Members: ~ 11-15 people: • • • • • • • • • LIS personnel IT personnel Supervisors Operation Manager Reference Technologist Chemistry Medical Director (Dr. Faix) Chemistry Associate Director (Dr. Bowen) CLSs Hospital Administrators (only for approval of project) • Weekly meetings • 8-9 months from planning to implementation for each phase • 2 months post autoverification implementation for each phase • • Phase I (routine plasma chemistry tests) - Jan 2008 Phase II (DOAs, TDMs, Urine chemistry tests) - Jan 2009 12 What Guideline is Available for Autoverification? CLSI AUTO 10-A; Volume 26 Number 4 Autoverification of Clinical Laboratory Test Results Guideline o Provides general framework that will allow labs to design, implement, validate and customize rules for autoverification based on the needs of its own patient population o Includes supporting sections that deal with different aspects of regulatory compliance and validation of algorithms that are essential to establishing and maintaining a modern autoverification program 3 12/13/2011 13 CAP Checklists Questions GEN.43850 Autoverification Approval What to autoverify (SUMC AV Phase I)? Phase II There is a policy signed by the laboratory director approving the use of autoverification procedures. GEN. 43875 Autoverification Validation 14 Analytes autoverified at SUMC clinical chemistry laboratory Phase II There is documentation that the autoverification process was validated initially, and is tested at least annually and whenever there is a change to the system that could affect the autoverification logic. GEN.43878 Autoverification QC Samples Phase II For all test results subject to autoverification, the laboratory ensures that applicable quality control samples have been run within an appropriate time period, with acceptable results. GEN.43881 Autoverification Result Comparability Phase II Results are compared with an appropriate range of acceptable values prior to autoverification. GEN.43884 Result Flags Phase II Results are checked for flags or warnings prior to autoverification. GEN.43887 Autoverification Audit Trail Phase II The audit trail in the computer system identifies all test results that were autoverified, and the date/time of autoverification. GEN.43890 Delta Checks Phase I The autoverification process includes all delta checks that the laboratory performs prior to manual release of test r results. GEN.43893 Autoverification Suspension Phase I The laboratory has a procedure for rapid suspension of autoverification. 15 What NOT to Autoverify? • Specimens NOT autoverified in Clinical Chemistry section of the Clinical Laboratory at Stanford • Beta-hCG (plasma) • Ethanol (need osmolality result) • Tricyclic antidepressants (manual tests) 16 Where to implement AV? • Technology available to implement AV: ▫ Technology Layers: • Instrument layer - RxLs, LX-20s, Centaurs, etc • Middleware layer –Data Innovations, Dawning Technologies e.g. Easylink™ on Siemens Vista instruments Centralink™ on Bayer Advia • LIS layer – Sunquest (Misys), Meditech, Soft Lab, etc • Body fluidse.g. CSF, transudates, exudates, etc. • Combination(s) of the above At SUMC, we built the AV rules in Sunquest™ (Misys) 4 12/13/2011 17 Dynamic Download LIS Interfaced Orders Streamlab RxLs • EPIC-SHC • Cerner –LPCH Interfaced Results How to deactivate AV? • Host-Query Download HIS 18 Procedure for AV deactivation • Function: AF (AV functionality) in Sunquest system • Downtime Protocol – unscheduled – scheduled Results Upload LIS Of course, you need AV reactivation protocols Autoverification in our LIS system (Sunquest™) 19 Before AV Testing: • Instrument(s) / Method(s) must be thoroughly validated • Staff must be trained and competent with analyzer(s) • Calibrations and Quality Control must be acceptable • Adequate staff for AV testing • Awareness of pre-analytical, analytical, and postanalytical issues in your setting. • LIS, LIS, LIS !!! (knowledge of people and system) • Always expect the unexpected!! 20 2007 Training AV Timeline for RxLs at SUMC August to December 7 (Friday) – Testing the AV criteria in Misys December 10 (Monday) – Completed final documentation of AV testing in Misys December 11 (Tuesday) to December 31 (Monday) – Training of staff in AV testing in Misys (instrument flags, calculations, HIL) December 17 (Monday) at 11:00am – GO LIVE with instrument flags, calculations, HIL in Misys (NO AUTOFILING) January 8 (Tuesday) at 11:00am 2008 GO LIVE with AV in Misys for phase I 5 12/13/2011 21 22 Quality Control The control of the testing process to ensure that test results meet their quality requirements Control Data AV Parameters (RULES) to be developed and tested 12s QC – Westgard’s Rules: No IN – CONTROL ACCEPT RUN Yes 13s Yes No No 22s Yes No R4s Yes OUT-OF-CONTROL No 4is No 10- x Yes Yes REJECT RUN At SUMC, we do NOT have any quality control rule failures built into our AV parameters (rules)! QC review is done manually because: 23 1. To identify any QC specimens that were not performed against a QC checklist 2. To monitor trends and shifts on LJ charts 24 Reference Intervals • Based on patient’s age, gender, etc Reference interval at SUMC: e.g. Sodium: 135-145 mmol/L • What would you do with a sodium of 127 mmol/L ? At SUMC panic sodium values are < 125 and > 160 mmol/L 6 12/13/2011 25 26 Most panic results are called by our Customer Service personnel 27 Delta Check: The difference between a patient's present laboratory result and the previous result which exceeds a predefined limit is referred to as a delta check • • Types of Delta Checks - absolute (e.g. ± 4 mmol/L for sodium) - % change (e.g. ± 10%) - rate change (e.g. ± 10% over 7 days) Delta checks are investigated by the lab internally to rule out: 1) Mislabeling 2) Clerical error 3) Possible analytical error- QNS ▫ Delta Checks: How to determine? • • • • • Technologist Experience Data Review Clinician Input Literature Reference Change Values 28 Calculation of RCV (Significant Change): • Calculation of RCV (Significant Change): 1. Analytical Variation (Imprecision) 2. Biologic Variation Experimental data RCV = Z x 21/2 x (CVA2 + CVI2)1/2 • Z –Probability or Degree of Significance Z= 2.58 at 99% Probability (Highly Significant) Z = 1.96 at 95% Probability (Significant) • CVA –Analytical Variation • CVI –Biological Variation (within-subject) Fraser CG, Biologic Variation: From Principles to Practice, AACC Press, 2001 Ricos C, et al., Current databases on biologic variation: pros, cons, and progress. Scand J Clin Lab Invest 1999;59:491500. www.westgard.com/guest17.htm 7 12/13/2011 29 30 Instrument Flags: Instrument physical status flags • Examples of RxL Instrument Flags and Errors Criteria Flag Description Cup or Test Level Failures AL Above linearity Test Level BM Breaker/mixer slipped Cup Level DE Decode Cup Level MP Missing pack Cup Level PL Pump lost steps Cup Level TE Temperature Cup Level AB Absorbance Test Level BL Below linearity Test Level 31 32 Example of Calculation Flags: Misys/SQ Code (RXL Code) Calculation Auto Verification Impact AGAP (CALC) Na – (Cl +CO2) Results <2 or > 30 will FAIL auto verification for the CUP LDL (CALC) Total Cholesterol – (HDL TRIG/5) Results for TG >400 mg/dL will FAIL auto verification for the CUP ALB (CALC) Albumin > Total Protein FAIL auto verification for the CUP CK-MB (CALC) CK-MB > Total CK FAIL auto verification for the CUP IBIL (CALC) IBIL, DBIL > TBIL FAIL auto verification for the CUP 8 12/13/2011 33 “HIL” Indices Flags: HIL Comments Examples of Hemolysis, Icterus, and Lipemia messages Hemolysis (HIL) Related Comments Serum Indices 4 (any H value ≥ 4) (405 nm) Range of HIL Test codes with Results Appended Comments HIL value >410 K , MG 4 (any I value ≥ 4) Range of HIL Test codes with Results Appended Comments 141-146 CHOL, CK, GL, TP 5 (any H value ≥ 5) HEMIN HEMOLYSIS ICTERUS LIPEMIA Code to append ICTDE HEMDE: Hemolysis ICTDE: Icteric specimen TURDE: Turbidity present -may tend to decrease result result -may tend to decrease result -may tend to decrease (700 nm) Lipemia (HIL) Related Comments Serum Indices (0-1, Slight; 2-4, Moderate; 5-6, Gross) Code to append (452 nm) Icterus (HIL) Related Comments Serum Indices 34 Range of HIL Test codes with Results Appended Comments 115-116 GL, PHOS Code to append HEMIN: Hemolysis present ICTIN: Icteric specimen TURIN: Turbidity present TURIN -may tend to increase result result -may tend to increase result -may tend to increase LIS automatically appends the appropriate comment(s) with results 35 Electronic Simulated Data Validation: 36 Clinical Specimens: 9 12/13/2011 37 38 Failed AV (K < 3.0 mmol/L) Criteria for Autoverifying Specimen Check to see if calibrators / QC has been run and within acceptable limits Check to ensure that there are no instrument errors / flags Results are within instrument / AV range -the results should be held for manual review when the results are outside the range Passed AV Not a critical value -those results that need immediate attention Passed delta check criteria -absolute, percent change, rate change No calculation errors (e.g. anion gap) (We have TEN 3 inch binders FULL of AV validation documentation) 39 40 ED Basic Metabolic Panel (Met B) Receipt to Verify Bench to Verify Receipt to Bench Target Receipt to Verify MINUTES, 90th Percentile 60 Streamlab installation project 50 50 45 Target 41 41 41 40 35 34 33 33 33 30 32 30 26 20 10 24 34 34 32 32 32 31 25 25 24 23 26 32 29 29 23 23 24 34 30 29 29 28 25 25 25 24 25 20 29 31 29 28 31 31 32 32 26 26 26 25 27 26 23 22 23 23 23 33 34 35 29 27 28 37 38 36 36 33 26 30 30 31 29 29 24 18 12 12 12 10 10 11 12 10 9 9 10 11 9 7 8 7 7 8 12 8 8 8 8 9 7 6 7 7 7 7 8 10 8 11 10 10 8 0 10 12/13/2011 41 90th percentile ED TAT (CAP Q-Probe Studies) 42 October 2011 • Met B • Met C • Chem. 23 surrogates Total Specimens Total Autofiled Percent Autofiled K 22409 19035 85% Met B 10190 8711 85% Met C 9572 8075 84% TnI 1077 724 67% Total Specimens Total Autofiled Percent Autofiled K 6374 5371 84% Met B 1585 1284 81% Met C 3795 3219 85% TnI 386 293 76% Total Specimens Total Autofiled Percent Autofiled K 28783 24406 85% Met B 11775 9995 85% Met C 13367 11294 85% TnI 1463 1017 70% Routine specimens from SHC and LPCH STAT specimens from SHC and LPCH October 2011 • CBC surrogate Total Autofiled (Routine and STAT specimens) October 2011 43 Improve quality of laboratory results HIL: - Comments appear with patient results Delta checks: - helps identify mislabeled specimens (e.g. sodium +/- 8 mmol/L) AV range: - set a AV range to help identify clotted specimens or QNS e.g. ALP: 5 - 3500 U/L, if < 5 U/L, check specimen Added comments to CLS: “Check Printout” for calculation errors or “Repeat Lytes” for low anion gaps (< 2) Standardize reporting of results like anion gaps (<2 instead of actual number like -15) 44 Some Benefits of Implementing AV in the Chemistry Section of the Clinical Laboratories at Stanford o Less phone calls (from 25-30 to <5 per shift); less complaints o Pending log has been reduced from 15-20 pages to 3-6 pages per shift (20-30 specimens per page) o Increase staff morale and less fatigue and stress; less sick calls o Decrease TAT of chemistry results; meeting our TAT goals! o More organized workflow – Standardize SOPs o More consistent reporting of results-decrease errors and improve quality o Dynamic screen has less specimens to track o Less overtime ~ 30 mins/day (7 hours per pay period) Instrument Flags: – on screen, no need to look at instrument printout o Identification lab staff who needed some re-education on SOP, policies, etc 11 12/13/2011 45 $$$ COST SAVINGS 46 Monitoring AV -Chart review (quarterly): - results (RxL to LIS to HIS) - check AV rules - calculations - HIL comments $$$ 1 FTE saved : 2 Chemistry Verifiers Down to 1 RxL The 1 FTE moved to Sweat Chloride bench and cortisol and IO-PTH bench We now offer sweat testing everyday - this was NOT a budgeted position. LIS HIS January: CrCl, AGAP, Globulin, IBIL, BUN/CR, LIPID April: Urine ratios and excretion July : TRFSN, eGFR, Delta checks, HIL October: CK-MB relative index, Osmolal gap, Instrument errors 47 48 Some References: 1. Duca DJ. Autoverification in a laboratory information system. Lab Medicine 2002;33:21-5. 2. Pearlman ES, Bilello L, Stauffer J, Kamarinos A, Miele R, Wolfert MS. Implications of autoverification for the clinical laboratory. Clin Leadersh Manag Rev 2002;16:237-239 3. Crolla LJ, Westgard JO. Evaluation of rule-based autoverification protocols. Clin Leadersh Manag Rev. 2003;17:268-72. 4. Clinical and Laboratory Standards Institute (CLSI). Autoverification of Clinical Laboratory Test Results, Approved Guidelines (AUTO 10-A) Wayne, PA: Clinical and Laboratory Standards Institute, 2006; Vol 26, No 32. 5. College of American Pathologists Commission on Laboratory Accreditation, Laboratory General Checklist, 2009. 6. Torke, N. Process Improvement and Operational Efficiency through Test Result Autoverification. Clin Chem 2005; 51: 2406-2408. 7. Biological Variation: From Principles to Practice. Callum G. Fraser. Washington, DC: AACC Press, 2001. Any Questions? Email: [email protected] 8. Fraser CG, Stevenson HP, Kennedy IMG. Biological variation data are necessary prerequisites for objective autoverification of clinical laboratory data. Accred Qual Assur 2002;7: 455-460 12