Christopher P Childers1, Ira S Hofer2, Drew S Cheng2, Melinda Maggard-Gibbons3. 1. Department of Surgery, David Geffen School of Medicine at UCLA, 10833 Le Conte Ave., CHS 72-247, Los Angeles, CA, 90095, USA. cchilders@mednet.ucla.edu. 2. Department of Anesthesiology and Perioperative Medicine, David Geffen School of Medicine at UCLA, Los Angeles, CA, USA. 3. Department of Surgery, David Geffen School of Medicine at UCLA, 10833 Le Conte Ave., CHS 72-247, Los Angeles, CA, 90095, USA.
Abstract
BACKGROUND: Cost report cards have demonstrated variation in intraoperative supply costs and may allow comparisons between surgeons. However, cost data are complex and, if not properly vetted, may be inaccurate. METHODS: A retrospective assessment of intraoperative supply costs for consecutive laparoscopic cholecystectomies (2013-2017) at a 4-facility academic center was performed. Using unadjusted data (akin to an auto-generated report card), surgeons were ranked and highest to lowest-cost ratios were calculated. Then, four stepwise adjustments were performed: (1) excluded non-comparable operations and low volume (< 10 cases) surgeons, (2) eliminated outlier cases based on instrument profiles, (3) stratified by facility, and (4) adjusted prices (assigned one price; corrected aberrant/missing prices). Surgeon rank and highest to lowest-cost ratios were then re-calculated. RESULTS: The unadjusted data identified 1392 cases for 33 surgeons (range, 1-317 cases). The ratio between the highest cost and lowest cost surgeon was 4.13. Steps 1 and 2 excluded 272 cases and 15 surgeons. Facility sample sizes ranged from 144 to 621 (step 3). Adjusting prices (step 4) required manual review of 472 unique items: 45% had > 1 price and 16 had missing prices. After all adjustments, surgeons had different rankings and highest to lowest-cost ratios within sites were smaller (ratio range, 1.17-2.10). CONCLUSIONS: Evaluating surgeons based on intraoperative supply costs is sensitive to analytic methods. Surgeons who were initially considered cost outliers became the least expensive within a given site. Auto-generated cost report cards may require additional analyses to produce accurate comparative assessments.
BACKGROUND: Cost report cards have demonstrated variation in intraoperative supply costs and may allow comparisons between surgeons. However, cost data are complex and, if not properly vetted, may be inaccurate. METHODS: A retrospective assessment of intraoperative supply costs for consecutive laparoscopic cholecystectomies (2013-2017) at a 4-facility academic center was performed. Using unadjusted data (akin to an auto-generated report card), surgeons were ranked and highest to lowest-cost ratios were calculated. Then, four stepwise adjustments were performed: (1) excluded non-comparable operations and low volume (< 10 cases) surgeons, (2) eliminated outlier cases based on instrument profiles, (3) stratified by facility, and (4) adjusted prices (assigned one price; corrected aberrant/missing prices). Surgeon rank and highest to lowest-cost ratios were then re-calculated. RESULTS: The unadjusted data identified 1392 cases for 33 surgeons (range, 1-317 cases). The ratio between the highest cost and lowest cost surgeon was 4.13. Steps 1 and 2 excluded 272 cases and 15 surgeons. Facility sample sizes ranged from 144 to 621 (step 3). Adjusting prices (step 4) required manual review of 472 unique items: 45% had > 1 price and 16 had missing prices. After all adjustments, surgeons had different rankings and highest to lowest-cost ratios within sites were smaller (ratio range, 1.17-2.10). CONCLUSIONS: Evaluating surgeons based on intraoperative supply costs is sensitive to analytic methods. Surgeons who were initially considered cost outliers became the least expensive within a given site. Auto-generated cost report cards may require additional analyses to produce accurate comparative assessments.
Keywords:
Cost; Economics; Feedback; Operating room; Supplies; Surgery
Authors: David G Brauer; William G Hawkins; Steven M Strasberg; L Michael Brunt; David P Jaques; Nicholas R Mercurio; Bruce L Hall; Ryan C Fields Journal: HPB (Oxford) Date: 2015-09-08 Impact factor: 3.647
Authors: Don Husereau; Michael Drummond; Stavros Petrou; Chris Carswell; David Moher; Dan Greenberg; Federico Augustovski; Andrew H Briggs; Josephine Mauskopf; Elizabeth Loder Journal: BMJ Date: 2013-03-25
Authors: Corinna C Zygourakis; Victoria Valencia; Christopher Moriates; Christy K Boscardin; Sereina Catschegn; Alvin Rajkomar; Kevin J Bozic; Kent Soo Hoo; Andrew N Goldberg; Lawrence Pitts; Michael T Lawton; R Adams Dudley; Ralph Gonzales Journal: JAMA Surg Date: 2017-03-01 Impact factor: 14.766
Authors: Corinna C Zygourakis; Victoria Valencia; Christy Boscardin; Rahul U Nayak; Christopher Moriates; Ralph Gonzales; Philip Theodosopoulos; Michael T Lawton Journal: World Neurosurg Date: 2016-09-06 Impact factor: 2.104
Authors: Yalini Vigneswaran; John G Linn; Matthew Gitelis; Joseph P Muldoon; Brittany Lapin; Woody Denham; Mark Talamonti; Michael B Ujiki Journal: J Am Coll Surg Date: 2015-03-14 Impact factor: 6.113
Authors: Christian H Tabib; Clinton D Bahler; Thomas J Hardacker; Kevin M Ball; Chandru P Sundaram Journal: J Endourol Date: 2015-03-18 Impact factor: 2.942
Authors: Christopher P Childers; Susan L Ettner; Ron D Hays; Gerald Kominski; Melinda Maggard-Gibbons; Rodrigo F Alban Journal: Ann Surg Date: 2021-07-01 Impact factor: 13.787