Simulated Volume-Based Regionalization of Complex Procedures

Objective: This study simulates the regionalization of pancreatectomies to assess its impact on spatial access in terms of patient driving times. Background: Although policies to regionalize complex procedures to high-volume centers may improve outcomes, the impact on patient access is unknown. Methods: Patients who underwent pancreatectomies from 2005 to 2014 were identified from California's statewide database. Round-trip driving times between patients’ home ZIP code and hospital addresses were calculated via Google Maps. Regionalization was simulated by eliminating hospitals performing <20 pancreatectomies/yr, and reassigning patients to the next closest hospital that satisfied the volume threshold. Sensitivity analyses were performed for New York and Medicare patients to assess for influence of geography and insurance coverage, respectively. Results: Of 13,317 pancreatectomies, 6335 (47.6%) were performed by hospitals with <20 cases/yr. Patients traveled a median of 49.8 minutes [interquartile range (IQR) 30.8–96.2] per round-trip. A volume-restriction policy would increase median round-trip driving time by 24.1 minutes (IQR 4.5–53.5). Population in-hospital mortality rates were estimated to decrease from 6.7% to 2.8% (P < 0.001). Affected patients were more likely to be racial minorities (44.6% vs 36.5% of unaffected group, P < 0.001) and covered by Medicaid or uninsured (16.3% vs 9.8% of unaffected group, P < 0.001). Sensitivity analyses revealed a 17.8 minutes increment for patients in NY (IQR 0.8–47.4), and 27.0 minutes increment for Medicare patients (IQR 6.2–57.1). Conclusions: A policy that limits access to low-volume pancreatectomy hospitals will increase round-trip driving time by 24 minutes, but up to 54 minutes for 25% of patients. Population mortality rates may improve by 1.5%.

[1]  anonymous Financials , 2020, Reinforced Plastics.

[2]  J. Dimick,et al.  Local Referral of High-Risk Pancreatectomy Patients to Improve Surgical Outcomes and Minimize Travel Burden , 2019, Journal of Gastrointestinal Surgery.

[3]  T. Pawlik,et al.  Geographic Distribution of Adult Inpatient Surgery Capability in the USA , 2019, Journal of Gastrointestinal Surgery.

[4]  D. Boffa,et al.  Motivators, Barriers, and Facilitators to Traveling to the Safest Hospitals in the United States for Complex Cancer Surgery , 2018, JAMA network open.

[5]  T. DeLeire,et al.  Affordable Care Act's Medicaid Expansion and Use of Regionalized Surgery at High-Volume Hospitals. , 2018, Journal of the American College of Surgeons.

[6]  Aaron M Williams,et al.  Pilot Study to Evaluate the Safety, Feasibility, and Financial Implications of a Postoperative Telemedicine Program , 2018, Annals of surgery.

[7]  D. Chang,et al.  Health Reform and Utilization of High-Volume Hospitals for Complex Cancer Operations. , 2018, Journal of oncology practice.

[8]  L. Johnson,et al.  Why Do Long-Distance Travelers Have Improved Pancreatectomy Outcomes? , 2017, Journal of the American College of Surgeons.

[9]  Yanik J. Bababekov,et al.  Potential impact of a volume pledge on spatial access: A population‐level analysis of patients undergoing pancreatectomy , 2017, Surgery.

[10]  P. Pronovost,et al.  Mastery of Care-toward Communitarian Regulation. , 2017, Annals of surgery.

[11]  M. Zinner,et al.  The Hidden Consequences of the Volume Pledge: "No Patient Left Behind"? , 2017, Annals of surgery.

[12]  M. Berry,et al.  Traveling to a High-volume Center is Associated With Improved Survival for Patients With Esophageal Cancer. , 2017, Annals of surgery.

[13]  D. Urbach Pledging to Eliminate Low-Volume Surgery. , 2015, The New England journal of medicine.

[14]  James B. Rebitzer,et al.  Care fragmentation, quality, and costs among chronically ill patients. , 2015, The American journal of managed care.

[15]  T. Tran,et al.  Factors That Influence Minority Use of High-Volume Hospitals for Colorectal Cancer Care , 2015, Diseases of the colon and rectum.

[16]  E John Orav,et al.  Care fragmentation in the postdischarge period: surgical readmissions, distance of travel, and postoperative mortality. , 2015, JAMA surgery.

[17]  K. Lillemoe,et al.  High Performing Whipple Patients: Factors Associated with Short Length of Stay after Open Pancreaticoduodenectomy , 2014, Journal of Gastrointestinal Surgery.

[18]  K. Lillemoe,et al.  Understanding Hospital Readmissions After Pancreaticoduodenectomy: Can We Prevent Them? , 2013, Journal of Gastrointestinal Surgery.

[19]  Yu‐Chu Shen,et al.  Rising closures of hospital trauma centers disproportionately burden vulnerable populations. , 2011, Health affairs.

[20]  Grant Turner,et al.  Going the Extra 'Mile' , 2011 .

[21]  Laura H. Tang,et al.  Survival after Resection of Pancreatic Adenocarcinoma: Results from a Single Institution over Three Decades , 2011, Annals of Surgical Oncology.

[22]  B. Egleston,et al.  Centralization of cancer surgery: implications for patient access to optimal care. , 2009, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[23]  R. Pietrobon,et al.  Regionalization of hepatic resections is associated with increasing disparities among some patient populations in use of high-volume providers. , 2008, Journal of the American College of Surgeons.

[24]  D. Asch,et al.  Perceived barriers to the regionalization of adult critical care in the United States: a qualitative preliminary study , 2008, BMC health services research.

[25]  R. Brook,et al.  Disparities in the utilization of high-volume hospitals for complex surgery. , 2006, JAMA.

[26]  K. Schulman,et al.  Regionalization of percutaneous transluminal coronary angioplasty and implications for patient travel distance. , 2004, Journal of the American Medical Association (JAMA).

[27]  J. Birkmeyer,et al.  Surgeon volume and operative mortality in the United States. , 2003, The New England journal of medicine.

[28]  J. Birkmeyer,et al.  Regionalization of high-risk surgery and implications for patient travel times. , 2003, JAMA.

[29]  J. Young,et al.  The golden hour and the silver day: detection and correction of occult hypoperfusion within 24 hours improves outcome from major trauma. , 1999, The Journal of trauma.

[30]  C. Begg,et al.  Impact of hospital volume on operative mortality for major cancer surgery. , 1998, JAMA.

[31]  S. LeFort,et al.  The statistical versus clinical significance debate. , 1993, Image--the journal of nursing scholarship.