Initial Experience With Bundled Pay for Total Joint Arthroplasty Procedures

Jul 24, 2018, 11:58 AM by Navid Alem, MD; Leslie Garson, MD, MIHM; Zeev Kain, MD, MBA

The current healthcare landscape is evolving to yield paradigms that improve patient care and curtail cost.1 Patient centric and collaborative models that accentuate “value” as opposed to “volume” are gaining impetus.2–4 This is exemplified by the Bundled Payments for Care Improvement (BPCI) initiative of 2013 that aims to study if holistic episode based payments can diminish Medicare payments for total joint arthroplasty (TJA) procedures while perpetuating quality.5-6 The purpose of this review is to outline initial experiences with bundled payments for TJA procedures and potential implications on anesthesiology practice.

There is consensus that existing healthcare paradigms in the United States are plagued by unsustainable cost inflation that does not parallel enhanced patient outcomes.7 The current system has been characterized as a broken model with widespread waste, redundancy, and care fragmentation.7-8 Rather than accepting the status quo, the Affordable Care Act (ACA) has a multitude of initiatives and incentives that strive to strengthen partnership amongst practitioners.8–10 A prominent element of the ACA is savings and enhanced care achieved via accountable care organizations (ACO); defined by Epstein et al10 as models “in which various constellations of providers agree to assume collective responsibility for the care delivered to a defined Medicare population.” The Medicare Access and CHIP Reauthorization Act of 2015 further manifests the Centers for Medicare and Medicaid Services (CMS) goal of transitioning to merit based incentive payment systems or advanced alternate payment models (such as Accountable Care Organizations). CMS also instituted the Hospital Readmissions Reduction Program in 2013, which includes explicit provisions for payment reduction after elective TJA procedures for hospitals with 30 day readmission rates above national benchmarks.

Health care delivery redesign is being accelerated by a long needed transition in payment systems towards value based paradigms. Porter et al11 elucidate, “The clear message is that hospitals, health care centers, and clinicians should no longer be spending time discussing whether to participate in bundled payment programs but instead focusing on how to do the work necessary to succeed under them.” In contrast to a fee for service model, an integral feature of ACOs is a progression toward bundled payments that encompass comprehensive episodes of care.6 In an ACO, it is incumbent upon hospitals, physicians, and post–acute care providers to collaborate and restrain both the quantity and cost of unnecessary and non–evidence based services.12-13 Demonstrating patient centric value contribution is paramount in so called “incentive compatible” paradigms that aim to marginalize individual predilections.14 Value is essentially a global assessment of quality in relation to cost.3,4,15 In the context of perioperative care, appraisal of quality is linked to longitudinal patient dispositions, such as the haste with which patients return to baseline function.3

 While there is timely evidence that has demonstrated both cost savings16 and improved patient experiences17 in ACO paradigms, outcomes in the setting of surgical procedures are only recently materializing by analyzing the experience with BPCI for TJA. In 2016, CMS made bundled payments for total hip and knee replacement mandatory in 67 regions under its Comprehensive Care for Joint Replacement model.18 Within this context, Lee et al18 reported clinical outcomes were maintained along with an 11% cost decline for TJA procedures. One key step toward enhanced efficiency was modifying physical therapists’ schedules so that virtually all patients were out of bed on the day of surgery. This translated to a 9.5% decrease in average length of stay.18 An original investigation by Dummitt et al5 demonstrated that in comparison to nonparticipating hospitals, significant Medicare payment declines are observed for lower extremity joint replacement episodes in BPCI participating hospitals. Notably, these savings are achieved without negotiation of important quality metrics, including unplanned readmissions, postdischarge emergency department visits, and perioperative mortality. Iorio et al1 are similarly able to exhibit positive fiscal experiences for TJA procedures in a BPCI model. Here, cost savings are primarily attained via decreasing the average length of hospital stay and diversion of postdischarge care from inpatient facilities. A study by Bozic et al19 revealed that the cost for TJA procedures is highly contingent on postdischarge care, noting that it contributes to upwards of one third of total episode payments. Enabling tailored intervention, Siracuse and Chamberlain20 validated that a risk stratification scale can effectively identify elevated risk patients scheduled for TJA.

As forthcoming payment models are dynamically redefined, it is sensible for anesthesiologists to explore expanding roles that augment both the scope and quality of patient interaction during the surgical course.21 The Figure presents several diverse opportunities for anesthesiologists to contribute value added (defined as either enhanced quality or decreased cost3,4,15) care within the context of bundled care compensation. Notably, many of the prospects outlined in the Figure transcend the immediate operative period and embrace a philosophy of shared accountability for ultimate patient centric outcomes throughout the perioperative continuum. This integration of complete and interdisciplinary care that primarily focuses on the patient— starting from the decision to pursue surgery until full patient recovery—is exemplified by the discipline of perioperative medicine.4 Within the realm of perioperative medicine, emerging paradigms such as enhanced recovery after surgery (ERAS)22 and the perioperative surgical home (PSH)23 aim to unify providers for the collective goal of improved patient care provided in a fiscally responsible manner.8 The essential foundations of a PSH include patient centeredness, comprehensiveness, coordination, accessibility, and commitment to quality and safety.24–26 Similarly, the key components of ERAS include collaborative decision making, lifestyle modification before surgery, standardized in hospital perioperative care, achieving full recovery, and using clinical data for quality improvement.4

In close partnership with other disciplines, the Department of Anesthesiology and Perioperative Care at University of California, Irvine (UCI) implemented an innovative PSH program for TJA procedures in 2012.27 Encouraging results included a decreased incidence of major complications, lowered blood transfusions rates, shortened lengths of hospital stay, and reduced postdischarge readmission rates.27 A subsequent report from UCI indicated that program success was maintained with outcomes further improved.28 The PSH model has also been implemented in a number of other organizations, including University of Alabama,29 Kaiser Permanante,30 and DC Children’s.31                                                                                                                                                                              

Specific multimodal and opioid sparing strategies that can be implemented throughout the perioperative course to optimize analgesia after TJA procedures are elucidated.28,32 Amidst a major public health crisis33 (often delineated as “the opioid epidemic”), this presents a particularly keen opportunity for value added care after TJA procedures. Raphael et al34 also demonstrated that direct hospital fiscal burden was substantially below benchmark levels for patients enrolled in the TJA PSH at UCI Health. The explicit strategies utilized in the program throughout the perioperative continuum to curtail repeat admissions after hospital discharge are outlined in a separate case report.35

Using the “burning platform” business lexicon,36,37 it has been said that the current healthcare landscape is at a crossroads. Paradigms that hasten surgical recovery3 are gaining much momentum, fulfilling the Institute for Healthcare’s proposed triple aim of improving the experience of care, improving the health of populations, and reducing per capita costs.38 The BPCI initiative is a transparent strategy that is currently being utilized by CMS to clarify if episode based payment can translate to “higher quality, more coordinated care, at a lower cost to Medicare.”1 Early results have demonstrated that there is indeed significant potential for cost savings and improved care quality with the application of collective (“bundled”) fiscal models.1–5 In a dynamic landscape21 where value added contribution to patient care is anticipated to be financially endorsed, it is prudent to integrate clinical opportunities that parallel favorable patient outcomes. An expansion in scope of practice throughout the perioperative continuum, via paradigms such as ERAS and PSH, is one such means to enhance care quality while also preparing anesthesiologists for bundled pay.

References

1. Iorio R, Clair AJ, Inneh IA, Slover JD, Bosco JA, Zuckerman JD. Early results of Medicare’s bundled payment initiative for a 90 day total joint arthroplasty episode of care. J Arthroplasty. 2016;31(2):343–350.

 

2. Miller HD. From volume to value: better ways to pay for health care. Health Aff (Millwood). 2009;2 (5):1418–1428.

 

3. Atkins JH, Fleischer LA. Value from the patients’ and payers’ perspectives. Anesthesiology Clin. 2015;22:651–658.

 

4. Grocott MP, Mythen MG. Perioperative medicine: the value proposition for anesthesia? Anesthesiology Clin. 2015;33:617–628.

 

5. Dummit LA, Kahvecioglu D, Marrufo G, et al. Association between hospital participation in Medicare bundled payment initiative and payments and quality outcomes for lower extremity joint replacement episodes. JAMA. 2016;316(12):1267–1278.

 

6. Press MJ, Rajkumar R, Conway PH. Medicare’s new bundled payments. Design, strategy, and evolution. JAMA. 2016;315(2):131–132.

 

7. Berwick DM, Hackbarth AD. Eliminating waste in US health care. JAMA. 2012;307(14):1513–1516.

 

8. Mackey DC. Can we finally conquer the problem of medical quality? The systems based opportunities of data registries and medical teamwork. Anesthesiology. 2012;117(2):225–226.

 

9. Weeks WB, Weinstein JN. Caveats to consider when calculating healthcare value. Am J Med. 2015;128(8):802–803.

 

10. Epstein AM, Jha AK, Orah J, et al. Analysis of early accountable care organizations defines patient, structural, cost, and quality of care characteristics. Health Affairs. 2014;33(1):95–102.

 

11. Porter ME, Lee TH. Volume to value in health care: the work begins. JAMA. 2016;316(10):1047–1048.

12. Ridgely MS, Vries DD, Bozic KJ, Hussey PS. Bundled payment fails to gain a foothold in California: the experience of the IHA bundled payment demonstration. Health Affairs. 2014;33(8):1345–1352.

 

13. Sinclair DR, Lubarsky DA, Vigoda MM, et al. A matrix model for valuing anesthesia service with the resource based relative value system. J Multidiscip Healthc. 2014;7:449–458.

 

14. Conrad D. The theory of value based payment incentives and their application to health care. Health Serv Res. 2015;50(S2):2057–2089.

 

15. Chandrakantan A, Gan TJ. Demonstrating value: a case study of enhanced recovery. Anesthesiology Clin. 2015;33:629–650.

 

16. Pham HH, Cohen M, Conway PH. The pioneer accountable care organization model: improving quality and lowering costs. JAMA. 2014;312(16):1635–1636.

 

17. McWilliams JM, Landon BE, Chernew ME, Zaslavsky A. Changes in patients’ experiences in Medicare accountable care organizations. N Engl J Med. 2014;371(18):1715–1724.

 

18. Lee VS, Kawamoto K, Hess R, et al. Implementation of a value driven outcomes program to identify high variability in clinical costs and outcomes and association with reduced cost and improved quality. JAMA. 2016;316(10):1061–1072.

 

19. Bozic KJ, Ward L, Vail TP, Maze M. Bundled payments in total joint arthroplasty: targeting opportunities for quality improvement and cost reduction. Clin Orthop Relat Res. 2014;472(1):188–193.

 

20. Siracuse BL, Chamberlain RS. A preoperative scale for determining surgical readmission risk after total hip replacement. JAMA Surg. 2016;151(8):E1–E9.

 

21. Szokol JW, Stead S. The changing anesthesia economic landscape: emergence of large multispecialty practices and accountable care organizations. Curr Opin Anesthesiol. 2014;27(2):183–189.

 

22. Fawcett W, Mythen M, Scott M. Enhanced recovery: more than just reducing length of stay? Br J Anaesth. 2012;109(5):671–674.

 

23. Kash B, Zhang Y, Cline K, Menser T, Miller T. The perioperative surgical home (PSH): a comprehensive review of US and non US studies shows predominantly positive quality and cost outcomes. Millbank Q. 2014;92(4):796–821.

 

24. Cannesson M, Kain ZN. The perioperative surgical home: an innovative clinical care delivery model. J Clin Anesth. 2015;27(3):185–187.

 

25. Kain ZN, Hwang J, Warner M. Disruptive innovation and the specialty of anesthesiology: the case for the perioperative surgical home. Anesth Analg. 2015;120(5):1155–1157.

 

26. Kain, ZN, Fitch JCK, Kirsch JR, Mets B, Pearl RG. Future of anesthesiology is perioperative medicine: a call for action. Anesthesiology. 2015;122(6):1192– 1195.

 

27. Garson L, Schwartzkopf R, Vakharia S, et al. Implementation of a total joint replacement focused perioperative surgical home: a management case report. Anesth Analg. 2014;118(5):1081–1089.

 

28. Cyriac J, Garson L, Schwarzkopf R, et al. Total joint replacement perioperative surgical home program: 2 year follow up. Anesth Analg. 2016;123(1):51–62.

 

29. Vetter TR, Barman J, Hunter JM, Jones KA, Pittet JF. The effect of implementation of preoperative and postoperative care elements of a perioperative surgical home model on outcomes in patients undergoing hip arthroplasty or knee arthroplasty. Anesth Analg. 2016. doi:10.1213/ ANE.0000000000001743.

 

30. Qiu C, Rinehart J, Nguyen VT, et al. An ambulatory surgery perioperative surgical home in Kaiser Permanente settings: practice and outcomes. Anesth Analg. 2016. doi:10.1213/ANE.0000000000001717.

 

31. Thomson K, Pestieau SR, Patel JJ, et al. Perioperative surgical home in pediatric settings: preliminary results. Anesth Analg. 2016;123(5):1193–1200.

 

32. Cyriac J, Alem N, Kyle A, Gulur P, Kain Z. Implementation of the perioperative surgical home at UC Irvine. ASRA News. 2015:19–22.

 

33. Kharasch ED, Brunt ML. Perioperative opioids and public health. Anesthesiology. 2016;124(4):1–6.

 

34. Raphael D, Cannesson M, Schwarzkopf R, et al. Total joint perioperative surgical home: an observational financial review. Perioper Med (Lond). 2014;3(6):1–7.

 

35. Alem N, Rinehart J, Lee B, et al. A case management report: a collaborative perioperative surgical home paradigm and the reduction of total joint arthroplasty readmissions. Perioper Med (Lond). 2016;5(27):1–10.

 

36. Prielipp RC, Morell RC, Coursin DB, et al. The future of anesthesiology: should the perioperative surgical home define us? Anesth Analg. 2015;120(5):1142–1148.

 

37. Warner MA, Apfelbaum JL. The perioperative surgical home: a response to a presumed burning platform or a thoughtful expansion of anesthesiology. Anesth Analg. 2015;120(5):1149–1151.

 

38. Berwick DM, Nolan TW, Whittington J. The triple aim: care, health, and cost. Health Affairs. 2008;27(3):759–769.

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