• Center on Health Equity & Access
  • Clinical
  • Health Care Cost
  • Health Care Delivery
  • Insurance
  • Policy
  • Technology
  • Value-Based Care

The Impact of Hospitalists on Length of Stay and Costs: Systematic Review and Meta-Analysis

Publication
Article
The American Journal of Managed CareJanuary 2012
Volume 18
Issue 1

In this systematic review and meta-analysis, we found that hospitalists reduce hospital length of stay without increasing costs.

Background: Hospital medicine has undergone remarkable growth since its creation. Most (but not all) of the published literature demonstrates better outcomes for patients cared for by hospitalists.

Purpose: We performed a systematic review and meta-analysis to estimate the magnitude of the impact of hospitalists on length of stay (LOS) and cost.

Data Sources: Medline/PubMed.

Study Selection: Articles published through February 2011 comparing outcomes (LOS and/or cost) of hospitalists with others.

Data Extraction: Two reviewers independently searched for abstracted information. We also contacted individual authors to provide us with missing data.

Data Synthesis: We used a random-effects model.

Results: A total of 502 abstracts were initially identified and 17 studies of 137,561 patients were included in the final analysis. LOS was significantly shorter in the hospitalist group compared with the non-hospitalist group, with a mean difference of —0.44 days (95% confidence interval [CI] –0.68 to –0.20, P <.001). In studies that compared a (non-resident) hospitalist service with a (non-resident) non-hospitalist service, LOS was also significantly shorter in the hospitalist group (mean difference —0.69 days [95% CI –0.93 to –0.46, P <.001]). Cost was not found to be significantly different (11 studies). There was significant heterogeneity between studies and we found no evidence of publication bias.

Conclusions: Despite its limitations, our analysis supports the conclusion that hospitalists significantly reduce LOS without increasing costs. These findings can be used to define and measure expectations of performance for hospital medicine groups.

(Am J Manag Care. 2012;18(1):e23-e30)In this comprehensive meta-analysis of published studies to date, overall we found a significantly shorter length of stay of —0.44 days among hospitalists compared with nonhospitalists, with no significant difference in cost of care.

  • This reduction in LOS was most pronounced when non-resident hospitalists were compared with non-resident non-hospitalist services (—0.69 days).

  • There was significant heterogeneity between studies but no evidence of publication bias.

  • Our study findings can be used to serve as a benchmark for expectations for medical centers employing hospitalists.

The specialty of hospital medicine has undergone remarkable growth since the term “hospitalist” was introduced.1 The primary catalyst for the creation of many hospital medicine programs in the 1990s was operational; many hospitals were faced with the need to reduce length of stay (LOS) and total cost in order to maintain robust operating margins under a diagnosis-related group (DRG)-based reimbursement system. During this time, many hospitals found themselves maintaining a mixture of attending structures under their roofs, with some of their patients being attended by hospitalists, and others being attended by a “traditional” non-hospitalist (NH). Concurrently, due to the operating expenses involved in maintaining hospitalist programs, many hospital medicine program leaders were being asked to demonstrate their “value” to the hospital in which they were serving. As the value equation at the time was primarily related to cost and efficiency, a multitude of observational studies were published comparing these metrics between hospitalists and NHs.2-21

Although the catalysts for continued growth of the field have changed over time (including resident work-hour restrictions and the need for quality and safety physicians), hospital medicine programs are still expected to yield a return on investment for LOS and cost. For this purpose, it is vital to have a robust “benchmark” from which a hospitalist program’s efficiency and cost-reducing abilities can be evaluated. The purpose of this study is to perform a meta-analysis of published manuscripts to date, comparing overall mean differences in LOS and cost between hospitalists and NHs.

METHODS

Search Methodology and Inclusion/Exclusion Criteria

The Medline/PubMed database was searched for all relevant articles published in English through February 28, 2011, using the following key words: “hospitalists” AND “length of stay” OR “cost” OR “outcomes.” Inclusion criteria comprised all adult prospective or retrospective studies that directly compared mean LOS or cost between a hospitalist group and an NH comparator group. Study definitions for hospitalist and NH comparator groups are further detailed in Table 1. Exclusion criteria included pediatric hospitalist studies, review articles, letters to the editors, and case reports.

Definitions

Different definitions of hospitalist were used in the included studies, ranging from membership in the Society of Hospital Medicine, to physicians (family medicine physicians working a specific percentage of time caring for inpatients, ranging from 25% to 100%). Comparator group included primary care physicians, family medicine teaching, NHs, and private physicians.

The studies were categorized according to whether the attending physicians did or did not supervise residents. Resident services (either hospitalist or NH) were those patient care services in which the attending physician cared for the patient in conjunction with a resident in training.

Data Extraction

All abstracts identified by the search were independently reviewed by 2 investigators (J-SR and JS), who determined the list of included articles by consensus. The full manuscripts of all included articles were then reviewed by a third independent investigator (EF) to confirm they met the inclusion criteria. Bibliographies of each eligible study were examined to identify any additional relevant references that might not have been captured in the Medline search. After the final selection, data were extracted by 2 independent reviewers (J-SR and JR).

For studies with incompletely published data (eg, did not publish the mean AND standard deviation for LOS or cost in BOTH the hospitalist and NH groups), the authors were contacted to determine if the required information was available. For those able to be contacted and with available information, they were included. Otherwise the data could not be included in the meta-analysis, but the study information is qualitatively discussed separately.

One study (Carek et al) had 3 distinct subgroups: 1) nonresident hospitalist group, 2) resident NH group, and 3) nonresident NH group. We therefore included the appropriate subgroups in the following analyses: group 1 versus group 3, and group 1 versus group 2.

Data Synthesis

The outcomes LOS and cost from each study are presented as unadjusted mean differences between hospitalist and NH groups. To account for significant differences between studies (clinical settings, patient characteristics, dates, definition of hospitalist), we used a random-effects model with inverse variance tau method for weighting. To assess for heterogeneity we used a funnel plot, and I2 index (derived for the standard Q index), with a value of 25% or less, suggesting low heterogeneity.2 Publication bias was assessed using weighted least squares Egger's test, and the Trim and Fill method.22,23 Data was analyzed using the MIX software 2.0.24

RESULTS

Study Inclusion and Description

The Medline search yielded 502 abstracts, all of which were independently reviewed (by J-SR and JS); 44 articles were deemed eligible by consensus. After full manuscript reviews (by EF), there were 12 additional articles excluded (no outcomes of interest or no comparisons between hospitalists and NHs), resulting in 32 studies for the final analysis (Appendix A). Of the 32 studies, 15 had complete data available (eg, mean and standard deviation for LOS or cost, for both groups.3-6,14,16-19,21,25-29 For 2 additional studies, the additional required information was available from the first author.15,30 For the remaining 15, the authors were either unable to be contacted, or did not have the required information available.2,7-13,20,31-36

The 17 included articles are outlined in Table 1. Study year ranged from 1998 to 2010, all but 4 were of retrospective design,6,21,26,27 and 11 were from academic medical centers. Study duration varied from 6 months to 5 years. Most patient groups analyzed were general hospitalized inpatients, although some studies focused on specific diagnoses, including heart failure, pneumonia, hip fracture, and gastrointestinal bleeding (Table 1).

Outcome Length of Stay

A total of 137,561 patients from 17 studies were included in the meta-analysis for mean LOS. LOS was significantly shorter in the hospitalist group compared with the NH group, with a mean difference of —0.44 days (95% confidence interval [CI] –0.68 to –0.20, P <.001) (Figure 1). LOS was further analyzed between resident and non-resident services. In the 8 studies that compared a (non-resident) hospitalist service with a (non-resident) NH service (102,684 patients), mean difference in LOS was also significantly shorter in the hospitalist group (mean difference —0.69 days (95% CI –0.93 to –0.46, P <.001) (Figure 2; Table 2).6,16,17,21,27,28,30 In the 5 studies that compared a resident hospitalist service with a resident NH service, and the 5 studies that compared a non-resident hospitalist service with a resident NH service, the mean LOS was not statistically different, with smaller sample sizes and wider confidence intervals (Table 2).

Outcome Cost

A total of 117,721 patients from 11 studies were included in the meta-analysis for mean difference in cost. There was no significant difference in cost between the hospitalist and NH groups, with a mean difference of $12 (95% CI —374 to 399, P = .95). When cost was further analyzed between resident and non-resident services, there were also no significant differences in cost between hospitalist and NH groups, except hospitalists with residents had costs significantly higher than NHs with residents (mean difference $890) (Table 2).

Studies With Incomplete Published Data

Due to incomplete data, 15 studies (including 75,493 patients) could not be entered in the meta-analysis. After average weighting by study sample size, the mean difference in LOS was —0.35 days shorter in the hospitalist group compared with the NH group (N = 62,122), and the mean difference in cost was –$51 less in the hospitalist group compared with the NH group (N = 55,220). Of the individual studies, 13 of the 15 studies found a shorter mean LOS for hospitalists, and 11 of the 15 studies found a lower mean cost for hospitalists, compared with NHs.

Assessment of Heterogeneity and Dissemination Bias

There was significant heterogeneity between studies with I2 index of 97.9% (95% CI 97.3-98.3). The funnel plot showed that most of the heterogeneity was contributed by 3 studies (Tingle [3], Vasilevskis [13], and Diamond [1]) in Figure 3.5,21,25 When these were excluded the I2 index decreased to 85% (95% CI 76.7-90.5), but was still suggestive of high heterogeneity. We found no evidence of publication bias using the Trim and Fill method (no imputed studies), or the Egger’s test (intercept coefficient 1.1, 95% CI —2.7 to 4.8, P = .56).

DISCUSSION

In this comprehensive meta-analysis of published studies to date, overall we found a significantly shorter LOS of —0.44 days among hospitalists compared with NHs, with no significant difference in cost of care. This reduction in LOS was not significantly different when hospitalists were compared with NH resident services, but was significantly shorter when non-resident hospitalists were compared with non-resident, NH services (–0.69 days). The definition of a resident service was patient care services in which the attending physician cared for the patient in conjunction with a resident in training. This distinction is important for hospital medicine; although hospitalists have roles in both resident and non-resident services throughout US hospitals, in both academic and community settings, the roles they play are all very different. Therefore “lumping” all hospitalists into a single efficiency metric will not yield understandable or useful information. As would be expected, and in line with what was found in our analysis, hospitalists on resident services have less direct patient care, and are therefore less able to gain the efficiency they would gain on non-resident services.

Our study findings can be used to serve as a “benchmark” for expectations for medical centers employing hospitalists. According to a recent survey collected jointly by the Society of Hospital Medicine and the Medical Group Management Association, most hospitalist programs receive substantial funding from their hospitals to maintain salary and operations, the average of which has significantly increased every year (Appendix B).37 As such, hospitals need a clear understanding of what to expect from these hospital medicine programs.

For hospitalists serving non-resident services, this study substantiates the expectation that hospitalists can and should be able to reduce the mean LOS by about half per day. Depending on the number of hospitalists and the size of the medical center, any reduction in LOS can translate into overall cost savings in the setting of DRG-based reimbursement. For hospitalists serving as the attending physicians on resident services, however, our meta-analysis did not find a significant difference in mean LOS between hospitalists and NHs. Hospitalists serving a hospital in this capacity would serve many other functions, such as teaching, research, and quality improvement, but should not be expected to significantly impact the mean LOS, based on the findings of this meta-analysis.

This review was limited by the number of studies with complete data (mean and standard deviation of LOS or cost for both hospitalist and NH groups) and by the heterogeneity of patient types, hospitalist and NH definitions, and hospital settings. Most of the studies were non-randomized retrospective cohorts, which may have resulted in uncontrolled confounding in the types of patients cared for by hospitalists and NHs.

In addition, an unanswered and important question is how long it takes to see this difference in LOS from a hospitalist service. Since most of these studies reported the average mean LOS/cost over time, it is not clear how long it took to see a difference between the groups (eg, days, months, or years). There is some evidence that it takes more than a year to “see” the LOS effect of a hospitalist service; however, the design of the studies included in this meta-analysis were unable to answer the question of a “time effect.”2

Despite these limitations, to our knowledge this is the first study of its kind to rigorously analyze the effects of (resident and non-resident) hospitalists on LOS and cost across a variety of hospital settings, the findings of which can be used to define and measure expectations of performance for newly formed, or well-established, hospital medicine groups.Author Affiliations: From Department of Medicine (J-SR, JS, EC, EF, BM, EK), Division of Hospital Medicine, Cooper University Hospital, Camden, NJ; Department of Medicine (DBS), Section of Hospital Medicine, Medical University of South Carolina, Charleston, SC.

Funding Source: None.

Author Disclosures: Dr Kupersmith reports receiving paid consultancies for advisory boards and lecture fees from Merck. The other authors (J-SR, JS, EC, EF, BM, DBS) report no relationship or financial interest with any entity that would pose a conflict of interest with the subject matter of this article.

Authorship Information: Concept and design (J-SR, EC, EF, BM); acquisition of data (J-SR, JS, EF); analysis and interpretation of data (J-SR, JS, EC, EF, BM, DBS); drafting of the manuscript (J-SR, JS, EC, DBS); critical revision of the manuscript for important intellectual content (J-SR, EC, EF, BM, EK, DBS); statistical analysis (J-SR); and supervision (DBS).

Address correspondence to: Jean-Sebastien Rachoin, MD, UMDNJ-Robert Wood Johnson Medical School, Department of Medicine, The Cooper Health System, Camden, NJ 08103. E-mail: Rachoin-jean@CooperHealth.edu.1. Wachter RM, Goldman L. The emerging role of “hospitalists” in the American health care system. N Engl J Med. 1996;335(7):514-517.

2. Auerbach AD, Wachter RM, Katz P, Showstack J, Baron RB, Goldman L. Implementation of a voluntary hospitalist service at a community teaching hospital: improved clinical efficiency and patient outcomes. Ann Intern Med. 2002;137(11):859-865.

3. Craig DE, Hartka L, Likosky WH, Caplan WM, Litsky P, Smithey J. Implementation of a hospitalist system in a large health maintenance organization: the Kaiser Permanente experience. Ann Intern Med. 1999;130(4, pt 2):355-359.

4. Davis KM, Koch KE, Harvey JK, Wilson R, Englert J, Gerard PD. Effects of hospitalists on cost, outcomes, and patient satisfaction in a rural health system. Am J Med. 2000;108(8):621-626.

5. Diamond HS, Goldberg E, Janosky JE. The effect of full-time faculty hospitalists on the efficiency of care at a community teaching hospital. Ann Intern Med. 1998;129(3):197-203.

6. Dynan L, Stein R, David G, Kenny LC, Eckman M, Short AD. Determinants of hospitalist efficiency: a qualitative and quantitative study. Med Care Res Rev. 2009;66(6):682-702.

7. Gregory D, Baigelman W, Wilson IB. Hospital economics of the hospitalist. Health Serv Res. 2003;38(3):905-918; discussion 919-922.

8. Hackner D, Tu G, Braunstein GD, Ault M, Weingarten S, Mohsenifar Z. The value of a hospitalist service: efficient care for the aging population? Chest. 2001;119(2):580-589.

9. Halasyamani LK, Valenstein PN, Friedlander MP, Cowen ME. A comparison of two hospitalist models with traditional care in a community teaching hospital. Am J Med. 2005;118(5):536-543.

10. Halpert AP, Pearson SD, LeWine HE, McKean SC. The impact of an inpatient physician program on quality, utilization, and satisfaction. Am J Manag Care. 2000;6(5):549-555.

11. Kaboli PJ, Barnett MJ, Rosenthal GE. Associations with reduced length of stay and costs on an academic hospitalist service. Am J Manag Care. 2004;10(8):561-568.

12. Kulaga ME, Charney P, O’Mahony SP, et al. The positive impact of initiation of hospitalist clinician educators. J Gen Intern Med. 2004; 19(4):293-301.

13. Lindenauer PK, Chehabeddine R, Pekow P, Fitzgerald J, Benjamin EM. Quality of care for patients hospitalized with heart failure: assessing the impact of hospitalists. Arch Intern Med. 2002;162(11):1251-1256.

14. Lindenauer PK, Rothberg MB, Pekow PS, Kenwood C, Benjamin EM, Auerbach AD. Outcomes of care by hospitalists, general internists, and family physicians. N Engl J Med. 2007;357(25):2589-2600.

15. Meltzer D, Manning WG, Morrison J, et al. Effects of physician experience on costs and outcomes on an academic general medicine service: results of a trial of hospitalists. Ann Intern Med. 2002;137(11): 866-874.

16. Palacio C, Alexandraki I, House J, Mooradian AD. A comparative study of unscheduled hospital readmissions in a resident-staffed teaching service and a hospitalist-based service. South Med J. 2009; 102(2):145-149.

17. Phy MP, Vanness DJ, Melton LJ 3rd, et al. Effects of a hospitalist model on elderly patients with hip fracture. Arch Intern Med. 2005; 165(7):796-801.

18. Rifkin WD, Burger A, Holmboe ES, Sturdevant B. Comparison of hospitalists and nonhospitalists regarding core measures of pneumonia care. Am J Manag Care. 2007;13(3):129-132.

19. Rifkin WD, Conner D, Silver A, Eichorn A. Comparison of processes and outcomes of pneumonia care between hospitalists and communitybased primary care physicians. Mayo Clin Proc. 2002;77(10):1053-1058.

20. Rifkin WD, Holmboe E, Scherer H, Sierra H. Comparison of hospitalists and nonhospitalists in inpatient length of stay adjusting for patient and physician characteristics. J Gen Intern Med. 2004;19(11):1127-1132.

21. Vasilevskis EE, Meltzer D, Schnipper J, et al. Quality of care for decompensated heart failure: comparable performance between academic hospitalists and non-hospitalists. J Gen Intern Med. 2008;23(9):1399-1406.

22. Begg CB, Mazumdar M. Operating characteristics of a rank correlation test for publication bias. Biometrics. 1994;50(4):1088-1101.

23. Egger M, Davey Smith G, Schneider M, Minder C. Bias in meta-analysis detected by a simple, graphical test. BMJ. 1997;315(7109):629-634.

24. Bax L, Yu LM, Ikeda N, Tsuruta H, Moons KG. Development and validation of MIX: comprehensive free software for meta-analysis of causal research data. BMC Med Res Methodol. 2006;6:50.

25. Tingle LE, Lambert CT. Comparison of a family practice teaching service and a hospitalist model: costs, charges, length of stay, and mortality. Fam Med. 2001;33(7):511-515.

26. Southern WN, Berger MA, Bellin EY, Hailpern SM, Arnsten JH. Hospitalist care and length of stay in patients requiring complex discharge planning and close clinical monitoring. Arch Intern Med. 2007;167(17):1869-1874.

27. Go JT, Vaughan-Sarrazin M, Auerbach A, et al. Do hospitalists affect clinical outcomes and efficiency for patients with acute upper gastrointestinal hemorrhage (UGIH)? J Hosp Med. 2010;5(3):133-139.

28. Carek PJ, Boggan H, Mainous AG 3rd, Geesey ME, Dickerson L, Laird S. Inpatient care in a community hospital: comparing length of stay and costs among teaching, hospitalist, and community services. Fam Med. 2008;40(2):119-124.

29. Scheurer DB, Miller JG, Blair DI, Pride PJ, Walker GM, Cawley PJ. Hospitalists and improved cost savings in patients with bacterial pneumonia at a state level. South Med J. 2005;98(6):607-610.

30. Roy CL, Liang CL, Lund M, et al. Implementation of a physician assistant/hospitalist service in an academic medical center: impact on efficiency and patient outcomes. J Hosp Med. 2008;3(5):361-368.

31. Smith PC, Westfall JM, Nichols RA. Primary care family physicians and 2 hospitalist models: comparison of outcomes, processes, and costs. J Fam Pract. 2002;51(12):1021-1027.

32. Everett GD, Anton MP, Jackson BK, Swigert C, Uddin N. Comparison of hospital costs and length of stay associated with general internists and hospitalist physicians at a community hospital. Am J Manag Care. 2004;10(9):626-630.

33. Myers JS, Bellini LM, Rohrbach J, Shofer FS, Hollander JE. Improving resource utilization in a teaching hospital: development of a nonteaching service for chest pain admissions. Acad Med. 2006;81(5):432-435.

34. Roy A, Heckman MG, Roy V. Associations between the hospitalist model of care and quality-of-care-related outcomes in patients undergoing hip fracture surgery. Mayo Clin Proc. 2006;81(1):28-31.

35. Everett G, Uddin N, Rudloff B. Comparison of hospital costs and length of stay for community internists, hospitalists, and academicians. J Gen Intern Med. 2007;22(5):662-667.

36. Roytman MM, Thomas SM, Jiang CS. Comparison of practice patterns of hospitalists and community physicians in the care of patients with congestive heart failure. J Hosp Med. 2008;3(1):35-41.

37. Society of Hospital Medicine. Bi-annual survey (2003-2009) and MGMA-SHM annual survey (2010-2011). http://www.hospitalmedicine.org/AM/Template.cfm?Section=Surveys2&Template=/CM/HTMLDisplay.cfm&ContentID=18601. Accessed June 9, 2011.

Related Videos
Screenshot of Adam Colborn, JD during an interview
dr ian neeland
Crystal S. Denlinger, MD, FACP, CEO of the National Comprehensive Cancer Network
Kimberly Westrich, MA, chief strategy officer of the National Pharmaceutical Council
Phaedra Corso, PhD, associate vice president for research at Indiana University
Julie Patterson, PharmD, PhD
Nancy Dreyer, MPH, PhD, FISE, chief scientific advisor to Picnic Health
Seth Berkowitz, MD, MPH, associate professor of medicine, University of North Carolina at Chapel Hill
Related Content
© 2024 MJH Life Sciences
AJMC®
All rights reserved.