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Journal of Medical Systems

Erschienen in:

01.05.2014 | Systems-Level Quality Improvement

Classifying Hospitals as Mortality Outliers: Logistic Versus Hierarchical Logistic Models

verfasst von: Roxana Alexandrescu, Alex Bottle, Brian Jarman, Paul Aylin

Erschienen in: Journal of Medical Systems | Ausgabe 5/2014

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Abstract

The use of hierarchical logistic regression for provider profiling has been recommended due to the clustering of patients within hospitals, but has some associated difficulties. We assess changes in hospital outlier status based on standard logistic versus hierarchical logistic modelling of mortality. The study population consisted of all patients admitted to acute, non-specialist hospitals in England between 2007 and 2011 with a primary diagnosis of acute myocardial infarction, acute cerebrovascular disease or fracture of neck of femur or a primary procedure of coronary artery bypass graft or repair of abdominal aortic aneurysm. We compared standardised mortality ratios (SMRs) from non-hierarchical models with SMRs from hierarchical models, without and with shrinkage estimates of the predicted probabilities (Model 1 and Model 2). The SMRs from standard logistic and hierarchical models were highly statistically significantly correlated (r > 0.91, p = 0.01). More outliers were recorded in the standard logistic regression than hierarchical modelling only when using shrinkage estimates (Model 2): 21 hospitals (out of a cumulative number of 565 pairs of hospitals under study) changed from a low outlier and 8 hospitals changed from a high outlier based on the logistic regression to a not-an-outlier based on shrinkage estimates. Both standard logistic and hierarchical modelling have identified nearly the same hospitals as mortality outliers. The choice of methodological approach should, however, also consider whether the modelling aim is judgment or improvement, as shrinkage may be more appropriate for the former than the latter.

Jarman, B., Gault, S., Alves, B., et al., Explaining differences in English hospital death rates using routinely collected data. BMJ 318:1515–1520, 1999.CrossRef

Aylin, P., Bottle, A., Jen, M. H., et al., HSMR mortality indicators. http://www1.imperial.ac.uk/resources/3321CA24-A5BC-4A91-9CC9-12C74AA72FDC Accessed 10 May 2013.

Bottle, A., and Aylin, P., Intelligent information: A national system for monitoring clinical performance. Health Serv. Res. 43:10–31, 2008.CrossRef

Alharbi, O., Rabeneck, L., Paszat, L. F., et al., A population-based analysis of outpatient colonoscopy in adults assisted by an anaesthesiologist. Anaesthesiology 111:734–740, 2009.CrossRef

Krumholz, H. M., Brindis, R. G., Brush, J. E., et al., Standards for statistical models used for public reporting of health outcomes. Circulation 113:456–462, 2006.CrossRef

Cohen, L. H., Cardiac surgery in the adult. 3rd edition. http://cardiacsurgery.ctsnetbooks.org/ Accessed 20 March 2013.

DeLong, E., Hierarchical modeling: Its time has come. Am. Heart J. 145:16–18, 2003.CrossRef

Diez-Roux, A. V., Multilevel analysis in public health research. Annu. Rev. Public Health 21:171–192, 2000.CrossRef

Steele, F., Module 5: Introduction to multilevel modelling concepts. http://www.cmm.bristol.ac.uk/learning-training/ Accessed 1 August 2013.

10.

Hox, J. J., Applied multilevel analysis. TT Publikaties Amsterdam, 1995. http://www.eric.ed.gov/PDFS/ED384636.pdf Accessed 1 August 2013.

11.

Alexandrescu, R., Jen, M. H., Bottle, A., et al., Logistic vs. Hierarchical modeling: An analysis of a statewide inpatient sample. J. Am. Coll. Surg. 213:392–401, 2011.CrossRef

12.

The Information centre. Hospital episode statistics. 2011. www.hesonline.nhs.uk/ Accessed 11 March 2013.

13.

NHS Connecting for Health. Secondary users service. 2011. http://www.connectingforhealth.nhs.uk/systemsandservices/sus Accessed 11 March 2013.

14.

HCUP CCS: Healthcare Cost and Utilization Project (HCUP). Clinical Classifications Software (CCS) for ICD-10. Agency for Healthcare and Quality, Rockville, MD 2009. http://www.hcup-us.ahrq.gov/toolssoftware/icd_10/ccs_icd_10.jsp Accessed 11 March 2013.

15.

Sundararajan, V., Henderson, T., Perry, C., et al., New ICD-10 version of the Charlson comorbidity index predicted in-hospital mortality. J. Clin. Epidemiol. 57:1288–1294, 2004.CrossRef

16.

Gridlink. Office for National Statistics. 2011. http://www.ons.gov.uk/ons/guide-method/geography/geographic-policy/gridlink-/index.html.

17.

Wong, S., Flowers, J., and Lyratzopoulos, Y., Hospital admissions for myocardial infarction in the East of England, 1997/98–2007/08. Available from: http://www.erpho.org.uk/Download/Public/18587/1/Briefing%2020%20STEMI%204%20sides%20A4%20FINAL.pdf Accessed 1 August 2013.

18.

Seccareccia, F., Perucci, C. A., D’Errigo, P., et al., The Italian CABG Outcome Study: Short-term outcomes in patients with coronary artery bypass graft surgery. Eur. J. Cardiothorac. Surg. 29:56–62, 2006.CrossRef

19.

Grant, S. W., Grayson, A. D., Purkayastha, D., et al., Logistic risk model for mortality following elective abdominal aortic aneurysm repair. Br. J. Surg. 98:652–658, 2011.CrossRef

20.

SAS Institute Inc, SAS/STAT® 9.2 user’s guide. The GLIMMIX procedure. SAS Institute Inc., Cary, NC, 2008.

21.

Cohen, M. E., Dimick, J. B., Bilimoria, K. Y., et al., Risk adjustment in the American College of Surgeons National Surgical Quality Improvement Program: A comparison of logistic versus hierarchical modeling. J. Am. Coll. Surg. 209:687–693, 2009.CrossRef

22.

Cohen, M. E., Ko, C. Y., Bilimoria, K. Y., et al., Optimizing ACS NSQIP modeling for evaluation of surgical quality and risk: Patient risk adjustment, procedure mix adjustment, shrinkage adjustment, and surgical focus. J. Am. Coll. Surg. 217:336–346, 2013.CrossRef

23.

Glance, L. G., Dick, A., Osler, T. M., et al., Impact of changing the statistical methodology on hospital and surgeon ranking: The case of the New York State cardiac surgery report card. Med. Care 44:311–319, 2006.CrossRef

24.

The Centre for Medicare and Medicaid Services. Statistical issues in assessing hospital performance. http://www.cms.gov/Medicare/Quality-Initiatives-Patient-Assessment-Instruments/HospitalQualityInits/Downloads/Statistical-Issues-in-Assessing-Hospital-Performance.pdf Accessed 1 August 2013.

25.

Spiegelhalter, D. J., Funnel plots for comparing institutional performance. Stat. Med. 24:1185–1202, 2005.CrossRefMathSciNet

26.

Cook, N. R., Use and misuse of the receiver operating characteristic curve in risk prediction. Circulation 115:928–935, 2007.CrossRef

27.

Snijders, T. A. B., and Bosker, R. J., Multilevel analysis. An introduction to basic and advanced multilevel modeling. SAGE Publications, London, 1999.MATH

28.

D’Errigo, P., Tosti, M. E., Fusco, D., et al., Use of hierarchical models to evaluate performance of cardiac surgery centres in the Italian CABG outcome study. BMC Med. Res. Methodol. 7:29, 2007.CrossRef

29.

Hannan, E. L., Wu, C., DeLong, E. R., and Raudenbush, S. W., Predicting risk-adjusted mortality for CABG surgery: Logistic versus hierarchical logistic models. Med. Care 43:726–735, 2005.CrossRef

30.

Austin, P. C., Alter, D. A., and Tu, J. V., The use of fixed- and random-effects models for classifying hospitals as mortality outliers: A Monte Carlo assessment. Med. Decis. Making 23:526–539, 2003.CrossRef

31.

Austin, P. C., Tu, J. V., and Alter, D. A., Comparing hierarchical modeling with traditional logistic regression analysis among patients hospitalized with acute myocardial infarction: Should we be analyzing cardiovascular outcomes data differently? Am. Heart J. 145:27–35, 2003.CrossRef

32.

Clark, D. E., Hannan, E. L., and Wu, C., Predicting risk adjusted mortality for trauma patients: Logistic versus multilevel logistic models. J. Am. Coll. Surg. 211:224–231, 2010.CrossRef

33.

Tan, A., Freeman, J. L., and Freeman, D. H., Jr., Evaluating health care performance: Strengths and limitations of multilevel analysis. Biom. J. 49:707–718, 2007.CrossRefMathSciNet

34.

Mohammed, M. A., Manktelow, B. N., and Hofer, T. P., Comparison of four methods for deriving hospital standardised mortality ratios from a single hierarchical logistic regression model. Stat. Methods Med. Res. Nov 6, 2012.

35.

Bland, J. M., and Altman, D. G., Measuring agreement in method comparison studies. Stat. Methods Med. Res. 8:135–160, 1999.CrossRef

Titel: Classifying Hospitals as Mortality Outliers: Logistic Versus Hierarchical Logistic Models
verfasst von: Roxana Alexandrescu
Alex Bottle
Brian Jarman
Paul Aylin
Publikationsdatum: 01.05.2014
Verlag: Springer US
Erschienen in: Journal of Medical Systems / Ausgabe 5/2014
Print ISSN: 0148-5598
Elektronische ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-014-0029-x

Springer Medizin

Abstract

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