Managing healthcare costs by peer-group modeling

We describe statistical methods for managing healthcare costs using peer-group models and outlier detection. A peer group is a collection of similar entities such as patients, physicians, clinics, hospitals or pharmacies. In an empirical study of drug volumes prescribed by physicians, we examined th...

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Veröffentlicht in:	Applied intelligence (Dordrecht, Netherlands) Netherlands), 2015-12, Vol.43 (4), p.752-759
Hauptverfasser:	Weiss, Sholom M., Kulikowski, Casimir A., Galen, Robert S., Olsen, Peder A., Natarajan, Ramesh
Format:	Artikel
Sprache:	eng
Schlagworte:	Artificial Intelligence Codes Computer Science Cost reduction Costs Drug stores Expected values Fraud Fraud prevention Health care Health care expenditures Hypertension Industrialized nations Intelligence Kidney diseases Machines Manufacturing Mathematical models Mechanical Engineering Outliers (statistics) Patients Peers Pharmacy Physicians Processes Statistical methods
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container_title	Applied intelligence (Dordrecht, Netherlands)
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creator	Weiss, Sholom M. Kulikowski, Casimir A. Galen, Robert S. Olsen, Peder A. Natarajan, Ramesh
description	We describe statistical methods for managing healthcare costs using peer-group models and outlier detection. A peer group is a collection of similar entities such as patients, physicians, clinics, hospitals or pharmacies. In an empirical study of drug volumes prescribed by physicians, we examined the billing and prescription records for all patients covered by a major insurer over a 6 month period, encompassing over twenty million individual patient-physician encounters. During this period, 21,243 physicians prescribed a major pain-control medication which is frequently the subject of abuse - oxycodone. Profiles were computed for each physician based on their specialty and the clinical characteristics of their patients. For each physician, the average prescription volume within the corresponding peer group of similar physicians is an estimate of the expected volume of prescriptions for that physician. Strategies were developed to select outliers from the expected values as the ones that are candidates for potential cost reduction. Overall, the prediction of actual outcomes from peer profiles is significantly better than chance, with a reduction of average error of 45.5 %. For the 10 % of physicians that prescribed the most medications, there were extreme and highly significant differences found between their expected and predicted outcomes.
doi_str_mv	10.1007/s10489-015-0685-7
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A peer group is a collection of similar entities such as patients, physicians, clinics, hospitals or pharmacies. In an empirical study of drug volumes prescribed by physicians, we examined the billing and prescription records for all patients covered by a major insurer over a 6 month period, encompassing over twenty million individual patient-physician encounters. During this period, 21,243 physicians prescribed a major pain-control medication which is frequently the subject of abuse - oxycodone. Profiles were computed for each physician based on their specialty and the clinical characteristics of their patients. For each physician, the average prescription volume within the corresponding peer group of similar physicians is an estimate of the expected volume of prescriptions for that physician. Strategies were developed to select outliers from the expected values as the ones that are candidates for potential cost reduction. Overall, the prediction of actual outcomes from peer profiles is significantly better than chance, with a reduction of average error of 45.5 %. For the 10 % of physicians that prescribed the most medications, there were extreme and highly significant differences found between their expected and predicted outcomes.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s10489-015-0685-7</doi><tpages>8</tpages></addata></record>
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subjects	Artificial Intelligence Codes Computer Science Cost reduction Costs Drug stores Expected values Fraud Fraud prevention Health care Health care expenditures Hypertension Industrialized nations Intelligence Kidney diseases Machines Manufacturing Mathematical models Mechanical Engineering Outliers (statistics) Patients Peers Pharmacy Physicians Processes Statistical methods
title	Managing healthcare costs by peer-group modeling
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