A Rapid Outcomes Ascertainment System Improves the Quality of Prognostic and Pharmacogenetic Outcomes from Observational Studies
- Penelope A. Bradbury1,
- Rebecca Suk Heist3,4,5,
- Matthew H. Kulke3,6,
- Wei Zhou4,
- Ariela L. Marshall3,4,
- David P. Miller4,
- Li Su4,
- Sohee Park4,
- Jennifer Temel3,4,5,
- Panos Fidias3,4,5,
- Lecia Sequist3,5,
- Thomas J. Lynch3,5,
- John C. Wain3,5,
- Frances A. Shepherd1,
- David C. Christiani3,4,5 and
- Geoffrey Liu1,2,3,4,5
- 1Princess Margaret Hospital; 2Ontario Cancer Institute, Toronto, Ontario, Canada; 3Harvard Medical School; 4Harvard School of Public Health; 5Massachusetts General Hospital; and 6Dana Farber Cancer Institute, Boston, Massachusetts
- Requests for reprints:
Geoffrey Liu, Princess Margaret Hospital/Ontario Cancer Institute, Suite 7-124, 610 University Avenue, Toronto, Ontario, Canada M5G 2M9. Phone: 416-946-4501, ext. 3428; Fax: 416-946-6546. E-mail: Geoffrey.Liu{at}uhn.on.ca
Abstract
Purpose: Case-control and observational studies are popular choices for evaluating molecular prognostic/pharmacogenetic outcomes, but data quality is rarely tested. Using clinical trial and epidemiologic methods, we assessed the quality of prognostic and outcomes data obtainable from a large case-control study of lung cancer.
Methods: We developed an explicit algorithm (set of standard operating procedures forming a rapid outcomes ascertainment system) that encompassed multiple tests of quality assurance, and quality of data for a range of prognostic and outcomes variables, in several cancers, across several centers and two countries were assessed. Based on these assessments, the algorithm was revised and physicians' clinical practice changed. We reevaluated the quality of outcomes after these revisions.
Results: Development of an algorithm with internal quality controls showed specific patterns of data collection errors, which were fixable. Although the major discrepancy rate in retrospective data collection was low (0.6%) when compared with external validated sources, complete data were found in <50% of patients for treatment response rate, toxicity, and documentation of patient palliative symptoms. Prospective data collection and changes to clinical practice led to significantly improved data quality. Complete data on response rate increased from 45% to 76% (P = 0.01, Fisher's exact test), for toxicity data, from 26% to 56% (P = 0.02), and for palliative symptoms, from 25% to 70% (P < 0.05), in one large lung cancer case-control study.
Conclusions: Observational studies can be a useful source for studying molecular prognostic and pharmacogenetic outcomes. A rapid outcomes ascertainment system with strict ongoing quality control measures is an excellent means of monitoring key variables. (Cancer Epidemiol Biomarkers Prev 2008;17(1):204–11)
Footnotes
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Grant support: NIH grants R01 CA074386, R01 CA092824, and R01 CA109193; Doris Duke Charitable Foundation; Kevin Jackson Memorial Fund; the Alan B. Brown Chair in Molecular Genomics; The Ontario Cancer Research Network Fellowship; and the Canadian Institute of Health Research (operating grant).
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The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.
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- Accepted October 22, 2007.
- Received May 23, 2007.
- Revision received September 20, 2007.
