Evaluation of diagnostic imaging systems and procedures is an important factor in the cost and quality of health care. Dorfman, Berbaum & Metz (1992) developed a new methodology that provides a comprehensive framework within which to analyze receiver operating characteristic (RQC) studies with multiple readers that takes into account both reader-sample and case-sample variation. The broad, long-term objective is to assess, perfect, and extend the useful range of application of the Dorfman/Berbaum/Metz (DBM) multireader ROC methodology for the evaluation of accuracy of diagnostic imaging systems. Significant problems remain to be solved before this approach can be broadly adopted with confidence to evaluate diagnostic systems.
The specific aims of the proposed research project are: (1) determine why empirical and nominal error rates sometimes differ under the null hypothesis for the discrete rating format, and investigate procedures for reducing this difference in a broad range of experimental conditions to improve the validity and increase power; (2) determine why empirical and nominal error rates sometimes differ for continuous rating format and to investigate procedures for reducing this difference in a broad range of experimental conditions to improve validity and increase power; (3) evaluate the validity of the DBM multireader methodology in estimating confidence intervals for various effect-size differences; (4) develop and evaluate procedures for estimating the minimum reader and case sample sizes needed to detect a clinically meaningful difference with a fair degree of power and a small probability of a Type l error; and (5) incorporate covariates into the DBM multireader methodology, and evaluate the validity of this extension.
These aims will be addressed by both Monte Carlo simulations and theoretical analysis.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA062362-05
Application #
2700532
Study Section
Special Emphasis Panel (ZRG7-DMG (01))
Program Officer
Menkens, Anne E
Project Start
1994-01-05
Project End
2001-04-30
Budget Start
1998-05-01
Budget End
1999-04-30
Support Year
5
Fiscal Year
1998
Total Cost
Indirect Cost
Name
University of Iowa
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
041294109
City
Iowa City
State
IA
Country
United States
Zip Code
52242
Wagner, Robert F; Metz, Charles E; Campbell, Gregory (2007) Assessment of medical imaging systems and computer aids: a tutorial review. Acad Radiol 14:723-48
Berbaum, Kevin S; Franken Jr, E A (2006) Commentary does clinical history affect perception? Acad Radiol 13:402-3
Berbaum, Kevin; Franken Jr, Edmund A; Caldwell, Robert T et al. (2006) Can a checklist reduce SOS errors in chest radiography? Acad Radiol 13:296-304
Berbaum, Kevin S; Franken Jr, E A; Dorfman, Donald D et al. (2005) Can order of report prevent satisfaction of search in abdominal contrast studies? Acad Radiol 12:74-84
Berbaum, Kevin S; Dorfman, Donald D; Franken Jr, E A et al. (2002) An empirical comparison of discrete ratings and subjective probability ratings. Acad Radiol 9:756-63
Wagner, Robert F; Beiden, Sergey V; Campbell, Gregory et al. (2002) Assessment of medical imaging and computer-assist systems: lessons from recent experience. Acad Radiol 9:1264-77
Beiden, S V; Wagner, R F; Campbell, G et al. (2001) Components-of-variance models for random-effects ROC analysis: the case of unequal variance structures across modalities. Acad Radiol 8:605-15
Berbaum, K S; Brandser, E A; Franken, E A et al. (2001) Gaze dwell times on acute trauma injuries missed because of satisfaction of search. Acad Radiol 8:304-14
Wagner, R F; Beiden, S V; Metz, C E (2001) Continuous versus categorical data for ROC analysis: some quantitative considerations. Acad Radiol 8:328-34
Berbaum, K S; Franken Jr, E A; Dorfman, D D et al. (2000) Role of faulty decision making in the satisfaction of search effect in chest radiography. Acad Radiol 7:1098-106

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