Selecting Controls for Assessing Interaction in Nested Case-control Studies

BACKGROUND Two methods for selecting controls in nested case-control studies--matching on X and counter matching on X--are compared when interest is in interaction between a risk factor X measured in the full cohort and another risk factor Z measured only in the case-control sample. This is important because matching provides efficiency gains relative to random sampling when X is uncommon and the interaction is positive (greater than multiplicative), whereas counter matching is generally efficient compared to random sampling. METHODS Matching and counter matching were compared to each other and to random sampling of controls for dichotomous X and Z. Comparison was by simulation, using as an example a published study of radiation and other risk factors for breast cancer in the Japanese atomic-bomb survivors, and by asymptotic relative efficiency calculations for a wide range of parameters specifying the prevalence of X and Z as well as the levels of correlation and interaction between them. Focus was on analyses utilizing general models for the joint risk of X and Z. RESULTS Counter-matching performed better than matching or random sampling in terms of efficiency for inference about interaction in the case of a rare risk factor X and uncorrelated risk factor Z. Further, more general, efficiency calculations demonstrated that counter-matching is generally efficient relative to matched case-control designs for studying interaction. CONCLUSIONS Because counter-matched designs may be analyzed using standard statistical methods and allow investigation of confounding of the effect of X, whereas matched designs require a non-standard approach when fitting general risk models and do not allow investigating the adjusted risk of X, it is concluded that counter-matching on X can be a superior alternative to matching on X in nested case-control studies of interaction when X is known at the time of case-control sampling.

[1]  S D Walter,et al.  Cost and efficiency in the choice of matched and unmatched case-control study designs. , 1982, American journal of epidemiology.

[2]  D. Preston,et al.  Effect of Comparison Group on Inference about Effect Modification by Demographic Factors in Cohort Risk Regression , 2002 .

[3]  J B Cologne,et al.  OPTIMAL CASE‐CONTROL MATCHING IN PRACTICE , 1995, Epidemiology.

[4]  Bryan Langholz,et al.  Counter-matching: A stratified nested case-control sampling method , 1995 .

[5]  H Morgenstern,et al.  Matching in epidemiologic studies: validity and efficiency considerations. , 1981, Biometrics.

[6]  S H Moolgavkar,et al.  General relative risk regression models for epidemiologic studies. , 1987, American journal of epidemiology.

[7]  S Greenland,et al.  Concepts of interaction. , 1980, American journal of epidemiology.

[8]  S. C. Darby,et al.  Modelling the Relative and Absolute Risks of Radiation-Induced Cancers , 1987 .

[9]  C R Weinberg,et al.  Randomized recruitment in case-control studies. , 1991, American journal of epidemiology.

[10]  Bryan Langholz,et al.  Risk set sampling in epidemiologic cohort studies , 1996 .

[11]  S Greenland,et al.  The efficiency of matching in case-control studies of risk-factor interactions. , 1985, Journal of chronic diseases.

[12]  K. Rothman Epidemiology: An Introduction , 2002 .

[13]  D A Pierce,et al.  Studies of the mortality of atomic bomb survivors. Report 12, Part I. Cancer: 1950-1990. , 1996, Radiation research.

[14]  K Steenland,et al.  Increased Precision Using Countermatching in Nested Case‐Control Studies , 1997, Epidemiology.

[15]  D Clayton,et al.  Sampling strategies in nested case-control studies. , 1994, Environmental health perspectives.

[16]  N E Day,et al.  The design of case-control studies: the influence of confounding and interaction effects. , 1984, International journal of epidemiology.

[17]  D. Thomas,et al.  Biological models and statistical interactions: an example from multistage carcinogenesis. , 1981, International journal of epidemiology.

[18]  M. Pike,et al.  A case-control interview study of breast cancer among Japanese A-bomb survivors. II. Interactions with radiation dose , 1994, Cancer Causes & Control.

[19]  B Langholz,et al.  Counter-matching in studies of gene-environment interaction: efficiency and feasibility. , 2001, American journal of epidemiology.

[20]  B Langholz,et al.  Conditional logistic analysis of case-control studies with complex sampling. , 2001, Biostatistics.