The basis for all epidemiological research is an accurate and precise measurement of exposure. Imprecision in the assessment of an exposure or of confounders can lead to potentially strong biases, which can be either towards or away from the null. This chapter illustrates the importance of good measures of exposure, demonstrates the potential impact of imprecise or inaccurate measurement, and describes statistical methods that can be used to minimise and correct for measurement error bias. The methods are illustrated using a real example from the field of diet and cancer
Measurement error in self-reported dietary intakes is known to bias the association between dietary ...
Three types of issues need to be considered in the application of epidemiology results to individual...
Background: Measurement error in self-reported dietary intakes is known to bias the association betw...
Error in measurement is inevitable in epidemiological study. According to the classical regression m...
measurement errors, risk estimate and statistical power in case-control studies using dichotomous an...
Background: Several statistical approaches have been proposed to assess and correct for exposure mea...
Exposure assessment is a key aspect of environmental epidemiology. In standard statistical analysis,...
Epidemiologists are often confronted with datasets to analyse which contain measurement error due to...
<strong>Background </strong>Measurement error in exposure variables is an important issue in epidemi...
BACKGROUND: Several statistical approaches have been proposed to assess and correct for exposure mea...
In epidemiological studies of an exposure-response association, often only a mismeasured exposure is...
PURPOSE OF REVIEW: Measurement error threatens public health by producing bias in estimates of the p...
In many epidemiological studies the risk factor or exposure of interest is measured with significant...
and Y. Wax. The impact of dietary measurement error on planning sample size required in a cohort stu...
In observational epidemiology many studies rely on self-reported exposure information, which is pron...
Measurement error in self-reported dietary intakes is known to bias the association between dietary ...
Three types of issues need to be considered in the application of epidemiology results to individual...
Background: Measurement error in self-reported dietary intakes is known to bias the association betw...
Error in measurement is inevitable in epidemiological study. According to the classical regression m...
measurement errors, risk estimate and statistical power in case-control studies using dichotomous an...
Background: Several statistical approaches have been proposed to assess and correct for exposure mea...
Exposure assessment is a key aspect of environmental epidemiology. In standard statistical analysis,...
Epidemiologists are often confronted with datasets to analyse which contain measurement error due to...
<strong>Background </strong>Measurement error in exposure variables is an important issue in epidemi...
BACKGROUND: Several statistical approaches have been proposed to assess and correct for exposure mea...
In epidemiological studies of an exposure-response association, often only a mismeasured exposure is...
PURPOSE OF REVIEW: Measurement error threatens public health by producing bias in estimates of the p...
In many epidemiological studies the risk factor or exposure of interest is measured with significant...
and Y. Wax. The impact of dietary measurement error on planning sample size required in a cohort stu...
In observational epidemiology many studies rely on self-reported exposure information, which is pron...
Measurement error in self-reported dietary intakes is known to bias the association between dietary ...
Three types of issues need to be considered in the application of epidemiology results to individual...
Background: Measurement error in self-reported dietary intakes is known to bias the association betw...