Correction for regression dilution bias using replicates from subjects with extreme first measurements

The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra‐individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate...

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Published in	Statistics in medicine Vol. 26; no. 10; pp. 2246 - 2257
Main Authors	Berglund, Lars, Garmo, Hans, Lindbäck, Johan, Zethelius, Björn
Format	Journal Article
Language	English
Published	Chichester, UK John Wiley & Sons, Ltd 10.05.2007 Wiley Subscription Services, Inc
Subjects	Aged Biomedical Research - statistics & numerical data corrected regression coefficient Corrections Data Interpretation, Statistical Estimation bias extreme selection Humans insulin sensitivity Male Medical statistics MEDICIN MEDICINE Models, Statistical Monte Carlo Method Monte Carlo simulation Patient Selection Regression Analysis regression dilution bias reliability study Reproducibility of Results Sweden Sweden
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ISSN	0277-6715 1097-0258 1097-0258
DOI	10.1002/sim.2698

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Abstract	The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra‐individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study. We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population‐based ULSAM study. In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision. Copyright © 2006 John Wiley & Sons, Ltd.
AbstractList	The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra‐individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study. We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population‐based ULSAM study. In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision. Copyright © 2006 John Wiley & Sons, Ltd. The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra-individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study.We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population-based ULSAM study.In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision. The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra-individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study. We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population-based ULSAM study. In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision. [PUBLICATION ABSTRACT] The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra-individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study. We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population-based ULSAM study. In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision.The least squares estimator of the slope in a simple linear regression model will be biased towards zero when the predictor is measured with random error, i.e. intra-individual variation or technical measurement error. A correction factor can be estimated from a reliability study where one replicate is available on a subset of subjects from the main study. Previous work in this field has assumed that the reliability study constitutes a random subsample from the main study. We propose that a more efficient design is to collect replicates for subjects with extreme values on their first measurement. A variance formula for this estimator of the correction factor is presented. The variance for the corrected estimated regression coefficient for the extreme selection technique is also derived and compared with random subsampling. Results show that variances for corrected regression coefficients can be markedly reduced with extreme selection. The variance gain can be estimated from the main study data. The results are illustrated using Monte Carlo simulations and an application on the relation between insulin sensitivity and fasting insulin using data from the population-based ULSAM study. In conclusion, an investigator faced with the planning of a reliability study may wish to consider an extreme selection design in order to improve precision at a given number of subjects or alternatively decrease the number of subjects at a given precision.
Author	Zethelius, Björn Garmo, Hans Lindbäck, Johan Berglund, Lars
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Cites_doi	10.1002/9780470316665 10.2307/2529110 10.2337/diacare.27.6.1433 10.1046/j.1365-2796.1999.00549.x 10.1002/(SICI)1097-0258(20000615/30)19:11/12<1441::AID-SIM436>3.0.CO;2-H 10.1210/jcem.86.11.7880 10.1016/0140-6736(90)90878-9 10.1111/1467-985X.00164 10.2307/2529714 10.2307/2527855 10.1203/00006450-200107000-00021 10.2307/2286454 10.1093/oxfordjournals.aje.a116453 10.3102/10769986012003282 10.1136/bmj.312.7041.1249
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References	Fuller WA. Measurement Error Models. Wiley: New York, 1987; 3, 89. Mather KJ, Hunt AE, Steinberg HO, Paradisi G, Hook G, Katz A, Quon MJ, Baron AD. Repeatability characteristics of simple indices of insulin resistance: implications for research applications. Journal of Clinical Endocrinology and Metabolism 2001; 86(11):5457-5464. Sunehag AL, Treuth MS, Toffolo G, Butte NF, Cobelli C, Bier DM, Haymond MW. Glucose production, gluconeogenesis, and insulin sensitivity in children and adolescents: an evaluation of their reproducibility. Pediatric Research 2001; 50(1):115-123. Edland SD. Blomqvist revisited: how and when to test the relationship between level and longitudinal rate of change. Statistics in Medicine 2000; 19(11-12):1441-1452. Rosner B, Spiegelman D, Willett WC. Correction of logistic regression relative risk estimates and confidence intervals for random within-person measurement error. American Journal of Epidemiology 1992; 136(11):1400-1413. Zethelius B, Hales CN, Lithell HO, Berne C. Insulin resistance, impaired early insulin response, and insulin propeptides as predictors of the development of type 2 diabetes: a population-based, 7-year follow-up study in 70-year-old men. Diabetes Care 2004; 27(6):1433-1438. MacMahon S, Peto R, Cutler J, Collins R, Sorlie P, Neaton J, Abbott R, Godwin J, Dyer A, Stamler J. Blood pressure, stroke, and coronary heart disease. Part 1. Prolonged differences in blood pressure: prospective observational studies corrected for the regression dilution bias. Lancet 1990; 31(335(8692)):765-774. Elliott P, Stamler J, Nichols R, Dyer AR, Stamler R, Kesteloot H, Marmot M. Intersalt revisited: further analyses of 24 hour sodium excretion and blood pressure within and across populations. Intersalt Cooperative Research Group. BMJ 1996; 18(312(7041)):1249-1253. Hill WG. Design of experiments to estimate heritability by regression of offspring on selected parents. Biometrics 1970; 26(3):566-571. Burrows PM. Variances of selection differentials in normal samples. Biometrics 1975; 31(1):125-133. Blomqvist N. On the relationship between change and initial value. Journal of the American Statistical Association 1977; 72:746-749. Kendall M, Stuart A. The Advanced Theory of Statistics (4th edn), vol. 2. Griffin: London, 1979; 438-440. Frost C, Thompson SG. Correcting for regression dilution bias: comparison of methods for a single predictor variable. Journal of the Royal Statistical Society, Series A 2000; 163(2):173-189. Mendoza JL, Mumford M. Corrections for attenuation and range restriction on the predictor. Journal of Educational Statistics 1987; 12(3):282-293. Andersson PE, Lind L, Berne C, Berglund L, Lithell HO. Insulin-mediated vasodilation and glucose uptake are independently related to fasting serum nonesterified fatty acids in elderly men. Journal of Internal Medicine 1999; 246(6):529-537. Curnow RN. The estimation of repeatability and heritability from records subject to culling. Biometrics 1961; 17(4):553-566. 1990; 31 1987; 12 2001; 50 1996; 18 2000; 19 2004; 27 1992; 136 1987 1977; 72 2000; 163 1979; 2 1975; 31 1999; 246 1970; 26 2001; 86 1961; 17 Mendoza JL (e_1_2_1_7_2) 1987; 12 Kendall M (e_1_2_1_6_2) 1979 e_1_2_1_4_2 e_1_2_1_5_2 e_1_2_1_2_2 e_1_2_1_11_2 e_1_2_1_3_2 e_1_2_1_12_2 e_1_2_1_10_2 e_1_2_1_15_2 e_1_2_1_16_2 e_1_2_1_13_2 e_1_2_1_14_2 e_1_2_1_8_2 e_1_2_1_17_2 e_1_2_1_9_2
References_xml	– reference: Frost C, Thompson SG. Correcting for regression dilution bias: comparison of methods for a single predictor variable. Journal of the Royal Statistical Society, Series A 2000; 163(2):173-189. – reference: Sunehag AL, Treuth MS, Toffolo G, Butte NF, Cobelli C, Bier DM, Haymond MW. Glucose production, gluconeogenesis, and insulin sensitivity in children and adolescents: an evaluation of their reproducibility. Pediatric Research 2001; 50(1):115-123. – reference: Elliott P, Stamler J, Nichols R, Dyer AR, Stamler R, Kesteloot H, Marmot M. Intersalt revisited: further analyses of 24 hour sodium excretion and blood pressure within and across populations. Intersalt Cooperative Research Group. BMJ 1996; 18(312(7041)):1249-1253. – reference: Mather KJ, Hunt AE, Steinberg HO, Paradisi G, Hook G, Katz A, Quon MJ, Baron AD. Repeatability characteristics of simple indices of insulin resistance: implications for research applications. Journal of Clinical Endocrinology and Metabolism 2001; 86(11):5457-5464. – reference: Hill WG. Design of experiments to estimate heritability by regression of offspring on selected parents. Biometrics 1970; 26(3):566-571. – reference: Mendoza JL, Mumford M. Corrections for attenuation and range restriction on the predictor. Journal of Educational Statistics 1987; 12(3):282-293. – reference: Burrows PM. Variances of selection differentials in normal samples. Biometrics 1975; 31(1):125-133. – reference: Andersson PE, Lind L, Berne C, Berglund L, Lithell HO. Insulin-mediated vasodilation and glucose uptake are independently related to fasting serum nonesterified fatty acids in elderly men. Journal of Internal Medicine 1999; 246(6):529-537. – reference: Kendall M, Stuart A. The Advanced Theory of Statistics (4th edn), vol. 2. Griffin: London, 1979; 438-440. – reference: Rosner B, Spiegelman D, Willett WC. Correction of logistic regression relative risk estimates and confidence intervals for random within-person measurement error. American Journal of Epidemiology 1992; 136(11):1400-1413. – reference: Blomqvist N. On the relationship between change and initial value. Journal of the American Statistical Association 1977; 72:746-749. – reference: Curnow RN. The estimation of repeatability and heritability from records subject to culling. Biometrics 1961; 17(4):553-566. – reference: Edland SD. Blomqvist revisited: how and when to test the relationship between level and longitudinal rate of change. Statistics in Medicine 2000; 19(11-12):1441-1452. – reference: Fuller WA. Measurement Error Models. Wiley: New York, 1987; 3, 89. – reference: MacMahon S, Peto R, Cutler J, Collins R, Sorlie P, Neaton J, Abbott R, Godwin J, Dyer A, Stamler J. Blood pressure, stroke, and coronary heart disease. Part 1. Prolonged differences in blood pressure: prospective observational studies corrected for the regression dilution bias. Lancet 1990; 31(335(8692)):765-774. – reference: Zethelius B, Hales CN, Lithell HO, Berne C. Insulin resistance, impaired early insulin response, and insulin propeptides as predictors of the development of type 2 diabetes: a population-based, 7-year follow-up study in 70-year-old men. Diabetes Care 2004; 27(6):1433-1438. – volume: 2 start-page: 438 year: 1979 end-page: 440 – volume: 31 start-page: 765 issue: 335(8692) year: 1990 end-page: 774 article-title: Blood pressure, stroke, and coronary heart disease. Part 1. Prolonged differences in blood pressure: prospective observational studies corrected for the regression dilution bias publication-title: Lancet – volume: 12 start-page: 282 issue: 3 year: 1987 end-page: 293 article-title: Corrections for attenuation and range restriction on the predictor publication-title: Journal of Educational Statistics – volume: 136 start-page: 1400 issue: 11 year: 1992 end-page: 1413 article-title: Correction of logistic regression relative risk estimates and confidence intervals for random within‐person measurement error publication-title: American Journal of Epidemiology – volume: 163 start-page: 173 issue: 2 year: 2000 end-page: 189 article-title: Correcting for regression dilution bias: comparison of methods for a single predictor variable publication-title: Journal of the Royal Statistical Society, Series A – volume: 86 start-page: 5457 issue: 11 year: 2001 end-page: 5464 article-title: Repeatability characteristics of simple indices of insulin resistance: implications for research applications publication-title: Journal of Clinical Endocrinology and Metabolism – volume: 18 start-page: 1249 issue: 312(7041) year: 1996 end-page: 1253 article-title: Intersalt revisited: further analyses of 24 hour sodium excretion and blood pressure within and across populations. Intersalt Cooperative Research Group publication-title: BMJ – year: 1987 – volume: 50 start-page: 115 issue: 1 year: 2001 end-page: 123 article-title: Glucose production, gluconeogenesis, and insulin sensitivity in children and adolescents: an evaluation of their reproducibility publication-title: Pediatric Research – volume: 72 start-page: 746 year: 1977 end-page: 749 article-title: On the relationship between change and initial value publication-title: Journal of the American Statistical Association – volume: 31 start-page: 125 issue: 1 year: 1975 end-page: 133 article-title: Variances of selection differentials in normal samples publication-title: Biometrics – volume: 17 start-page: 553 issue: 4 year: 1961 end-page: 566 article-title: The estimation of repeatability and heritability from records subject to culling publication-title: Biometrics – volume: 246 start-page: 529 issue: 6 year: 1999 end-page: 537 article-title: Insulin‐mediated vasodilation and glucose uptake are independently related to fasting serum nonesterified fatty acids in elderly men publication-title: Journal of Internal Medicine – volume: 26 start-page: 566 issue: 3 year: 1970 end-page: 571 article-title: Design of experiments to estimate heritability by regression of offspring on selected parents publication-title: Biometrics – volume: 19 start-page: 1441 issue: 11–12 year: 2000 end-page: 1452 article-title: Blomqvist revisited: how and when to test the relationship between level and longitudinal rate of change publication-title: Statistics in Medicine – volume: 27 start-page: 1433 issue: 6 year: 2004 end-page: 1438 article-title: Insulin resistance, impaired early insulin response, and insulin propeptides as predictors of the development of type 2 diabetes: a population‐based, 7‐year follow‐up study in 70‐year‐old men publication-title: Diabetes Care – ident: e_1_2_1_2_2 doi: 10.1002/9780470316665 – ident: e_1_2_1_5_2 doi: 10.2307/2529110 – ident: e_1_2_1_9_2 doi: 10.2337/diacare.27.6.1433 – ident: e_1_2_1_11_2 doi: 10.1046/j.1365-2796.1999.00549.x – ident: e_1_2_1_14_2 doi: 10.1002/(SICI)1097-0258(20000615/30)19:11/12<1441::AID-SIM436>3.0.CO;2-H – ident: e_1_2_1_10_2 doi: 10.1210/jcem.86.11.7880 – ident: e_1_2_1_15_2 doi: 10.1016/0140-6736(90)90878-9 – ident: e_1_2_1_4_2 doi: 10.1111/1467-985X.00164 – ident: e_1_2_1_8_2 doi: 10.2307/2529714 – ident: e_1_2_1_17_2 doi: 10.2307/2527855 – ident: e_1_2_1_12_2 doi: 10.1203/00006450-200107000-00021 – start-page: 438 volume-title: The Advanced Theory of Statistics year: 1979 ident: e_1_2_1_6_2 – ident: e_1_2_1_13_2 doi: 10.2307/2286454 – ident: e_1_2_1_16_2 doi: 10.1093/oxfordjournals.aje.a116453 – volume: 12 start-page: 282 issue: 3 year: 1987 ident: e_1_2_1_7_2 article-title: Corrections for attenuation and range restriction on the predictor publication-title: Journal of Educational Statistics doi: 10.3102/10769986012003282 – ident: e_1_2_1_3_2 doi: 10.1136/bmj.312.7041.1249
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SubjectTerms	Aged Biomedical Research - statistics & numerical data corrected regression coefficient Corrections Data Interpretation, Statistical Estimation bias extreme selection Humans insulin sensitivity Male Medical statistics MEDICIN MEDICINE Models, Statistical Monte Carlo Method Monte Carlo simulation Patient Selection Regression Analysis regression dilution bias reliability study Reproducibility of Results Sweden
Title	Correction for regression dilution bias using replicates from subjects with extreme first measurements
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