Development and validation of GFR-estimating equations using diabetes, transplant and weight

Research output: Contribution to journalJournal articleResearchpeer-review

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Development and validation of GFR-estimating equations using diabetes, transplant and weight. / Stevens, L.A.; Schmid, C.H.; Zhang, Y.L.; Coresh, J.; Manzi, J.; Landis, R.; Bakoush, O.; Contreras, G.; Genuth, S.; Klintmalm, G.B.; Poggio, E.; Rossing, P.; Rule, A.D.; Weir, M.R.; Kusek, J.; Greene, T.; Levey, A.S.

In: Nephrology, Dialysis, Transplantation, 2009.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Stevens, LA, Schmid, CH, Zhang, YL, Coresh, J, Manzi, J, Landis, R, Bakoush, O, Contreras, G, Genuth, S, Klintmalm, GB, Poggio, E, Rossing, P, Rule, AD, Weir, MR, Kusek, J, Greene, T & Levey, AS 2009, 'Development and validation of GFR-estimating equations using diabetes, transplant and weight', Nephrology, Dialysis, Transplantation.

APA

Stevens, L. A., Schmid, C. H., Zhang, Y. L., Coresh, J., Manzi, J., Landis, R., Bakoush, O., Contreras, G., Genuth, S., Klintmalm, G. B., Poggio, E., Rossing, P., Rule, A. D., Weir, M. R., Kusek, J., Greene, T., & Levey, A. S. (2009). Development and validation of GFR-estimating equations using diabetes, transplant and weight. Nephrology, Dialysis, Transplantation.

Vancouver

Stevens LA, Schmid CH, Zhang YL, Coresh J, Manzi J, Landis R et al. Development and validation of GFR-estimating equations using diabetes, transplant and weight. Nephrology, Dialysis, Transplantation. 2009.

Author

Stevens, L.A. ; Schmid, C.H. ; Zhang, Y.L. ; Coresh, J. ; Manzi, J. ; Landis, R. ; Bakoush, O. ; Contreras, G. ; Genuth, S. ; Klintmalm, G.B. ; Poggio, E. ; Rossing, P. ; Rule, A.D. ; Weir, M.R. ; Kusek, J. ; Greene, T. ; Levey, A.S. / Development and validation of GFR-estimating equations using diabetes, transplant and weight. In: Nephrology, Dialysis, Transplantation. 2009.

Bibtex

@article{2a0d94e089c511df928f000ea68e967b,
title = "Development and validation of GFR-estimating equations using diabetes, transplant and weight",
abstract = "BACKGROUND: We have reported a new equation (CKD-EPI equation) that reduces bias and improves accuracy for GFR estimation compared to the MDRD study equation while using the same four basic predictor variables: creatinine, age, sex and race. Here, we describe the development and validation of this equation as well as other equations that incorporate diabetes, transplant and weight as additional predictor variables. METHODS: Linear regression was used to relate log-measured GFR (mGFR) to sex, race, diabetes, transplant, weight, various transformations of creatinine and age with and without interactions. Equations were developed in a pooled database of 10 studies [2/3 (N = 5504) for development and 1/3 (N = 2750) for internal validation], and final model selection occurred in 16 additional studies [external validation (N = 3896)]. RESULTS: The mean mGFR was 68, 67 and 68 ml/min/ 1.73 m(2) in the development, internal validation and external validation datasets, respectively. In external validation, an equation that included a linear age term and spline terms in creatinine to account for a reduction in the magnitude of the slope at low serum creatinine values exhibited the best performance (bias = 2.5, RMSE = 0.250) among models using the four basic predictor variables. Addition of terms for diabetes and transplant did not improve performance. Equations with weight showed a small improvement in the subgroup with BMI <20 kg/m(2). CONCLUSIONS: The CKD-EPI equation, based on creatinine, age, sex and race, has been validated and is more accurate than the MDRD study equation. The addition of weight, diabetes and transplant does not significantly improve equation performance Udgivelsesdato: 2009/9/30",
author = "L.A. Stevens and C.H. Schmid and Y.L. Zhang and J. Coresh and J. Manzi and R. Landis and O. Bakoush and G. Contreras and S. Genuth and G.B. Klintmalm and E. Poggio and P. Rossing and A.D. Rule and M.R. Weir and J. Kusek and T. Greene and A.S. Levey",
note = "DA - 20091001IS - 1460-2385 (Electronic)IS - 1460-2385 (Linking)LA - ENGPT - JOURNAL ARTICLE",
year = "2009",
language = "English",
journal = "Nephrology, Dialysis, Transplantation",
issn = "0931-0509",
publisher = "Oxford University Press",

}

RIS

TY - JOUR

T1 - Development and validation of GFR-estimating equations using diabetes, transplant and weight

AU - Stevens, L.A.

AU - Schmid, C.H.

AU - Zhang, Y.L.

AU - Coresh, J.

AU - Manzi, J.

AU - Landis, R.

AU - Bakoush, O.

AU - Contreras, G.

AU - Genuth, S.

AU - Klintmalm, G.B.

AU - Poggio, E.

AU - Rossing, P.

AU - Rule, A.D.

AU - Weir, M.R.

AU - Kusek, J.

AU - Greene, T.

AU - Levey, A.S.

N1 - DA - 20091001IS - 1460-2385 (Electronic)IS - 1460-2385 (Linking)LA - ENGPT - JOURNAL ARTICLE

PY - 2009

Y1 - 2009

N2 - BACKGROUND: We have reported a new equation (CKD-EPI equation) that reduces bias and improves accuracy for GFR estimation compared to the MDRD study equation while using the same four basic predictor variables: creatinine, age, sex and race. Here, we describe the development and validation of this equation as well as other equations that incorporate diabetes, transplant and weight as additional predictor variables. METHODS: Linear regression was used to relate log-measured GFR (mGFR) to sex, race, diabetes, transplant, weight, various transformations of creatinine and age with and without interactions. Equations were developed in a pooled database of 10 studies [2/3 (N = 5504) for development and 1/3 (N = 2750) for internal validation], and final model selection occurred in 16 additional studies [external validation (N = 3896)]. RESULTS: The mean mGFR was 68, 67 and 68 ml/min/ 1.73 m(2) in the development, internal validation and external validation datasets, respectively. In external validation, an equation that included a linear age term and spline terms in creatinine to account for a reduction in the magnitude of the slope at low serum creatinine values exhibited the best performance (bias = 2.5, RMSE = 0.250) among models using the four basic predictor variables. Addition of terms for diabetes and transplant did not improve performance. Equations with weight showed a small improvement in the subgroup with BMI <20 kg/m(2). CONCLUSIONS: The CKD-EPI equation, based on creatinine, age, sex and race, has been validated and is more accurate than the MDRD study equation. The addition of weight, diabetes and transplant does not significantly improve equation performance Udgivelsesdato: 2009/9/30

AB - BACKGROUND: We have reported a new equation (CKD-EPI equation) that reduces bias and improves accuracy for GFR estimation compared to the MDRD study equation while using the same four basic predictor variables: creatinine, age, sex and race. Here, we describe the development and validation of this equation as well as other equations that incorporate diabetes, transplant and weight as additional predictor variables. METHODS: Linear regression was used to relate log-measured GFR (mGFR) to sex, race, diabetes, transplant, weight, various transformations of creatinine and age with and without interactions. Equations were developed in a pooled database of 10 studies [2/3 (N = 5504) for development and 1/3 (N = 2750) for internal validation], and final model selection occurred in 16 additional studies [external validation (N = 3896)]. RESULTS: The mean mGFR was 68, 67 and 68 ml/min/ 1.73 m(2) in the development, internal validation and external validation datasets, respectively. In external validation, an equation that included a linear age term and spline terms in creatinine to account for a reduction in the magnitude of the slope at low serum creatinine values exhibited the best performance (bias = 2.5, RMSE = 0.250) among models using the four basic predictor variables. Addition of terms for diabetes and transplant did not improve performance. Equations with weight showed a small improvement in the subgroup with BMI <20 kg/m(2). CONCLUSIONS: The CKD-EPI equation, based on creatinine, age, sex and race, has been validated and is more accurate than the MDRD study equation. The addition of weight, diabetes and transplant does not significantly improve equation performance Udgivelsesdato: 2009/9/30

M3 - Journal article

JO - Nephrology, Dialysis, Transplantation

JF - Nephrology, Dialysis, Transplantation

SN - 0931-0509

ER -

ID: 20688299