Natalie Ebert1, Amina Loesment1, Peter Martus2, Olga Jakob3, Jens Gaedeke4, Martin Kuhlmann5, Jan Bartel6, Mirjam Schuchardt7, Markus Tölle7, Tao Huang7, Markus van der Giet7, Elke Schaeffner1. 1. Division of Nephrology, Charité University Medicine, Campus Virchow, Berlin, Germany. 2. Institute of Clinical Epidemiology and Medical Biostatistics, University of Tübingen, Tübingen, Germany. 3. Institute of Biostatistics and Clinical Epidemiology, Charité, Berlin, Germany. 4. Division of Nephrology, Charité University Medicine, Campus Mitte, Berlin, Germany. 5. Department of Nephrology, Vivantes Klinikum im Friedrichshain, Berlin, Germany. 6. Limbach Laboratory, Heidelberg, Germany. 7. Division of Nephrology, Charité University Medicine Campus Benjamin Franklin, Berlin, Germany.
Abstract
BACKGROUND: Accurate and precise measurement of GFR is important for patients with chronic kidney disease (CKD). Sampling time of exogenous filtration markers may have great impact on measured GFR (mGFR) results, but there is still uncertainty about optimal timing of plasma clearance measurement in patients with advanced CKD, for whom 24-h measurement is recommended. This satellite project of the Berlin Initiative Study evaluates whether 24-h iohexol plasma clearance reveals a clinically relevant difference compared with 5-h measurement in older adults. METHODS: In 104 participants with a mean age of 79 years and diagnosed CKD, we performed standard GFR measurement over 5 h (mGFR300) using iohexol plasma concentrations at 120, 180, 240 and 300 min after injection. With an additional sample at 1440 min, we assessed 24-h GFR measurement (mGFR1440). Study design was cross-sectional. Calculation of mGFR was conducted with a one compartment model using the Brochner-Mortensen equation to calculate the fast component. mGFR values were compared with estimated GFR values (MDRD, CKD-EPI, BIS1, Revised Lund-Malmö and Cockcroft-Gault). RESULTS: In all 104 subjects, mGFR1440 was lower than mGFR300 (23 ± 8 versus 29 ± 9 mL/min/1.73 m(2), mean ± SD; P < 0.001). mGFR1440 was highly correlated with mGFR300 (r = 0.9). The mean absolute difference mGFR300 - mGFR1440 was 5.9 mL/min/1.73 m(2) corresponding to a mean percentage difference of 29%. In individuals with eGFRCKD-EPI ≤ 30 mL/min/1.73 m(2), percentage difference of mGFR300 and mGFR1440 was even higher (35%). To predict mGFR1440 from mGFR300, we developed the correction formula: mGFR1440 = -2.175 + 0.871 × mGFR300 (1-fold standard error of estimate: ±2.3 mL/min/1.73 m(2)). The GFR estimating equation with the best accuracy and precision compared with mGFR300 and mGFR1440 was the Revised Lund Malmö. CONCLUSIONS: In elderly CKD patients, measurement of iohexol clearance up to 5 h leads to a clinically relevant overestimation of GFR compared with 24-h measurement. In clinical care, this effect should be bore in mind especially for patients with considerably reduced GFR levels. A new correction formula has been developed to predict mGFR1440 from mGFR300. For accurate GFR estimates in elderly CKD patients, we recommend the Revised Lund Malmö equation.
BACKGROUND: Accurate and precise measurement of GFR is important for patients with chronic kidney disease (CKD). Sampling time of exogenous filtration markers may have great impact on measured GFR (mGFR) results, but there is still uncertainty about optimal timing of plasma clearance measurement in patients with advanced CKD, for whom 24-h measurement is recommended. This satellite project of the Berlin Initiative Study evaluates whether 24-h iohexol plasma clearance reveals a clinically relevant difference compared with 5-h measurement in older adults. METHODS: In 104 participants with a mean age of 79 years and diagnosed CKD, we performed standard GFR measurement over 5 h (mGFR300) using iohexol plasma concentrations at 120, 180, 240 and 300 min after injection. With an additional sample at 1440 min, we assessed 24-h GFR measurement (mGFR1440). Study design was cross-sectional. Calculation of mGFR was conducted with a one compartment model using the Brochner-Mortensen equation to calculate the fast component. mGFR values were compared with estimated GFR values (MDRD, CKD-EPI, BIS1, Revised Lund-Malmö and Cockcroft-Gault). RESULTS: In all 104 subjects, mGFR1440 was lower than mGFR300 (23 ± 8 versus 29 ± 9 mL/min/1.73 m(2), mean ± SD; P < 0.001). mGFR1440 was highly correlated with mGFR300 (r = 0.9). The mean absolute difference mGFR300 - mGFR1440 was 5.9 mL/min/1.73 m(2) corresponding to a mean percentage difference of 29%. In individuals with eGFRCKD-EPI ≤ 30 mL/min/1.73 m(2), percentage difference of mGFR300 and mGFR1440 was even higher (35%). To predict mGFR1440 from mGFR300, we developed the correction formula: mGFR1440 = -2.175 + 0.871 × mGFR300 (1-fold standard error of estimate: ±2.3 mL/min/1.73 m(2)). The GFR estimating equation with the best accuracy and precision compared with mGFR300 and mGFR1440 was the Revised Lund Malmö. CONCLUSIONS: In elderly CKD patients, measurement of iohexol clearance up to 5 h leads to a clinically relevant overestimation of GFR compared with 24-h measurement. In clinical care, this effect should be bore in mind especially for patients with considerably reduced GFR levels. A new correction formula has been developed to predict mGFR1440 from mGFR300. For accurate GFR estimates in elderly CKD patients, we recommend the Revised Lund Malmö equation.
Authors: Ulf Nyman; Joanna Ahlkvist; Peter Aspelin; Torkel Brismar; Anders Frid; Mikael Hellström; Per Liss; Gunnar Sterner; Peter Leander Journal: Eur Radiol Date: 2018-08-21 Impact factor: 5.315
Authors: Max Taubert; Natalie Ebert; Peter Martus; Markus van der Giet; Uwe Fuhr; Elke Schaeffner Journal: Sci Rep Date: 2018-12-07 Impact factor: 4.379
Authors: Natalie Ebert; Camilla Koep; Kristin Schwarz; Peter Martus; Nina Mielke; Jan Bartel; Martin Kuhlmann; Jens Gaedeke; Markus Toelle; Markus van der Giet; Mirjam Schuchardt; Elke Schaeffner Journal: Sci Rep Date: 2017-10-04 Impact factor: 4.379
Authors: Anders Åsberg; Anna Bjerre; Runar Almaas; Sergio Luis-Lima; Ida Robertsen; Cathrin Lytomt Salvador; Esteban Porrini; George J Schwartz; Anders Hartmann; Stein Bergan Journal: Kidney Int Rep Date: 2019-12-06