Your search keyword '"den Bakker, Emil"' showing total 6 results

1. Combining GFR estimates from cystatin C and creatinine—what is the optimal mix?

Author

den Bakker, Emil, Gemke, Reinoud, van Wijk, Joanna A. E., Hubeek, Isabelle, Stoffel-Wagner, Birgit, and Bökenkamp, Arend

Published

2018

2. Concordance between creatinine- and cystatin C-based eGFR in clinical practice.

Author

den Bakker, Emil, Musters, Marin, Hubeek, Isabelle, van Wijk, Joanna A. E., Gemke, Reinoud J. B. J., and Bokenkamp, Arend

Subjects

*CREATININE, *CYSTATIN C, *GLOMERULAR filtration rate, *PEDIATRIC nephrology, *BODY mass index

Abstract

The mean of GFR-estimates based on serum creatinine (eGFRcrea) and cystatin C (eGFRcys) has superior accuracy than each estimate alone. Recent studies have shown that agreement between eGFRcrea and eGFRcys is an indicator for the accuracy of the mean of the two estimates. As long as the difference between the two (|ΔeGFR|) is below 40%, a high P30 accuracy rate of more than 90% was documented in research settings using gold-standard GFR measurements. This was the case in approximately 80% of the measurements. The study was set out to explore |ΔeGFR| in a broader pediatric nephrological population and identify factors influencing the discrepancy between eGFRcrea and eGFRcys. We retrospectively analyzed 1596 simultaneous cystatin C and creatinine measurements in 649 unique patients at the pediatric nephrology outpatient clinic of VU university medical center. The FASage equation was used to calculate eGFRcrea, FAScys for eGFRcys. |ΔeGFR| was calculated as 100x(|eGFRcrea-eGFRcys|)/(0.5x(eGFRcrea+eGFRcys). ΔeGFR below 40% was considered high agreement. Patient characteristics like age, diagnosis, glucocorticosteroid use, eGFR, BMI and sex were analyzed for their effect on ΔeGFR below or above 40% using non-parametric tests and a potential explanation for measurements with low agreement was sought. Eighty-seven percent of the population had a |ΔeGFR| lower than 40%. Measurements with |ΔeGFR| above 40% were significantly more frequent from patients with neural tube defects. In 102 out of 208 measurements with low agreement, a potential explanation was found. In a broad pediatric nephrological population, |ΔeGFR| is below 40% in the vast majority of measurements. In this group, the mean of eGFRcrea and eGFRcys can be used as an accurate estimate of GFR. [ABSTRACT FROM AUTHOR]

Published

2021

3. Endogenous markers for kidney function in children: a review.

Author

den Bakker, Emil, Gemke, Reinoud J. B. J., and Bökenkamp, Arend

Subjects

*KIDNEY physiology, *BIOMARKERS, *BLOOD proteins, *CREATININE, *DIET, *GLOBULINS, *GLOMERULAR filtration rate, *UREA, *CYSTATINS, *BLOOD, *CHILDREN

Abstract

Although glomerular filtration rate (GFR) in children can be measured using a gold-standard technique following injection of an exogenous marker, this invasive and cumbersome technique is not widely available and GFR is commonly estimated using serum levels of endogenous markers. Creatinine, urea, cystatin C, beta-trace protein, and beta-2 microglobulin are well-established endogenous markers of kidney function. These markers differ in site of production and effects of diet and medication, as well as renal-tubular handling and extra-renal elimination. For each marker, different methods are available for measurement. Importantly, the measurements of creatinine and cystatin C have recently been standardized with the introduction of international reference standards. In order to allow estimation of GFR from serum marker concentrations, different equations for estimated GFR (eGFR) have been developed in children, using simple or more complex regression strategies with gold standard GFR measurements as a dependent variable. As a rule, estimation strategies relying on more than one marker - either by calculating the average of single parameter equations or by using more complex equations incorporating several parameters - outperform eGFR estimations using only a single marker. This in-depth review will discuss the physiology, measurement and clinical use of creatinine, urea, cystatin C, beta-trace protein, and beta-2 microglobulin in children. It will also address the generation of eGFR equations in children and provide an overview of currently available eGFR equations for the pediatric age group. [ABSTRACT FROM AUTHOR]

Published

2018

4. Accurate eGFR reporting for children without anthropometric data.

Author

den Bakker, Emil, Gemke, Reinoud, van Wijk, Joanna A.E., Hubeek, Isabelle, Stoffel-Wagner, Birgit, Grubb, Anders, and Bökenkamp, Arend

Subjects

*GLOMERULAR filtration rate, *CHILDREN, *BLOOD serum analysis, *CREATININE, *CYSTATINS, *ANTHROPOMETRY

Abstract

Introduction Reporting estimated glomerular filtration rate (eGFR) instead of serum concentrations is advised in current guidelines. Most creatinine-based eGFR equations for children require height, a parameter not readily available to laboratories. Combining height-dependent creatinine- and cystatin C-based eGFR improves performance. Recently, a height- independent creatinine-based eGFR equation has been developed. Aim To compare the combination of height -independent creatinine- and cystatin C-based equations with a combination of equations using anthropometric data. Methods Retrospective analysis of 408 pediatric inulin clearance studies with simultaneous height, creatinine, cystatin C and urea measurements. eGFR calculation using the recalibrated Schwartz crea (height-dependent), FASage (height-independent) and the Schwartz cys equation. The means (Schwartz crea + Schwartz cys ) / 2 and (FASage + Schwartz cys ) / 2 were compared with the CKiD3 equation incorporating cystatin C, creatinine, urea, height and gender in terms of %prediction error and accuracy. Results All three single parameter equations performed similarly (P 30 accuracy around 80%). (FASage + Schwartz cys ) / 2 (P 30 89.2%) and (Schwartz crea + Schwartz cys ) / 2 (P 30 89.0%), performed comparably to CKiD3 (P 30 90.0%). If the difference between the creatinine- and the cystatine C based eGFR was < 40%, P 30 accuracy of the mean exceeded 90%. Conclusion Combining the height-independent FASage and Schwartz Cys equations substantially improves accuracy and performs comparably to height-dependent equations. This allows laboratories to directly report eGFR in children. [ABSTRACT FROM AUTHOR]

Published

2017

5. Estimating glomerular filtration rate (GFR) in children. The average between a cystatin C- and a creatinine-based equation improves estimation of GFR in both children and adults and enables diagnosing Shrunken Pore Syndrome.

Author

Leion, Felicia, Hegbrant, Josefine, den Bakker, Emil, Jonsson, Magnus, Abrahamson, Magnus, Nyman, Ulf, Björk, Jonas, Lindström, Veronica, Larsson, Anders, Bökenkamp, Arend, and Grubb, Anders

Subjects

KIDNEY glomerulus diseases, GLOMERULAR filtration rate, CYSTATINS, CREATININE, CHILDREN'S health, HEALTH of adults

Abstract

Estimating glomerular filtration rate (GFR) in adults by using the average of values obtained by a cystatin C- (eGFRcystatin C) and a creatinine-based (eGFRcreatinine) equation shows at least the same diagnostic performance as GFR estimates obtained by equations using only one of these analytes or by complex equations using both analytes. Comparison of eGFRcystatin C and eGFRcreatinine plays a pivotal role in the diagnosis of Shrunken Pore Syndrome, where low eGFRcystatin C compared to eGFRcreatinine has been associated with higher mortality in adults. The present study was undertaken to elucidate if this concept can also be applied in children. Using iohexol and inulin clearance as gold standard in 702 children, we studied the diagnostic performance of 10 creatinine-based, 5 cystatin C-based and 3 combined cystatin C-creatinine eGFR equations and compared them to the result of the average of 9 pairs of a eGFRcystatin C and a eGFRcreatinine estimate. While creatinine-based GFR estimations are unsuitable in children unless calibrated in a pediatric or mixed pediatric-adult population, cystatin C-based estimations in general performed well in children. The average of a suitable creatinine-based and a cystatin C-based equation generally displayed a better diagnostic performance than estimates obtained by equations using only one of these analytes or by complex equations using both analytes. Comparing eGFRcystatin and eGFRcreatinine may help identify pediatric patients with Shrunken Pore Syndrome. [ABSTRACT FROM AUTHOR]

Published

2017

6. Carboplatin Dosing in Children Using Estimated Glomerular Filtration Rate: Equation Matters.

Author

van de Velde, Mirjam E., den Bakker, Emil, Blufpand, Hester N., Kaspers, Gertjan L., Abbink, Floor C. H., Kors, Arjenne W. A., Wilhelm, Abraham J., Honeywell, Richard J., Peters, Godefridus J., Stoffel-Wagner, Birgit, Buffart, Laurien M., and Bökenkamp, Arend

Subjects

*GLOMERULAR filtration rate, *CARBOPLATIN, *CYSTATINS, *ANTHROPOMETRY, *PHARMACEUTICAL arithmetic, *DESCRIPTIVE statistics, *RETINOBLASTOMA, *STATISTICAL models, *RECEIVER operating characteristic curves, *CREATININE, *CHILDREN, RESEARCH evaluation

Abstract

Simple Summary: Carboplatin is a chemotherapeutic agent that is usually dosed based on body surface area or weight. However, carboplatin is cleared from the body by the kidneys. Therefore, taking the patient's kidney function into account to calculate the adequate dose of carboplatin might result in a better exposure of carboplatin within a patient. In this study we sought to validate a carboplatin dosing method based on kidney function and compare several methods for kidney function-based carboplatin dosing in children suffering from retinoblastoma. We were able to show that carboplatin dosing based on a marker of kidney function (cystatin C) resulted in more adequate dosing than dosing on body surface area or weight. Renal function-based carboplatin dosing using measured glomerular filtration rate (GFR) results in more consistent drug exposure than anthropometric dosing. We aimed to validate the Newell dosing equation using estimated GFR (eGFR) and study which equation most accurately predicts carboplatin clearance in children with retinoblastoma. In 13 children with retinoblastoma 38 carboplatin clearance values were obtained from individual fits using MWPharm++. Carboplatin exposure (AUC) was calculated from administered dose and observed carboplatin clearance and compared to predicted AUC calculated with a carboplatin dosing equation (Newell) using different GFR estimates. Different dosing regimens were compared in terms of accuracy, bias and precision. All patients had normal eGFR. Carboplatin exposure using cystatin C-based eGFR equations tended to be more accurate compared to creatinine-based eGFR (30% accuracy 76.3–89.5% versus 76.3–78.9%, respectively), which led to significant overexposure, especially in younger (aged ≤ 2 years) children. Of all equations, the Schwartz cystatin C-based equation had the highest accuracy and lowest bias. Although anthropometric dosing performed comparably to many of the eGFR equations overall, we observed a weight-dependent change in bias leading to underdosing in the smallest patients. Using cystatin C-based eGFR equations for carboplatin dosing in children leads to more accurate carboplatin-exposure in patients with normal renal function compared to anthropometric dosing. In children with impaired kidney function, this trend might be more pronounced. Anthropometric dosing is hampered by a weight-dependent bias. [ABSTRACT FROM AUTHOR]

Published

2021