Edmund J Lamb, Jonathan Barratt, Elizabeth A Brettell, Paul Cockwell, R Nei Dalton, Jon J Deeks, Gillian Eaglestone, Tracy Pellatt-Higgins, Philip A Kalra, Kamlesh Khunti, Fiona C Loud, Ryan S Ottridge, Aisling Potter, Ceri Rowe, Katie Scandrett, Alice J Sitch, Paul E Stevens, Claire C Sharpe, Bethany Shinkins, Alison Smith, Andrew J Sutton, Maarten W Taal
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Given higher cost of cystatin C, its clinical utility should be validated before widespread introduction into the NHS.</p><p><strong>Objectives: </strong>Primary objectives were to: (1) compare accuracy of glomerular filtration rate equations at baseline and longitudinally in people with stage 3 chronic kidney disease, and test whether accuracy is affected by ethnicity, diabetes, albuminuria and other characteristics; (2) establish the reference change value for significant glomerular filtration rate changes; (3) model disease progression; and (4) explore comparative cost-effectiveness of kidney disease monitoring strategies.</p><p><strong>Design: </strong>A longitudinal, prospective study was designed to: (1) assess accuracy of glomerular filtration rate equations at baseline (<i>n</i> = 1167) and their ability to detect change over 3 years (<i>n</i> = 875); (2) model disease progression predictors in 278 individuals who received additional measurements; (3) quantify glomerular filtration rate variability components (<i>n</i> = 20); and (4) develop a measurement model analysis to compare different monitoring strategy costs (<i>n</i> = 875).</p><p><strong>Setting: </strong>Primary, secondary and tertiary care.</p><p><strong>Participants: </strong>Adults (≥ 18 years) with stage 3 chronic kidney disease.</p><p><strong>Interventions: </strong>Estimated glomerular filtration rate using the Chronic Kidney Disease Epidemiology Collaboration and Modification of Diet in Renal Disease equations.</p><p><strong>Main outcome measures: </strong>Measured glomerular filtration rate was the reference against which estimating equations were compared with accuracy being expressed as P30 (percentage of values within 30% of reference) and progression (variously defined) studied as sensitivity/specificity. A regression model of disease progression was developed and differences for risk factors estimated. Biological variation components were measured and the reference change value calculated. Comparative costs of monitoring with different estimating equations modelled over 10 years were calculated.</p><p><strong>Results: </strong>Accuracy (P30) of all equations was ≥ 89.5%: the combined creatinine-cystatin equation (94.9%) was superior (<i>p</i> < 0.001) to other equations. Within each equation, no differences in P30 were seen across categories of age, gender, diabetes, albuminuria, body mass index, kidney function level and ethnicity. All equations showed poor (< 63%) sensitivity for detecting patients showing kidney function decline crossing clinically significant thresholds (e.g. a 25% decline in function). Consequently, the additional cost of monitoring kidney function annually using a cystatin C-based equation could not be justified (incremental cost per patient over 10 years = £43.32). Modelling data showed association between higher albuminuria and faster decline in measured and creatinine-estimated glomerular filtration rate. Reference change values for measured glomerular filtration rate (%, positive/negative) were 21.5/-17.7, with lower reference change values for estimated glomerular filtration rate.</p><p><strong>Limitations: </strong>Recruitment of people from South Asian and African-Caribbean backgrounds was below the study target.</p><p><strong>Future work: </strong>Prospective studies of the value of cystatin C as a risk marker in chronic kidney disease should be undertaken.</p><p><strong>Conclusions: </strong>Inclusion of cystatin C in glomerular filtration rate-estimating equations marginally improved accuracy but not detection of disease progression. Our data do not support cystatin C use for monitoring of glomerular filtration rate in stage 3 chronic kidney disease.</p><p><strong>Trial registration: </strong>This trial is registered as ISRCTN42955626.</p><p><strong>Funding: </strong>This award was funded by the National Institute for Health and Care Research (NIHR) Health Technology Assessment programme (NIHR award ref: 11/103/01) and is published in full in <i>Health Technology Assessment</i>; Vol. 28, No. 35. 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引用次数: 0
摘要
背景:使用基于肌酐的公式估算肾小球滤过率被广泛用于慢性肾病的管理。在英国,慢性肾脏病流行病学协作组推荐使用肌酐方程。其他已公布的使用胱抑素 C(肾功能的替代标志物)的方程尚未获得广泛的临床认可。鉴于胱抑素 C 的成本较高,在广泛引入国家医疗服务系统之前,应先验证其临床实用性:主要目的是(目标:主要目标是:(1)比较基线和纵向肾小球滤过率方程对 3 期慢性肾脏病患者的准确性,并检验准确性是否受种族、糖尿病、白蛋白尿和其他特征的影响;(2)确定肾小球滤过率显著变化的参考变化值;(3)建立疾病进展模型;(4)探讨肾脏病监测策略的成本效益比较:设计:一项纵向前瞻性研究旨在(设计:这项纵向前瞻性研究旨在:(1)评估基线肾小球滤过率方程的准确性(n = 1167)及其检测 3 年变化的能力(n = 875);(2)为接受额外测量的 278 人建立疾病进展预测模型;(3)量化肾小球滤过率变异成分(n = 20);以及(4)开发测量模型分析,以比较不同监测策略的成本(n = 875):环境:初级、二级和三级医疗机构:干预措施:采用慢性肾脏病流行病学协作组和肾脏病饮食调整方程估算肾小球滤过率:以测量的肾小球滤过率为参照,对估算方程进行比较,准确性以 P30(参照值 30% 以内的百分比)表示,进展情况(定义各异)以敏感性/特异性表示。建立了疾病进展回归模型,并估算了风险因素的差异。测量生物变异成分并计算参考变化值。计算了使用不同估算方程模拟 10 年的监测成本比较:所有方程的准确度(P30)均≥89.5%:肌酐-胱抑素联合方程(94.9%)更优(P 限制):南亚和非洲-加勒比背景人群的招募低于研究目标:未来工作:应对胱抑素 C 作为慢性肾脏病风险标志物的价值进行前瞻性研究:结论:在肾小球滤过率估算公式中加入胱抑素 C 可略微提高准确性,但不能提高疾病进展的检测率。我们的数据不支持将胱抑素 C 用于监测慢性肾脏病三期患者的肾小球滤过率:该试验的注册号为 ISRCTN42955626:该奖项由美国国家健康与护理研究所(NIHR)健康技术评估项目资助(NIHR奖项编号:11/103/01),全文发表于《健康技术评估》(Health Technology Assessment)第28卷第35期。更多奖项信息请参阅 NIHR Funding and Awards 网站。
Accuracy of glomerular filtration rate estimation using creatinine and cystatin C for identifying and monitoring moderate chronic kidney disease: the eGFR-C study.
Background: Estimation of glomerular filtration rate using equations based on creatinine is widely used to manage chronic kidney disease. In the UK, the Chronic Kidney Disease Epidemiology Collaboration creatinine equation is recommended. Other published equations using cystatin C, an alternative marker of kidney function, have not gained widespread clinical acceptance. Given higher cost of cystatin C, its clinical utility should be validated before widespread introduction into the NHS.
Objectives: Primary objectives were to: (1) compare accuracy of glomerular filtration rate equations at baseline and longitudinally in people with stage 3 chronic kidney disease, and test whether accuracy is affected by ethnicity, diabetes, albuminuria and other characteristics; (2) establish the reference change value for significant glomerular filtration rate changes; (3) model disease progression; and (4) explore comparative cost-effectiveness of kidney disease monitoring strategies.
Design: A longitudinal, prospective study was designed to: (1) assess accuracy of glomerular filtration rate equations at baseline (n = 1167) and their ability to detect change over 3 years (n = 875); (2) model disease progression predictors in 278 individuals who received additional measurements; (3) quantify glomerular filtration rate variability components (n = 20); and (4) develop a measurement model analysis to compare different monitoring strategy costs (n = 875).
Interventions: Estimated glomerular filtration rate using the Chronic Kidney Disease Epidemiology Collaboration and Modification of Diet in Renal Disease equations.
Main outcome measures: Measured glomerular filtration rate was the reference against which estimating equations were compared with accuracy being expressed as P30 (percentage of values within 30% of reference) and progression (variously defined) studied as sensitivity/specificity. A regression model of disease progression was developed and differences for risk factors estimated. Biological variation components were measured and the reference change value calculated. Comparative costs of monitoring with different estimating equations modelled over 10 years were calculated.
Results: Accuracy (P30) of all equations was ≥ 89.5%: the combined creatinine-cystatin equation (94.9%) was superior (p < 0.001) to other equations. Within each equation, no differences in P30 were seen across categories of age, gender, diabetes, albuminuria, body mass index, kidney function level and ethnicity. All equations showed poor (< 63%) sensitivity for detecting patients showing kidney function decline crossing clinically significant thresholds (e.g. a 25% decline in function). Consequently, the additional cost of monitoring kidney function annually using a cystatin C-based equation could not be justified (incremental cost per patient over 10 years = £43.32). Modelling data showed association between higher albuminuria and faster decline in measured and creatinine-estimated glomerular filtration rate. Reference change values for measured glomerular filtration rate (%, positive/negative) were 21.5/-17.7, with lower reference change values for estimated glomerular filtration rate.
Limitations: Recruitment of people from South Asian and African-Caribbean backgrounds was below the study target.
Future work: Prospective studies of the value of cystatin C as a risk marker in chronic kidney disease should be undertaken.
Conclusions: Inclusion of cystatin C in glomerular filtration rate-estimating equations marginally improved accuracy but not detection of disease progression. Our data do not support cystatin C use for monitoring of glomerular filtration rate in stage 3 chronic kidney disease.
Trial registration: This trial is registered as ISRCTN42955626.
Funding: This award was funded by the National Institute for Health and Care Research (NIHR) Health Technology Assessment programme (NIHR award ref: 11/103/01) and is published in full in Health Technology Assessment; Vol. 28, No. 35. See the NIHR Funding and Awards website for further award information.
期刊介绍:
Health Technology Assessment (HTA) publishes research information on the effectiveness, costs and broader impact of health technologies for those who use, manage and provide care in the NHS.