{"title":"为慢性肾病患者开处方","authors":"M. Kirby","doi":"10.3132/PCCJ.2009.033","DOIUrl":null,"url":null,"abstract":"clinical response and plasma drug concentration, where measurement is possible. Other important factors that need to be taken into consideration include dehydration, pre-existing heart failure and concomitant drug therapy.2 On the whole, loading doses do not usually need to be adjusted in patients with chronic kidney disease and dose adjustments can be made by reducing the maintenance dose of the drug, less frequent dosing intervals or both. Information in the BNF1 is based on creatinine clearance, because published information on the effects of renal impairment or drug elimination is usually given in terms of creatinine clearance as a surrogate of GFR. However, serum creatinine concentration is unreliable and the creatinine clearance test is now rarely used, having been replaced by the estimated GFR (eGFR). The two measures of renal function are not interchangeable but, in practice, eGFR can be used to determine dosage adjustments in place of creatinine clearance for most drugs and for most patients of average build and height. However, for potentially toxic drugs with a small safety margin and for patients who are very underor overweight, the absolute GFR should be used. This is calculated by multiplying the eGFR by the individual patient’s body surface area/1.73. P atients with renal impairment, particularly when elderly, tolerate drug side-effects less well and, importantly, some drugs are not effective when renal function is reduced. The British National Formulary (BNF) provides some important principles of dose adjustment in renal impairment.1 The level of renal function below which the dose of a drug must be reduced depends on the proportion of the drug eliminated by renal excretion or its toxicity. Not all drugs are toxic and in this case precision in dosing is less important. However, for more toxic drugs, which may have a small safety margin, dose regimens based on glomerular filtration rate (GFR) should be used. When initiating drug treatment in patients with chronic kidney disease (CKD) stage 3A, caution and careful thought are needed rather than dose adjustment, but greater care is needed in CKD stages 3B, 4 and 5. There are situations where both efficacy and toxicity are closely related to plasma drug concentration. In these situations, careful observation is necessary and subsequent doses should be adjusted according to Chronic kidney disease (CKD) affects renal drug elimination and other important processes involved in drug disposition, including absorption, drug distribution and non-renal clearance. As a result, the reduced renal excretion of a drug or its metabolites can cause toxicity and the sensitivity to some drugs is increased even if elimination is unimpaired. 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Information in the BNF1 is based on creatinine clearance, because published information on the effects of renal impairment or drug elimination is usually given in terms of creatinine clearance as a surrogate of GFR. However, serum creatinine concentration is unreliable and the creatinine clearance test is now rarely used, having been replaced by the estimated GFR (eGFR). The two measures of renal function are not interchangeable but, in practice, eGFR can be used to determine dosage adjustments in place of creatinine clearance for most drugs and for most patients of average build and height. However, for potentially toxic drugs with a small safety margin and for patients who are very underor overweight, the absolute GFR should be used. This is calculated by multiplying the eGFR by the individual patient’s body surface area/1.73. P atients with renal impairment, particularly when elderly, tolerate drug side-effects less well and, importantly, some drugs are not effective when renal function is reduced. The British National Formulary (BNF) provides some important principles of dose adjustment in renal impairment.1 The level of renal function below which the dose of a drug must be reduced depends on the proportion of the drug eliminated by renal excretion or its toxicity. Not all drugs are toxic and in this case precision in dosing is less important. However, for more toxic drugs, which may have a small safety margin, dose regimens based on glomerular filtration rate (GFR) should be used. When initiating drug treatment in patients with chronic kidney disease (CKD) stage 3A, caution and careful thought are needed rather than dose adjustment, but greater care is needed in CKD stages 3B, 4 and 5. There are situations where both efficacy and toxicity are closely related to plasma drug concentration. 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引用次数: 0
摘要
可测量的临床反应和血浆药物浓度。其他需要考虑的重要因素包括脱水、先前存在的心力衰竭和伴随的药物治疗总体而言,慢性肾脏疾病患者通常不需要调整负荷剂量,可以通过减少药物维持剂量、减少给药间隔或两者同时进行剂量调整。BNF1中的信息基于肌酐清除率,因为关于肾损害或药物消除影响的公开信息通常以肌酐清除率作为GFR的替代指标。然而,血清肌酐浓度是不可靠的,肌酐清除率试验现在很少使用,已被估计的GFR (eGFR)所取代。这两种肾功能指标不能互换,但在实践中,对于大多数药物和大多数平均体格和身高的患者,eGFR可以用来代替肌酐清除率来确定剂量调整。然而,对于具有潜在毒性且安全边际较小的药物,以及非常不足或超重的患者,应使用绝对GFR。这是通过将eGFR乘以个体患者的体表面积/1.73来计算的。肾损害患者,特别是老年人,对药物副作用的耐受性较差,重要的是,一些药物在肾功能下降时无效。英国国家处方集(British National Formulary, BNF)提供了肾损害时剂量调整的一些重要原则必须减少药物剂量的肾功能水平取决于通过肾脏排泄消除的药物的比例或其毒性。并不是所有的药物都有毒,在这种情况下,精确的剂量就不那么重要了。然而,对于毒性较大的药物,其安全边际可能较小,应采用基于肾小球滤过率(GFR)的剂量方案。当慢性肾脏疾病(CKD) 3A期患者开始药物治疗时,需要谨慎和仔细的考虑,而不是调整剂量,但CKD 3B、4和5期患者需要更加谨慎。有些情况下,疗效和毒性与血浆药物浓度密切相关。在这些情况下,仔细观察是必要的,随后的剂量应根据慢性肾脏疾病(CKD)影响肾脏药物消除和其他涉及药物处置的重要过程,包括吸收、药物分布和非肾脏清除来调整。因此,药物或其代谢物的肾脏排泄减少可引起毒性,即使消除未受损害,对某些药物的敏感性也会增加。治疗评估
Prescribing for patients with chronic kidney disease
clinical response and plasma drug concentration, where measurement is possible. Other important factors that need to be taken into consideration include dehydration, pre-existing heart failure and concomitant drug therapy.2 On the whole, loading doses do not usually need to be adjusted in patients with chronic kidney disease and dose adjustments can be made by reducing the maintenance dose of the drug, less frequent dosing intervals or both. Information in the BNF1 is based on creatinine clearance, because published information on the effects of renal impairment or drug elimination is usually given in terms of creatinine clearance as a surrogate of GFR. However, serum creatinine concentration is unreliable and the creatinine clearance test is now rarely used, having been replaced by the estimated GFR (eGFR). The two measures of renal function are not interchangeable but, in practice, eGFR can be used to determine dosage adjustments in place of creatinine clearance for most drugs and for most patients of average build and height. However, for potentially toxic drugs with a small safety margin and for patients who are very underor overweight, the absolute GFR should be used. This is calculated by multiplying the eGFR by the individual patient’s body surface area/1.73. P atients with renal impairment, particularly when elderly, tolerate drug side-effects less well and, importantly, some drugs are not effective when renal function is reduced. The British National Formulary (BNF) provides some important principles of dose adjustment in renal impairment.1 The level of renal function below which the dose of a drug must be reduced depends on the proportion of the drug eliminated by renal excretion or its toxicity. Not all drugs are toxic and in this case precision in dosing is less important. However, for more toxic drugs, which may have a small safety margin, dose regimens based on glomerular filtration rate (GFR) should be used. When initiating drug treatment in patients with chronic kidney disease (CKD) stage 3A, caution and careful thought are needed rather than dose adjustment, but greater care is needed in CKD stages 3B, 4 and 5. There are situations where both efficacy and toxicity are closely related to plasma drug concentration. In these situations, careful observation is necessary and subsequent doses should be adjusted according to Chronic kidney disease (CKD) affects renal drug elimination and other important processes involved in drug disposition, including absorption, drug distribution and non-renal clearance. As a result, the reduced renal excretion of a drug or its metabolites can cause toxicity and the sensitivity to some drugs is increased even if elimination is unimpaired. THERAPEUTICS REVIEW