Therapeutic drug monitoring in Parkinson's disease.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-01 Epub Date: 2024-09-03 DOI:10.1007/s00702-024-02828-5
Thomas Müller, Manfred Gerlach, Gudrun Hefner, Christoph Hiemke, Wolfgang H Jost, Peter Riederer
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Abstract

A patient-tailored therapy of the heterogeneous, neuropsychiatric disorder of Parkinson's disease (PD) aims to improve dopamine sensitive motor symptoms and associated non-motor features. A repeated, individual adaptation of dopamine substituting compounds is required throughout the disease course due to the progress of neurodegeneration. Therapeutic drug monitoring of dopamine substituting drugs may be an essential tool to optimize drug applications. We suggest plasma determination of levodopa as an initial step. The complex pharmacology of levodopa is influenced by its short elimination half-life and the gastric emptying velocity. Both considerably contribute to the observed variability of plasma concentrations of levodopa and its metabolite 3-O-methyldopa. These amino acids compete with other aromatic amino acids as well as branched chain amino acids on the limited transport capacity in the gastrointestinal tract and the blood brain barrier. However, not much is known about plasma concentrations of levodopa and other drugs/drug combinations in PD. Some examples may illustrate this lack of knowledge: Levodopa measurements may allow further insights in the phenomenon of inappropriate levodopa response. They may result from missing compliance, interactions e.g. with treatments for other mainly age-related disorders, like hypertension, diabetes, hyperlipidaemia, rheumatism or by patients themselves independently taken herbal medicines. Indeed, uncontrolled combination of compounds for accompanying disorders as given above with PD drugs might increase the risk of side effects. Determination of other drugs used to treat PD in plasma such as dopamine receptor agonists, amantadine and inhibitors of catechol-O-methyltransferase or monoamine oxidase B may refine and improve the value of calculations of levodopa equivalents. How COMT-Is change levodopa plasma concentrations? How other dopaminergic and non-dopaminergic drugs influence levodopa levels? Also, delivery of drugs as well as single and repeated dosing and continuous levodopa administrations with a possible accumulation of levodopa, pharmacokinetic behaviour of generic and branded compounds appear to have a marked influence on efficacy of drug treatment and side effect profile. Their increase over time may reflect progression of PD to a certain degree. Therapeutic drug monitoring in PD is considered to improve the therapeutic efficacy in the course of this devastating neurologic disorder and therefore is able to contribute to the patients' precision medicine. State-of-the-art clinical studies are urgently needed to demonstrate the usefulness of TDM for optimizing the treatment of PD.

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帕金森病的治疗药物监测。
帕金森病(Parkinson's disease,PD)是一种异质性神经精神疾病,针对患者的治疗旨在改善对多巴胺敏感的运动症状和相关的非运动特征。在整个病程中,由于神经变性的进展,需要对多巴胺替代化合物进行反复、个体化的调整。多巴胺替代药物的治疗药物监测可能是优化药物应用的重要工具。我们建议将左旋多巴的血浆测定作为第一步。左旋多巴的药理作用复杂,受其短消除半衰期和胃排空速度的影响。这两个因素在很大程度上导致了左旋多巴及其代谢产物 3-O-甲基多巴血浆浓度的变化。这些氨基酸会与其他芳香族氨基酸和支链氨基酸竞争胃肠道和血脑屏障中有限的转运能力。然而,人们对左旋多巴和其他药物/药物组合在帕金森病中的血浆浓度知之甚少。一些实例可以说明这种知识的匮乏:对左旋多巴的测量可以进一步了解左旋多巴不适当反应的现象。这些问题可能是由于未遵医嘱、与其他主要与年龄有关的疾病(如高血压、糖尿病、高脂血症、风湿病)的治疗相互作用或患者自己独立服用中药造成的。事实上,如果不加控制地将上述治疗伴随疾病的复方药物与帕金森病药物合用,可能会增加副作用的风险。检测血浆中用于治疗帕金森病的其他药物,如多巴胺受体激动剂、金刚烷胺和儿茶酚-O-甲基转移酶或单胺氧化酶B抑制剂,可完善和提高左旋多巴当量的计算值。COMT-Is 如何改变左旋多巴的血浆浓度?其他多巴胺能药物和非多巴胺能药物如何影响左旋多巴水平?此外,给药、单次给药和重复给药、左旋多巴连续给药可能导致左旋多巴蓄积、非专利药和品牌药的药代动力学行为似乎对药物治疗的疗效和副作用特征有显著影响。随着时间的推移,它们的增加可能会在一定程度上反映出帕金森病的进展。帕金森病的治疗药物监测被认为能提高这种破坏性神经系统疾病的疗效,因此能为患者的精准医疗做出贡献。目前迫切需要最先进的临床研究来证明 TDM 对优化帕金森病治疗的作用。
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CiteScore
7.20
自引率
4.30%
发文量
567
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