Clarke C E, Guttman M
Department of Neurology, University of Birmingham, Birmingham, UK.
Lancet. 2002 Nov 30;360(9347):1767-9. doi: 10.1016/s0140-6736(02)11668-0.
Levodopa is the gold-standard therapy for Parkinson's disease. However, long-term treatment leads to involuntary movements and response fluctuations which add to the complexities of later disease-management. In addition, preclinical evidence suggests that levodopa is toxic to dopaminergic neurons. These problems have led to a move away from levodopa towards initial monotherapy with a dopamine agonist.
Positron-emission tomography (PET) and single-photon emission computed tomography (SPECT) tracers have been developed which may be considered surrogate markers for remaining dopaminergic neurons. In a randomised controlled trial in patients with early Parkinson's disease, the Parkinson Study Group used 123I-beta-CIT SPECT (JAMA 2002; 287: 1653-61). Those patients given pramipexole had significantly reduced loss of striatal uptake at 46 months compared with those given levodopa (16.0% vs 25.5%). In a similar trial, Alan Whone and colleagues used 18F-DOPA PET (Neurology 2002; 58 [suppl 3]: A82-83). Patients given ropinirole had significantly reduced loss of striatal uptake at 24 months compared with those given levodopa (13% vs 20%). These studies suggest that agonist monotherapy may be neuroprotective and/or that levodopa is toxic. This work has been criticised as the SPECT results may have resulted from a differential effect of the agonist and levodopa on the regulation of the dopamine transporter, thereby influencing the imaging outcome measure. Other criticisms include insufficient data on the use of the potential neuroprotectant selegiline and patients on pramipexole in the SPECT study appear to have been clinically slow progressors. Single clinical trials with each of the four modern agonists compared with levodopa show that as monotherapy the agonists delay the onset of involuntary movements, although at the expense of poorer treatment of motor impairments and disability and more dopaminergic adverse events. The only health-related quality of life data show no difference between pramipexole and levodopa after 4 years. No information on health-economics measures is available but agonists cost two to three times as much as levodopa. WHERE NEXT? Young patients should be treated with agonist monotherapy since the trials included predominantly younger patients who have a higher incidence of motor complications. Those with significant co-morbidity, dementia, or a short life-expectancy should be treated with the lowest dose of levodopa required to maintain motor function. For the vast majority though, no clear guidance can be given. Further large-scale pragmatic trials in large numbers of patients over prolonged periods are urgently required.
左旋多巴是帕金森病的金标准疗法。然而,长期治疗会导致不自主运动和反应波动,这增加了后期疾病管理的复杂性。此外,临床前证据表明左旋多巴对多巴胺能神经元有毒性。这些问题导致了从左旋多巴转向使用多巴胺激动剂进行初始单药治疗。
正电子发射断层扫描(PET)和单光子发射计算机断层扫描(SPECT)示踪剂已被开发出来,它们可被视为剩余多巴胺能神经元的替代标志物。在一项针对早期帕金森病患者的随机对照试验中,帕金森研究小组使用了123I-β-CIT SPECT(《美国医学会杂志》2002年;287:1653 - 61)。与给予左旋多巴的患者相比,给予普拉克索的患者在46个月时纹状体摄取量的损失显著减少(分别为16.0%和25.5%)。在一项类似试验中,艾伦·霍恩及其同事使用了18F - DOPA PET(《神经病学》2002年;58[增刊3]:A82 - 83)。与给予左旋多巴的患者相比,给予罗匹尼罗的患者在24个月时纹状体摄取量的损失显著减少(分别为13%和20%)。这些研究表明激动剂单药治疗可能具有神经保护作用和/或左旋多巴有毒性。这项工作受到了批评,因为SPECT结果可能是由于激动剂和左旋多巴对多巴胺转运体调节的差异效应导致的,从而影响了成像结果测量。其他批评包括关于潜在神经保护剂司来吉兰使用的数据不足,并且SPECT研究中使用普拉克索的患者在临床上似乎进展缓慢。与左旋多巴相比,对四种现代激动剂分别进行的单一临床试验表明,作为单药治疗,激动剂可延迟不自主运动的发作,尽管代价是运动障碍和残疾的治疗效果较差以及多巴胺能不良事件更多。唯一与健康相关的生活质量数据显示,4年后普拉克索和左旋多巴之间没有差异。没有关于卫生经济学指标的信息,但激动剂的成本是左旋多巴的两到三倍。
下一步该怎么做?年轻患者应采用激动剂单药治疗,因为这些试验主要纳入了运动并发症发生率较高的年轻患者。那些有严重合并症、痴呆或预期寿命较短的患者应以维持运动功能所需的最低剂量左旋多巴进行治疗。然而,对于绝大多数患者,无法给出明确的指导。迫切需要在大量患者中进行更长时间的进一步大规模实用试验。
