Vocalization deficits in parkinson rats: Does L-DOPA harm or help therapy?

帕金森大鼠的发声缺陷：左旋多巴是否有害或有助于治疗？

• 批准号: 7487236
• 负责人: Michelle Renee Ciucci
• 金额: $ 4.68万
• 依托单位: UNIVERSITY OF WISCONSIN-MADISON
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-05-01 至 2010-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7487236
• 关键词: Acoustics; Address; Animal Model; Basic Science; Behavior Therapy; Behavioral; Biological Markers; Clinical; Communities; Complex; Condition; Controlled Study; Corpus striatum structure; Diagnosis; Disease Progression; Disease model; Dopamine; Exercise; Foundations; Goals; Human; Impairment; Intervention; Language; Lead; Levodopa; Measures; Modeling; Motor; Motor Skills; Neurobiology; Neurotoxins; Outcome; Parkinson Disease; Pharmaceutical Preparations; Pharmacological Treatment; Pharmacotherapy; Physical therapy exercises; Process; Range; Rattus; Rehabilitation therapy; Research; Role; Sensorimotor functions; Severity of illness; Speech; Staging; Symptoms; Testing; Therapeutic; Therapeutic Effect; Training; Ultrasonics; Voice; analog; dopaminergic neuron; functional improvement; functional outcomes; improved; indexing; insight; neurochemistry; relating to nervous system; skills; translational approach; vocalization; voice therapy

DESCRIPTION (provided by applicant): The long-term objective of this research is to explore the therapeutic effects of complex sensorimotor enrichment (exercise) and medication on sensorimotor function in a rat model of early Parkinson's disease (PD) as a translational approach to accelerate the impact for treatment in human PD. Despite the behavioral and neurochemical evidence in both human and animal models, people with PD are rarely referred to exercise/sensorimotor rehabilitation immediately upon diagnosis. As a result, the opportunity to protect the remaining viable dopamine neurons and slow the progression of motor symptoms is lost. Upon diagnosis, the primary form of intervention is the introduction of pharmacotherapy, primarily levodopa. However, in the early stages of PD, administration of levodopa is controversial. Further, the effects of levodopa on the potential benefits of early exercise are unknown. This application reflects a unique study to address the therapeutic effects of early exercise and to examine the role of dopamine-augmenting drugs on functional outcomes in speech and voice (vocalization) in an animal model. A rat model of early PD will be employed to test the effects of dopamine depletion on Ultrasonic Vocalization (rat analogue of voice/speech sensorimotor control). Rats will be tested in a control condition, immediately after neurotoxin exposure (PD model), and after vocal exercise (therapy) with and without levodopa. Changes in rat Ultrasonic Vocalization acoustic parameters and dopamine sparing will be measured as an index of disease severity and functional improvement after exercise or pharmacological treatment. Relevance: This research is will accelerate the acquisition of the neurobiological and behavioral evidence needed to convince both clinical and basic science communities of the legitimate therapeutic value of early repetitive sensorimotor enrichment to slow disease progression in human PD. Further, it is to provide a foundation that will lead to a well-controlled study of the effects of levodopa with and without exercise in an animal model. This will create a translational model for addressing benefits/confounds in early administration of dopamine-augmenting medications in humans. Plain-Language Research Questions: Does exercise (voice therapy) slow the progression of early Parkinson Disease and improve overall functional outcomes? Do anti-Parkinson medications help or interfere with this process?

描述（由申请方提供）：本研究的长期目标是探索复杂感觉运动富集（运动）和药物对早期帕金森病（PD）大鼠模型感觉运动功能的治疗作用，作为加速人类PD治疗影响的转化方法。尽管在人类和动物模型中有行为和神经化学证据，但PD患者很少在诊断后立即进行运动/感觉运动康复。因此，失去了保护剩余的存活多巴胺神经元和减缓运动症状进展的机会。在诊断后，主要的干预形式是引入药物治疗，主要是左旋多巴。然而，在PD的早期阶段，左旋多巴的给药是有争议的。此外，左旋多巴对早期锻炼的潜在益处的影响尚不清楚。该申请反映了一项独特的研究，以解决早期运动的治疗效果，并在动物模型中研究多巴胺增强药物对语音和声音（发声）功能结果的作用。将采用早期PD大鼠模型来测试多巴胺耗尽对超声发声（声音/言语感觉运动控制的大鼠模拟）的影响。将在对照条件下、神经毒素暴露后立即（PD模型）和有或无左旋多巴的发声锻炼（治疗）后对大鼠进行测试。将测量大鼠超声发声声学参数和多巴胺保留的变化，作为运动或药物治疗后疾病严重程度和功能改善的指标。相关性：这项研究将加速获得所需的神经生物学和行为学证据，以说服临床和基础科学界早期重复感觉运动富集的合法治疗价值，以减缓人类PD的疾病进展。此外，它是提供一个基础，将导致一个良好的对照研究的影响，左旋多巴与运动和不运动的动物模型。这将创建一个翻译模型，用于解决人类多巴胺增强药物早期给药的益处/混淆。简单语言研究问题：运动（语音治疗）是否能减缓早期帕金森病的进展并改善整体功能结局？抗帕金森药物是否有助于或干扰这一过程？