Vestibular Prosthesis Tested in a Vestibulopathic Model

在前庭病模型中测试前庭假体

• 批准号: 7850329
• 负责人: RICHARD F LEWIS
• 金额: $ 8.41万
• 依托单位: MASSACHUSETTS EYE AND EAR INFIRMARY
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-07-17 至 2010-09-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7850329
• 关键词: Ablation; Animals; Attenuated; Behavior; Behavioral; Bilateral; Blurred vision; Brain; Chronic; Clinical; Complex; Control Groups; Cues; Development; Dimensions; Disease; Disorientation; Ear; Electric Stimulation; Equilibrium; Eye Movements; Financial compensation; Force of Gravity; Functional disorder; Gentamicins; Goals; Head; Image; Labyrinth; Lateral; Learning; Macaca mulatta; Measurement; Measures; Modeling; Monkeys; Motion; Musculoskeletal Equilibrium; National Institute on Deafness and Other Communication Disorders; Nerve; Organ; Patients; Pattern; Peripheral; Process; Prosthesis; Psychophysics; Quality of life; Retina; Rotation; Saimiri; Semicircular canal structure; Sensory; Sum; Surface; Symptoms; Testing; Translations; Vestibular Labyrinth; Vestibular loss; Visual; Work; Yaws; equilibration disorder; experience; improved; inner ear diseases; nonhuman primate; novel strategies; oculomotor behavior; otoconia; ototoxin; prototype; public health relevance; research study; response; sensor; somatosensory; vestibular prosthesis; vestibulo-ocular reflex

DESCRIPTION (provided by applicant): The long-term objectives of this application are to develop a vestibular prosthesis that can be used to reduce symptoms such as imbalance, spatial disorientation, and blurred vision in patients with vestibular disorders. The specific aims are to test a prototype vestibular prosthesis which uses patterned electrical stimulation of the nerves innervating the semicircular canals in a non-human primate model. We intend to determine if the chronic symptoms produced by a permanent deficit in vestibular function, such as those associated with ototoxin exposure, could be improved with long-term usage of a prosthetic device. We intend to characterize postural control, tilt psychophysics, and the vestibulo-ocular reflex in normal rhesus monkeys, and then to ablate vestibular function in both ears using intratympanic gentamicin. We will then re-examine the animals' postural, perceptual, and oculomotor behaviors to define the deficits caused by bilateral vestibular ablation. The monkeys will then habitually use a prosthesis which senses angular head motion about all three rotational axes, and provides electrical stimulation to the three nerves innervating the semicircular canals in one ear. The stimulation modulates as a function of head angular velocity in a manner that recapitulates afferent activity from the normal semicircular canals. We predict that the animals will gradually learn to use the rotational information provided by the prosthesis to improve their postural stability, estimates of head orientation with respect to gravity, and eye movement responses evoked by head motion. The monkeys that receive chronic prosthetic stimulation will be compared to a control group of animals who undergo vestibular ablation with intratympanic gentamicin, and are then studied chronically without prosthetic stimulation. This comparison will allow us to differentiate the effects of the prosthesis from any spontaneous improvement in postural, perceptual, and oculomotor behavior that results from central compensation or adaptation to the peripheral vestibular deficit. PUBLIC HEALTH RELEVANCE: Disorders involving the balance component of the inner ear are very common and debilitating, and often are unresponsive to the available modes of therapy. For these reasons, we are developing a prosthetic device as a new approach to treat the imbalance, spatial disorientation, and visual disturbances produced by these inner ear disorders. Successful completion of this task would significantly improve the quality of life for a large number of people who suffer from the debilitating symptoms produced by disorders of the balance portion of the inner ear.

描述（由申请人提供）：本申请的长期目标是开发一种前庭假体，可用于减轻前庭疾病患者的不平衡、空间定向障碍和视力模糊等症状。具体目标是测试原型前庭假体，该假体在非人类灵长类动物模型中对支配半规管的神经进行图案化电刺激。我们打算确定前庭功能永久性缺陷所产生的慢性症状（例如与耳毒素暴露相关的症状）是否可以通过长期使用假肢装置得到改善。我们打算表征正常恒河猴的姿势控制、倾斜心理物理学和前庭眼反射，然后使用鼓室内庆大霉素消除双耳的前庭功能。然后，我们将重新检查动物的姿势、知觉和动眼神经行为，以确定双侧前庭消融引起的缺陷。然后，猴子会习惯性地使用假体，该假体可以感知围绕所有三个旋转轴的头部角度运动，并向支配一只耳朵半规管的三个神经提供电刺激。刺激作为头部角速度的函数进行调节，其方式再现了来自正常半规管的传入活动。我们预测动物将逐渐学会使用假体提供的旋转信息来提高其姿势稳定性、头部相对于重力方向的估计以及头部运动引起的眼球运动反应。将接受慢性假体刺激的猴子与接受鼓室内庆大霉素前庭消融术的对照组动物进行比较，然后在没有假体刺激的情况下进行长期研究。这种比较将使我们能够区分假体的效果与中枢代偿或对周围前庭缺陷的适应所导致的姿势、知觉和动眼行为的自发改善。公共卫生相关性：涉及内耳平衡部分的疾病非常常见且使人衰弱，并且通常对现有的治疗模式没有反应。出于这些原因，我们正在开发一种假肢装置，作为治疗这些内耳疾病引起的不平衡、空间定向障碍和视觉障碍的新方法。成功完成这项任务将显着改善许多患有内耳平衡部分疾病所产生的衰弱症状的人的生活质量。