Exploring the brain with sleep-related injuries, and fixing it.

Ronald M Harper
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Abstract

The focus of my research efforts rests with determining dysfunctional neural systems underlying disorders of sleep, and identifying interventions to overcome those disorders. Aberrant central and physiological control during sleep exerts serious consequences, including disruptions in breathing, motor control, blood pressure, mood, and cognition, and plays a major role in sudden infant death syndrome, congenital central hypoventilation, and sudden unexpected death in epilepsy, among other concerns. The disruptions can be traced to brain structural injury, leading to inappropriate outcomes. Identification of failing systems arose from the assessment of single neuron discharge in intact, freely moving and state-changing human and animal preparations within multiple systems, including serotonergic action and motor control sites. Optical imaging of chemosensitive, blood pressure and other breathing regulatory areas, especially during development, were useful to show integration of regional cellular action in modifying neural output. Identification of damaged neural sites in control and afflicted humans through structural and functional magnetic resonance imaging procedures helped to identify the sources of injury, and the nature of interactions between brain sites that compromise physiological systems and lead to failure. Interventions to overcome flawed regulatory processes were developed, and incorporate noninvasive neuromodulatory means to recruit ancient reflexes or provide peripheral sensory stimulation to assist breathing drive to overcome apnea, reduce the frequency of seizures, and support blood pressure in conditions where a failure to perfuse can lead to death.

Abstract Image

探索与睡眠相关的大脑损伤,并修复它。
我研究的重点在于确定睡眠障碍背后的功能失调的神经系统,并确定克服这些障碍的干预措施。睡眠中异常的中枢和生理控制会产生严重后果,包括呼吸、运动控制、血压、情绪和认知障碍,并在婴儿猝死综合征、先天性中枢低通气和癫痫猝死等问题中发挥重要作用。这种破坏可以追溯到大脑结构损伤,导致不适当的结果。失败系统的识别源于对多个系统中完整、自由移动和改变状态的人类和动物制剂中单个神经元放电的评估,包括血清素能作用和运动控制位点。化学敏感性、血压和其他呼吸调节区域的光学成像,特别是在发育过程中,有助于显示区域细胞作用在调节神经输出中的整合。通过结构和功能磁共振成像程序识别对照组和受试者的受损神经部位,有助于识别损伤源,以及损害生理系统并导致失败的大脑部位之间相互作用的性质。开发了克服有缺陷的调节过程的干预措施,并结合了非侵入性神经调节手段,以招募古老的反射或提供外周感觉刺激,帮助呼吸驱动克服呼吸暂停,降低癫痫发作频率,并在灌注失败可能导致死亡的情况下支持血压。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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