View clinical trials related to Sympathetic Nerve Activity.
Filter by:The investigators seek to understand how reflexes from the breathing muscles influence blood pressure during exercise. Furthermore, the investigators are determining if increasing breathing muscle strength (via inspiratory muscle training) influences the respiratory muscle contribution to blood pressure during exercise.
Activation of the sympathetic nervous system is associated with increased risk of ventricular arrhythmias and sudden cardiac death (SCD). Development of simple, noninvasive, reliable tools to measure sympathetic outflow in human subjects is therefore highly desirable. Microneurography is the current gold standard measurement technique, whereby multiunit postganglionic sympathetic nerve activity is recorded with tungsten ultrafine microelectrodes inserted selectively into nerve fascicles of the peroneal nerve. Though this technique is considered extremely safe, and has been used successfully for decades in human translational physiology experiments, it has not been adopted for routine clinical assessment due to the requirement for sophisticated equipment and specific technical training and skills. Alternatively, many have adopted heart rate variability as a simple, noninvasive technique for assessing sympathetic nerve activity. However, heart rate variability does not directly measure sympathetic nerve activity, and there is much debate in the literature as to the exact source of sympathetic nerve traffic. For example, many believe it is an accurate reflection of cardiac sympathetic nerve activity, but does not accurately reflect changes in muscle or skin sympathetic nerve activity. To address these limitations, the investigators have developed a simple, noninvasive technique to measure sympathetic nerve activity using surface electrodes. Despite its great promise, this new approach has not yet been directly validated. The purpose of this study is therefore to validate this new technique (refered to as EKG-NA) against the current gold standard measurement technique, microneurography.