View clinical trials related to Autonomic Nervous System.
Filter by:This study was conducted in patients with ischemic stroke; This study was conducted to examine the effect of robotic rehabilitation and transcutaneous auricular vagal nerve stimulation applied in addition to robotic rehabilitation on the patient's functional level and autonomic nervous system. 40 people over the age of 18 participated in the study. They were randomly divided into two groups: robotic rehabilitation and transcutaneous auricular vagal nerve stimulation applied in addition to robotic rehabilitation. While the robotic rehabilitation group received Lokomat and neurological rehabilitation, the other group received stimulation with the Vagustim device, which is applied non-invasively through the ear, in addition to Lokomat and neurological rehabilitation. Spasticity, autonomic nervous system, walking speed, motor function, quality of life, muscle activity and pain were evaluated in both groups before starting treatment and six weeks after treatment. In the study, significance was evaluated at p<0.05 level.
The goal of this clinical trial is to explore the impact of a 16-week aerobic exercise regimen on the autonomic nervous system and endothelial function in patients with compensated cirrhosis who maintain sedentary lifestyles. The primary research question is: 1) What effect does 16 weeks of aerobic exercise have on changes in the autonomic nervous system and endothelial function in cirrhotic patients? Additionally, the secondary research questions are: 1. How does a 16-week aerobic exercise program influence changes in muscle mass, muscle strength, and physical performance in cirrhotic patients? 2. Is there a correlation between muscle mass and parameters of the autonomic nervous system in cirrhotic patients? Participants in the intervention group will undergo 150 minutes of moderate aerobic exercise per week for 16 weeks, accompanied by a personalized nutritional plan (1.2 grams of protein per kilogram of ideal body weight per day and a calorie intake of 35 kilocalories per kilogram of ideal body weight per day). The control group will solely receive nutritional guidance and maintain their sedentary lifestyle. The researchers will compare outcomes between these two groups.
Many information is available regarding human adaptations to cold or hypoxia. Adaptations to these environments and physical exercise constitute responses to physiological stress aimed at amplifying the organism's reactions and improving its performance. However, studies conducted so far to understand these adaptations and their underlying mechanisms have been organized in a dissociated manner, with each study focusing on only one of these specific situations (cold, hypoxia, or exercise). Understanding cross-adaptations is crucial, as human beings are often simultaneously exposed to several of these stimuli, and understanding this cross-exposure can be considered a prerequisite for pre-acclimatization strategies to these different environments. Cross-adaptations has been defined as follows: "It simply involves considering that long-term exposure (either continuous or intermittent) to a given unfavorable environment not only increases tolerance to that particular environment but also leads to gains or losses of tolerance to other unfavorable factors that the adapted organism had never encountered before." When specifically examining cross-adaptations to cold and hypoxia, only one study focusing on the human model is available. The lack of perspectives and positions regarding the results calls for further investigations. The main objective of this study is to assess the effect of repeated exposures to cryostimulation on the variation of the respiratory exchange ratio in hypoxia during exercise.
The autonomic nervous system (ANS), regulating involuntary physiologic processes including heart rate and blood pressure, is affected by changes in the cerebral vessels like carotid artery stenosis, occlusion, carotid artery stent and endarterectomy. Until now, no data concerning autonomic nervous system in patients with acute intracranial large artery occlusion and thrombectomy is available. Due to the known effect on ANS in case of pathologies of extracranial brain supplying arteries it is highly suspected that intracranial large artery occlusion and thrombectomy can affect the ANS as well. The aim of this project is to determine autonomic parameters during and after thrombectomy in patients with large cerebral artery occlusion. The project is a prospective descriptive pilot study at the University Hospital Tulln. 20 patients will be assessed during and after thrombectomy up to three months post intervention. A combination of autonomic parameters, hemodynamic parameters and clinical outcome will be evaluated.
The Left thoracic paravertebral block have a different effect on heart's autonomic nervous system, as measured with Heart Rate Variability, compared to Right interscalene block