Active clinical trials for "Autonomic Nervous System Diseases"

The purpose of this study is to determine whether NightWare therapeutic intervention improves biomarkers of vascular aging and autonomic function in adults with nightmares related to PTSD.

The prevalence of autonomic dysfunction and sleep disordered breathing (SDB) is increased in individuals with spinal cord injury (SCI). The loss of autonomic control results in autonomic dysreflexia (AD) and orthostatic hypotension (OH) which explains the increase in cardiovascular related mortality in these Veterans. There is no effective prophylaxis for autonomic dysfunction. The lack of prophylactic treatment for autonomic dysfunction, and no best clinical practices for SDB in SCI, are significant health concerns for Veterans with SCI. Therefore, the investigators will investigate the effectiveness of mild intermittent hypoxia (MIH) as a prophylactic for autonomic dysfunction in patients with SCI. The investigators propose that MIH targets several mechanisms associated with autonomic control and the co-morbidities associated with SDB. Specifically, exposure to MIH will promote restoration of homeostatic BP control, which would be beneficial to participation in daily activities and independence in those with SCI.

Objectives: To evaluate pressure pain thresholds, fatigue scales, quality of life and sleep quality, in women with Persistent Covid (PC), pre- and post-treatment using electrotherapy and in a placebo group of PC patients. Relevance: This trial can be a tool for patients affected by CP who present pain and fatigue problems, insomnia or signs of imbalance of their Autonomic Nervous System. It aims to improve their rest and recovery for a better quality of life that allows them to recover their Activities of Daily Living. We have designed the study with a commitment to placebo group treatment after completion, if positive results are obtained. A 6-month and 1-year follow-up will be scheduled. Secondary objectives: To analyze the effects on quality of life, fatigue and sleep. To analyze the presence of cardiac variability and pre- and post-treatment cortisol values. Patients and Methods: 12 patients with CP will receive 15 sessions of electrotherapy. 12 will receive a placebo. Mechanical sensitivity pre-post, by means of an algometer, cardiac variability, cortisol levels, and other variables, will be measured by means of questionnaires. Mechanical sensitivity to pain will be measured using an algometer (Baseline 12-0300 MMT). Patients will be instructed to report when the sensation of pressure changes to pain. The pre-post electrotherapy treatment described above will be measured, the differences in mechanical sensitivity, pain threshold to pressure, the Pittsburg questionnaires, SF-36, MFIS and EQooL-5. Follow-up will be done at 6 months and at one year. The study design is a triple-blind randomized controlled clinical trial. Patients who sign the consent form will be evaluated by an internist who will perform a physical examination at the clinic of the Faculty of Nursing and Physiotherapy of the Pontifical University of Salamanca (UPSA). The sample will be randomized. 12 patients will receive treatment and 12 patients will receive a placebo. With a commitment to treat these patients in the event that positive results are obtained after the end of the study. A biphasic microcurrent will be applied with a frequency between 1.14 Hertz and 14.29 Hertz and intensities between 0.1 and 0.9 mA. Frequency: 2 times a week. A total of 15 sessions in 7.5 weeks. The session time with microcurrents will last 60 minutes. .

Hypermobile Ehlers-Danlos Syndrome (hEDS) is a connective tissue disorder characterized by hyperextensible skin, joint hypermobility and additional connective tissue manifestations. For unclear reasons, hEDS is associated with many gastrointestinal (GI) and autonomic nervous system (ANS) complaints such as postural orthostatic tachycardia syndrome (POTS). This study will address the clinical relationship between hEDS/Hypermobile Spectrum Disorders and autonomic regulation and see if there is a benefit of two forms of non-invasive vagal nerve stimulation therapies to reduce GI symptoms in hEDS and POTS. The study will also investigate plausible effects of these nerve stimulation therapies on gastric function and autonomic signaling.

People diagnosed with Parkinson's Disease (PD) exhibit a combination of motor and non-motor symptoms, with the latter posing challenges in terms of identification and management. These non-motor symptoms tend to manifest before the motor symptoms and progressively worsen over time, significantly impacting the symptoms and everyday life activities of those affected. However, there remains a noticeable lack of scientific literature addressing the assessment and rehabilitation of cardiovascular dysautonomia in PD patients. Thus, our research aims to address this gap by pursuing the following objectives: 1) assess the feasibility, acceptability, and potential effectiveness of a hybrid telerehabilitation program designed to target cardiovascular health in individuals with Parkinson's disease; and 2) characterize cardiovascular dysautonomia using non-invasive measurements of cardiovascular and autonomic nervous system (ANS) function and self-reported symptom assessments.

The purpose of this study is to evaluate whether Northera (Droxidopa) is safe and effective in young adults with Menkes disease who survived the most severe complications of their illness or adults with occipital horn syndrome (OHS), who have trouble with intermittent low blood pressure and other symptoms of dysautonomia. The outcomes and information from this study may help adult survivors of Menkes disease and individuals with OHS lead more normal day-to-day lives.

The first objective of this research project is to compare the occurrence and frequency of symptoms and/or disorders related to autonomic dysfunction in patients with functional dysphonia with gender- and age-matched vocally healthy controls, using a case-control study. The second objective is to compare the effects of a novel therapy based on autonomic nervous system regulation (i.e., ANS therapy: heart rate variability biofeedback), for functional dysphonia versus coventional voice therapy (CVT) alone or in combination with ANS regulation therapy (i.e., ANS therapy + CVT), using a longitudinal randomized controlled trial (RCT).

Parkinson's disease (PD) is the second most common neurodegenerative disorder worldwide. Besides causing symptoms that impair movement, PD also causes non-motor symptoms, such as problems thinking and orthostatic hypotension (OH), i.e., low blood pressure (BP) when standing. About one-third of people with PD have OH, which can cause sudden, temporary symptoms while upright, including lightheadedness, dizziness, and fainting. People with PD and OH can also experience problems thinking that happen only while upright and not while sitting - this can occur without other symptoms, such as feeling dizzy or faint. However, the level of low BP that can affect thinking remains unknown, and no guidelines exist for treating OH when it happens without symptoms. This is significant because OH could be a treatable risk factor for thinking problems in PD, but OH is often not treated if people do not report obvious symptoms. This project's goal is to determine how BP affects brain function in PD. The proposed experiments will measure BP and brain blood flow continuously in real-time using innovative wearable technology. Persons with PD with OH and without OH will undergo repeated cognitive tests while supine (lying down) and while upright. I will study the associations between BP, thinking abilities, and brain blood flow, and will compare groups with and without OH. These findings could be important because if a certain level of BP correlates with thinking abilities, then treating OH in PD may prevent thinking problems, which would improve health-related quality of life and reduce disability and healthcare costs.

The increase in the tension of the soft tissues around a nerve restricts the movement, affects the function of the nerve, and makes the nerve vulnerable to entrapment. Even a mild nerve compression can cause entrapment and lead to neuroinflammation. It is known that inflammatory mediators amplify axonal sensitivity. Although the spontaneous discharge potential of visceral afferents is quite low under normal conditions, neuroinflammation increases the excitability of these fibers. With this mechanism, hyperalgesia may develop in sensory fibers in neuroinflammation. This may cause pathologies in the organs innervated by the relevant nerve. The fascia and muscles of the cervical region surround the vagus nerve. There are two main fascial compartments in the cervical region. The SCM and trapezius muscle fascias join to the most superficial fascia of the deep cervical fascia and they together form these compartments. These fasciae superiorly attach to the cranium and inferiorly to the pectoral region. The vagus nerve emerges from the jugular foramen together with the 9th and 11th cranial nerves. It then continues through the carotid sheath in the cervical region. The carotid sheath is in contact with the SCM muscle. For this reason, it can be thought that SCM muscle tension or thickness may affect the carotid sheath and thus the function of the vagus nerve passing through it. In summary, deterioration in vagus nerve activity plays a role in pathologies of the organs innervated by the vagus. Although the relationship between vagal dysfunction and gastrointestinal system symptoms is clear, the mechanisms affecting vagus nerve function have not yet been clarified. It has been reported in the literature that some maneuvers from the cervical region are also effective on the vagus nerve. Also, according to investigators' clinical experience, gastrointestinal symptoms are frequently observed in patients with increased cervical soft tissue tension. However, there are not enough studies investigating whether the cervical region soft tissue tension can affect the gastrointestinal system via the vagus nerve. Therefore, this study was planned to examine the relationship of cervical soft tissue tension with vagus nerve function and gastrointestinal symptoms in asymptomatic individuals and individuals with neck pain.

The overall goal of this clinical trial is to evaluate the causality relationship between the non vagus nerve stimulation waveform parameters and the therapeutic effect. Thus, unlocking a pathway to optimize parameters that maximize the benefits of therapy and minimize unwanted side effects. The experimental design includes the analysis of physiological signals, clinical biomarkers of disease, and clinical outcomes to determine the most effective measures for the monitoring, optimization, and personalization of non vagus nerve stimulation in systemic lupus erythematosus disease.