View clinical trials related to Autonomic Imbalance.
Filter by:The study aimed to investigate whether transcranial direct current stimulation could modify auditory hallucination, insight, neurocognitive function, heart rate variability, psychosocial functioning and quality of life in patients with schizophrenia.
This study will explore whether ivabradine lowers heart rate, and thus improves exercise capacity, in survivors of lymphoma who have an elevated resting heart rate as a side effect of prior radiation treatment. The drugs involved in this study are: - Ivabradine - Placebo
Patients with Raynaud's disease have an increased tendency of chest pain and migraine, and studies indicate that the disease might be associated with increased cardiovascular morbidity and mortality. Furthermore, a certain hyperactivity of the sympathetic nervous system has been demonstrated in these patients. Hyperactivity of the sympathetic nervous system is known to cause decreasing heart function, regardless of the underlying disease. The cardiac autonomic nervous function and thermographic parameters will be assessed in patients with primary and secondary Raynaud's phenomenon and glaucoma as well as in patients diagnosed with autonomic dysfunction such as diabetics and patients with Parkinson's disease in order to compare the function of the cardiac autonomic nervous system and the peripheral response to cold exposure. Potentially, this will lead to a better understanding of the cardiac autonomic nervous function in Raynaud's phenomenon. Moreover, it might give rise to a new perception of the condition and its association to cardiovascular disease. At the Department of Clinical Physiology, the current method of detecting Raynaud's phenomenon is time-consuming and unpleasant to the patient due to cooling for several minutes. Another aim of the PhD study is to implement infrared thermography as a gentler and possibly more sensitive method to replace the currently applied method. The project will also include an epidemiological study based on data obtained from the National Patient Registry, among others. Raynaud's phenomenon will be paired with diagnostic codes of conditions such as diabetes mellitus, Parkinson's disease, glaucoma, and cardiovascular disease.
Anesthesia in the modern age is at least a two-drug process consisting of an opioid and a sedative hypnotic (e.g., fentanyl and propofol in combination, among others). Therefore, it is important to understand the interaction pharmacodynamics of these agents as they are used clinically. A good method for visualizing the pharmacodynamic interaction behavior of drug combinations is through response surface models. Unlike traditional isobolograms that represent the concentrations of two agents that combine to produce a single degree of drug effect, response surface models characterize the complete spectrum of interaction between two or more agents for all possible levels of concentration and effect. The investigators try to use the response surface model to evaluate the effect of anesthetic combination of autonomic system.
The autonomic nervous system plays an important role in the precipitation of AF in structurally-abnormal hearts. Restoration of autonomic imbalance may therefore prevent new-onset AF. Renal artery denervation (RDN) is a novel percutaneous procedure that uses radio-frequency energy to destroy the sympathetic renal nerves. Symplicity 1 and -2 studies have shown that RDN effectively reduces blood pressure in up to 80% of treated patients. LVH regression and improvement of diastolic dysfunction follow as a consequence of afterload reduction and renin-angiotensin-aldosterone system modulation. RDN may thus also reduce intra-atrial pressure resulting in less stretch of the pulmonary venous ostia where most ectopic AF-foci originate. Hypothesis: RDN restores autonomic imbalance in HTHD and lowers intra-atrial pressure by reducing afterload. These synergistic mechanisms may prevent new-onset AF.