View clinical trials related to Hypotension, Orthostatic.
Filter by:Orthostatic hypotension (OH), which consists in a significant reduction in blood pressure levels upon standing from a seated position, may affect approximately one in three patients with Parkinson's disease (PD). It usually presents as dizziness, lightheadedness, feeling faint, or feeling like you might black out while standing. This can significantly impact the quality of life (QoL) of PD patients, resulting in difficulties with balance, walking, and increased risk of falls. The main aim of this study is to evaluate whether the use of technological devices (a computerized system for analyzing abnormalities in walking in clinical settings and a wearable sensor to detect changes in postural unsteadiness in the home environment) may improve the detection of complications and the response to medical therapies for OH in patients with PD.
This study looks to characterize gradients of dysfunction in the autonomic nervous system after spinal cord injury. The autonomic nervous system plays key roles in regulation of blood pressure, skin blood flow, and bladder health- all issues that individuals with spinal cord injury typically suffer. Focusing on blood pressure regulation, the most precise metric with broad clinical applicability, the investigators will perform laboratory-based tests to probe the body's ability to generate autonomic responses. For both individuals with spinal cord injury and uninjured controls, laboratory-based experiments will utilize multiple parallel recordings to identify how the autonomic nervous system is able to inhibit and activate signals. The investigators anticipate that those with autonomic dysfunction after spinal cord injury will exhibit abnormalities in these precise metrics. The investigators will further have research participants wear a smart watch that tracks skin electrical conductance, heart rate, and skin temperature, which can all provide clues as to the degree of autonomic dysfunction someone may suffer at home. The investigators will look to see if any substantial connections exist between different degrees of preserved autonomic function and secondary autonomic complications from spinal cord injury. In accomplishing this, the investigators hope to give scientists important insights to how the autonomic nervous system works after spinal cord injury and give physicians better tools to manage these secondary autonomic complications.
Vasoplegic syndrome is characterized clinically by reduced systemic vascular resistance and normal or increased cardiac output. It is principally observed in cardiovascular and orthopedic interventions and is characterized by a systemic inflammatory response with the inability of the vascular endothelial muscles to contract and a resistance to the action of vasoactive drugs. This event extends the length of stay in the critical care area due to the need of vasoactive drugs. The investigators aim to assess the standardized application of midodrine in postoperative patients without sepsis and need of vasoactive drugs in order to reduce the length of stay in critical care area and for extension in hospital.
Orthostatic hypotension is a highly prevalent deficit in the aging population especially when coupled with stroke, frailty, diabetes, Parkinson's disease or spinal cord injuries. This population has difficulty with the autonomic regulation of blood pressure and experiences elevated risks of falls. The fall risk is greatest when the person transitions from supine or sitting to standing as this is when blood has a tendency to pool in the legs preventing adequate blood circulation to vital organs. This is a safety concern and limiting factor for rehabilitation of patients with orthostatic hypotension in the inpatient rehabilitation setting. There is low-quality evidence that compression garments such as abdominal binders and compression stockings can be helpful to manage orthostatic hypotension and the associated fall risk. However, many people with orthostatic hypotension perceive the treatment approach with compression stockings to be largely unacceptable. Aquatic immersion may provide better advantages to compression garments because hydrostatic pressure exerts a little over 22 mmHg pressure for every foot of water. Therefore, an individual standing in 4 ft depth water will have roughly 90 mmHg pressure on their feet and about 56 mmHg at their knees. These amounts of pressure are more than those induced by typical compression stockings, which provide 30-40 mm Hg pressure. In addition, immersion at level of xiphoid process or higher is known to translocate blood from the lower to the center of the body and act to increase cerebral blood flow which may be beneficial for preventing orthostatic hypotension symptoms. No studies have looked at the physiologic response to immersion and aquatic exercise for people with orthostatic hypotension. Since this population is known to have difficulty with autonomic regulation of blood pressure, it is unclear if they will experience a similar hemodynamic response during immersion than the healthy population during or after aquatic therapy due to orthostatic hypotension. Anecdotal evidence suggests that patients with orthostatic hypotension do not exhibit adverse effects due to orthostatic hypotension when standing in water or participating in aquatic exercise independent of compression garments use. They often have improved standing tolerance in the pool compared with prolonged standing on land. Steps to manage orthostatic hypotension when out of the pool, such as hydration during pool session, placing compressive garments prior to exit of pool and slow transitions out of pool setting has been adequate to prevent symptoms of orthostatic hypotension in the post exercise period in this population. The primary aim of this study is to look at heart rate and blood pressure response when going from sit to stand during physical therapy sessions on land compared to in the pool for people who have orthostatic hypotension (defined as a drop in systolic blood pressure of at least 15 mmHg or 7 mmHg drop in diastolic blood pressure from sitting to standing). The secondary aim of this study is to evaluate tolerance for physical activity during physical therapy sessions in the pool compared to on land for people with orthostatic hypotension. The third aim of the study is to investigate heart rate and blood pressure response for 3 hours following the physical therapy sessions. We hypothesize that orthostatic hypotension will be reduced and standing exercise tolerance will be increased when in the pool compared to on land. In addition, we hypothesized that there will not be a significant difference in heart rate or blood pressure response in the 3-hour post exercise period of aquatic vs. land exercise.
A common therapeutic intervention after spinal cord injury (SCI) is prolonged standing in a standing frame. For people with SCI, standing for 40 minutes or more, three to four times weekly improves several health-related issues including well-being, circulation, skin integrity, reflex activity, bowel and bladder function, digestion, sleep, pain, and fatigue. However, a person who experiences orthostatic hypotension (OH)-defined as a decrease of 20mm hg in systolic blood pressure or a decrease of 10mm hg in diastolic pressure within 3 minutes of standing from a sitting or supine position-secondary to SCI may not tolerate positioning in a standing frame, thus resulting in a loss of access to these health benefits. OH is common for people with SCI. It results from central nervous system dysregulation causing pooling of blood in the lower extremities that can lead to dizziness, light-headedness, blurred vision, weakness, fatigue, nausea, palpitations, headache, and/or syncope. Although an array of physical and pharmacologic interventions are available to people in the general population for managing OH, few such interventions have been evaluated for use by people with SCI, especially when the level of injury is C5 or above. One possible intervention that may be effective for people with OH secondary to SCI is functional electrical stimulation (FES) because its application results in a dose-dependent increase in blood pressure. An unanswered question is whether the placement of FES electrodes on various parts of the body has differential effects. Therefore, the purpose of this study is to evaluate blood pressure responses among people with OH secondary to cervical SCI when receiving FES intervention involving the placement of electrodes in three different positions as well as when receiving no FES intervention during tilt table sessions. The selected positions for electrode placement are: (a) the calves, (b) the quads and abdominals, and (c) the quads, abdominals, and calves. The researchers hypothesize that FES intervention, regardless of placement, will result in better control of OH than no FES intervention and that no significant blood pressure difference will occur across the three FES placements.
Incidence and pathophysiologic hemodynamics of orthostatic intolerance and orthostatic hypotension in patients undergoing UKA
This Stage II randomized, controlled, longitudinal trial seeks to assess the acceptability, feasibility, and effects of a driving decision aid use among geriatric patients and providers. This multi-site trial will (1) test the driving decision aid (DDA) in improving decision making and quality (knowledge, decision conflict, values concordance and behavior intent); and (2) determine its effects on specific subpopulations of older drivers (stratified for cognitive function, decisional capacity, and attitudinally readiness for a mobility transition). The overarching hypotheses are that the DDA will help older adults make high-quality decisions, which will mitigate the negative psychosocial impacts of driving reduction, and that optimal DDA use will target certain populations and settings.
To evaluate the efficacy of a 4-week fludrocortisone (FLU) treatment on systolic blood pressure depression after 5 minutes of active orthostatism in patients with neurogenic orthostatic hypotension (HON) symptomatic, despite treatment with non-drug measures with or without midodrine.
A Phase 3, multi-center, open-label study to evaluate the safety and tolerability of ampreloxetine in subjects with primary autonomic failures (MSA, PD, and PAF) and symptomatic nOH over 182 weeks.
This study seeks to evaluate whether the speed (cadence) of lower extremity robotic movement has an impact on orthostatic hypotension and upright tolerance when training with the ErigoPro robotic tilt-stepper. It is hypothesized more frequent short-lasting leg movements (faster cadence) reduces the occurrence/severity of orthostatic hypotension better than less frequent longer-lasting leg movements (slower cadence).