View clinical trials related to Paraplegia.
Filter by:This study will evaluate the effects of non-invasive stimulation of the spinal cord in people with spinal cord injury.
The purpose of this study is to compare transcutaneous electrical spinal stimulation (TESS) and epidural electrical stimulation (EES); in particular, the motor activity enabled by each method and the potential health benefits of each method.
Robotic gait training is often used with the aim to improve walking ability in individuals with Spinal Cord Injury. However, robotic gait training alone may not be sufficient. This study will compare the effects of robotic gait training alone to robotic gait training combined with either low-frequency or high-frequency non-invasive transspinal electrical stimulation. In people with motor-incomplete SCI, a series of clinical and electrical tests of nerve function will be performed before and after 20 sessions of gait training with or without stimulation.
Paraplegic patients have defective wound healing for sore below the level of spinal lesion. Defect of vascularization of the healing zone certainly participate to this effect. Therefore, this study want to measure, in a clinical settings, the interface pressure (e.g. the pressure between the patient body and the surface he/she is lying on) to assess the correlation between mechanical stress in term of pressure applied over time and tissue oxygenation which represent micro-vascular function. The aim of this clinical trial is to correlate the variations of pressure intensities and changes in micro-vascularization. The measure are recorded when paraplegic patient came into the hospital for pressure ulcer related surgery. The patient is laying on his/her mattress on top of a flexible pressure mapping device. The micro-vascularization parameters are measured at the area displaying the peak pressure a few minutes after the beginning of the pressure interface recording and one hour later at the same area. The data generated during this monocentric study will help to achieve a better understanding of the relation between pressure and micro-vascularization. In the mid term, it will provide a better and more patient adapted pressure ulcer prevention.
Background: Hereditary spastic paraplegia (HSP) usually progresses slowly. Researchers want to learn more about how its symptoms change over time. They want to look for changes in the blood and cells of people with the most common forms of HSP that might allow them to better understand the disease. Objectives: To learn more about common forms of hereditary spastic paraplegia and find out how it progresses over time. Eligibility: People age 7 and older with SPG3A, SPG4A, or SPG31 Design: Participants will have 1 two-hour visit each year for up to 5 years. At 1 visit, adult participants may have a skin biopsy. An area of skin will be numbed then a tool will remove a small piece of skin. At all visits, all participants will have a physical exam and blood drawn. At all visits, participants will do a few tasks like walking quickly and climbing stairs. Participants can give permission for their skin cells, DNA samples, and data to be used in other studies. The samples and data will have no identifying information.
The aim of this study is to correlate the intensity and the duration of a mechanical strain, applied over the skin of a bedridden paraplegics, with the microvascularization parameters (oxygen saturation, blood flow and blood volume) and the early inflammatory mechanism. We want to detect the early stage of irreversible damage for each patient. To achieve this goal, we measure some specifics data over a group of 48 paraplegics admitted in the hospital for a pressure ulcer surgical treatment. The patients are randomly distributed in 4 groups. First the interface pressure between the patient body and the air mattress is recorded continuously for 3 hours (= the repositioning patient frequency): we have the pressure over each point of the patient body in contact with the mattress on this time lap. Then, we will measure the microvascularization parameters, using an O2C medical device over a trochanter on a specific anatomical area which will be thereafter biopsied. Finally, depending on the group in which they were randomly distributed, the patient will undergo a muscle biopsy on his or her trochanter at 0h, 1h, 2h or 3h after they lie down on the air mattress. This way, we will be able to determine the effect of the mechanical strain duration on the physiologic parameters. The following day, the patient is undergoing his or her surgery for removing the necrotic area of the bedsore. At the same time, we will recover some of the sample near the bedsore which would serve as a maximum inflammatory response. Then a second muscle biopsy will be performed on an innervated area to be able to determine a basal concentration of biomarkers. The inclusion period for this study will be 3 years. All the patients are followed for 24 hours then they will be followed by medical staff in their bedsore resection setting. The data gained for this study will hopefully help the scientific world to achieve a better understanding of the pressure ulcer aetiology. They will also be helpful to achieve a mobilization of the patient specific of his or her inherent characteristics with a high sensitivity level. This way we will have a more efficient bedsore prevention.
The purpose of this study is to determine if individuals with incomplete spinal cord injury (SCI) who remain unable to walk normally 1 year after their SCIs are able to sense and move the affected legs better after 10-13 weeks of treatment with a new robotic therapy device. The hypothesis is that using the AMES device on the legs of chronic subjects with incomplete SCI will result in improved strength, sensation in the legs, and improved functional gait in the treated limbs.
Will the use of sensory substitution by lingual electric stimulation improve in a suitable way, for paraplegic subject, the spatial distribution of pressure applied at the seat/skin interface in order to prevent the formation of pressure ulcer? We will try to demonstrate that paraplegic subject move in an appropriate matter, in term of pressure, after a movement way advised by periodical electric stimuli on the tongue.