View clinical trials related to Spinal Cord Injuries.
Filter by:The overall purpose of this pilot randomized control trial (RCT) is to determine the efficacy of the high-intensity interval training (HIIT) exercise protocols for the WheelMill System (WMS) to improve exercise intensity, cardiovascular fitness, metabolic health, and psychological well-being in manual wheelchair users (MWUs) with spinal cord injury (SCI).
The purpose of the study is to provide tele-nutrition counseling after a spinal cord injury (SCI). During the three months of participation, subjects will be given an iPad and the iPad will be used to record meals using a photo journal application, YouAte. In addition, subjects will receive dietary advice two times a month with a registered dietitian (RD). The dietitian role in the study will be to educate healthy weight management and accommodate any cultural and behavioral habits. The objective of this study is to show that the proposed tele-nutrition program will be effective with weight management through 3-month tele-nutrition counseling via iPad FaceTime. The hypotheses are 1) that weight and waist circumference will not increase after 3 months of tele-nutrition program, 2) quality of life will improve, and 3) quality of diet will improve.
A Spinal Cord Injury (SCI) often drastically disrupts the lives of affected patients and their relatives and caregivers. This observational study will provide new knowledge on how patients and their family caregivers cope in the first years after injury in terms of work inclusion, participation, care giver burden and quality of life. This project will utilize Norwegian spinal cord injury quality register data and link clinical individual data from the quality register to national administrative data on employment and social insurance benefits.
Immediately following a spinal cord injury (SCI), patients are admitted to inpatient rehabilitation where they undergo physical reconditioning in preparation for a return to home setting. The current standard of practice for aerobic training is performing arm-ergometry for 25 mins at a frequency of three times per week. Given the move towards shortened length of stay during inpatient rehabilitation, performing MICT can consume a considerable amount of therapy time. Sprint interval training (SIT) has been shown to elicit similar improvements in physical capacity, despite a reduced time commitment to MICT. However, there are no controlled trials comparing the effects of SIT to MICT in individuals with SCI undergoing inpatient rehabilitation. The primary aim of this study was to investigate the efficacy of a five-week, thrice weekly 10 min SIT program and compare outcome measures to a traditional 25 minute MICT program on the arm-ergometer in individuals with SCI undergoing inpatient clinical rehabilitation. It was hypothesized that five weeks of SIT and MICT would induce similar changes in maximal and sub-maximal exercise performance, self-efficacy for exercise, and exercise enjoyment, despite large differences in training volume and time commitment. It was also hypothesized that SIT would be well tolerated and elicit higher levels of cardiovascular strain than MICT.
The aim of the master's thesis is to evaluate the clinic-internal strengthening concept of the Swiss Paraplegic Centre (SPZ). The SPZ is a rehabilitation clinic for spinal cord injured people. The strengthening concept has been routinely used since 2015. By default, the patients complete - depending on which training phase they are in - three to four strength training sessions per week. As part of the master's thesis, the development of maximum strength of patients with spinal cord injury (SCI) in primary rehabilitation will be studied. It is explicitly taken care of that the patients comply with the training requirements. Furthermore, factors which prevent a consistent buildup of strength - such as medical complications (pressure sores, pneumonia, urinary tract infections) - are systematically recorded. The findings should provide information on the effect and qualitative transfer of the existing strength concept in everyday clinical practice. The strength training performed is accompanied by the master student and documented in a standardized manner.
Traditionally, pain relief through spinal cord stimulation has been associated with the appearance of paresthesia in the affected area. Several parameters are set to maximize the overexposure zone, such as frequency,and pulse width. Although this technique has improved pain in many patients, paresthesia itself can be uncomfortable. Traditionally, the occurrence of paresthesias has been considered to be a predictor of success in pain elimination, while the non-occurrence of paresthesias would indicate failure. So far, few studies have reported pain relief below the threshold of onset of paresthesia. Some clinical trials for pathologies other than the one considered in this study have achieved relief below the threshold by reducing the amplitude of the stimulus. Recently, however, it has been observed in a pilot study that, by increasing the frequency of spinal cord stimulation to 1 kilohertz, it is possible to significantly improve pain relief compared to less frequent conventional stimulation based on the occurrence of paresthesias. A recent review by the Cochrane Library concluded that conventional spinal cord stimulation for pain relief of Failed Back Surgery Syndrome (or FBSS) requires further clinical studies and better designs to demonstrate its superiority over other therapeutic options. Therefore, although spinal cord stimulation is accepted by the Food and Drug Administration (FDA) and the European Medicines Agency (EMA), new techniques are being introduced that offer better results in terms of pain relief. Among these techniques, there is the high frequency mode, which allows avoiding the annoying sensation of paresthesia that substitutes pain with the conventional technique. In order to provide greater rigour and scientific quality, the present study is proposed, in which the conventional spinal cord stimulation (CME) technique (control branch or CME) is compared with paresthesias and a standard frequency (60 hertz) with a high frequency (1000 hertz) EVOLVE system (Evolve workflow - standardized guidance to simplify the trial and implant experience and optimize patient outcomes) (experimental branch or EME) by means of a design with a high degree of scientific evidence, randomising the global sample of patients to each of the two branches of stimulation in the study (blind to the patient) and crossing the branches after a period of washing
The Active Powered Prosthesis (APEX) (AbiliTech Medical Inc., Minneapolis, MN) is a proof-of-concept shoulder-elbow-wrist device intended to provide non-invasive active powered robotic assistive movement to upper extremities. The objective of this study is to perform focus groups with users and clinicians to evaluate a proof of concept active powered assistance device.
This study investigates the effect of upper extremity exercise on postprandial lipemia (PPL) in persons with spinal cord injury (SCI). Participants are measured at rest and fed a standardized meal following seated rest (CON) or arm cycling exercise (ACE). The meal is infused with "stable isotope lipid tracers" that allow for determination of the end fates of the fat in the meal.
The project will investigate whether repetitive transcranial magnetic stimulation (rTMS) can be used to potentiate/prime spinal cord injured patients' nervous systems for more intense rehabilitation exercise of longer duration - thus leading to greater recovery of motion function. The technique, in which a magnetic coil is positioned above the scalp and forms a magnetic field that activates the desired center of the brain (eg motor cortex), is used in clinical practice for the treatment of a number of disorders. However, although a combination of rTMS and gait training in SCI patients previously has proven beneficial, it is unknown whether additional functional gains can be achieved by combining rTMS and supervised, high-intensity resistance training. In this project, 30 newly-admitted patients will be recruited and randomized to receive either active rTMS and strength training (n = 15) or sham (imitated) rTMS + strength training, in parallel with standard care. The investigators hypothesize that the active rTMS group will have superior gains in locomotor function and muscle mass, compared to the sham group.
This study is a controlled pragmatic implementation study in clinical practice, with a primary focus on cardiovascular risk reduction through adherence to behavioral interventions related to physical activity and healthy diet.The intervention is interdisciplinary, multimodal and patient activating and uses the existing setting and work flows at the clinic, ensuring that the patients receive education about cardiovascular risk factors, physical activity and healthy diet through a systematic approach including targeted patient education.