View clinical trials related to Muscle Weakness.
Filter by:This is a single-arm, open-label, single-center, phase I study. The primary objective is to evaluate the safety of CD19 CAR-T therapy for patients with refractory myasthenia gravis, and to evaluate the pharmacokinetics of CD19 CAR-T in patients.
Septic shock is one of the causes of death in ICU and hospital. Refractory shock is the problem which healthcare providers should recognize though it is difficult to handle with. The corticosteroid called hydrocortisone is one of the treatment in refractory septic shock which requires vasopressor to maintain blood pressure. In recovery phase of septic shock and weaning off vasopressor, there is no definite way to taper off hydrocortisone.
Patients admitted to the hospital often develop functional impairments due to being in bed most of the day. Each day of bedrest leads to significant muscle loss. As a result, many patients become dependent on others or require rehabilitation at a facility to improve mobility and function prior to returning home. Staff in the hospital is limited and often unable to mobilize patients every day while hospitalized. The investigators are testing a new experimental gamified physical therapy exercise software to see if it can be a fun, enjoyable way to help mobilize patients without the assistance of staff. The primary aim of this pilot/proof of concept study is to determine whether gamified physical therapy software can help inpatients exercise within the safety of their own beds and preserve pre-hospitalization function.
In modern society with an increasing aging population, recent literature has defined sarcopenia as a significant reduced mass and function of skeletal muscle with physical limitations due to aging. Clinically and experimentally, the foot often plays a crucial role in sensorimotor control and movement performance in standing, walking, and running. Apparently, previous literature has shown that the intrinsic and extrinsic foot muscles have significantly reduced muscle morphology and muscle strength in the elderly compared to that of young healthy controls. How to effectively increase foot muscles using muscle-strengthening exercises will be a crucial issue for further research and clinical intervention in this population. The intrinsic foot muscles (IFM) are the primary local stabilizer to provide static and dynamic stability in the foot, which are part of the active and neural subsystems to constitute the foot core system. The intrinsic foot muscles (IFMs) may play a key role in supporting foot arches (e.g., the medial longitudinal arch, MLA), providing flexibility, stability, shock absorption to the foot, and partially controlling foot pronation. Due to the difficulties in teaching and learning the plantar intrinsic foot muscle (IFM) exercise, the accuracy and follow-up after learning this exercise could be questioned following this exercise program. Physiologically, the effects of integrated exercise intervention may be achieved following more than 4-week intensive exercise intervention at least. How to learn and activate this kind of exercise efficiently and effectively is a key issue for employing these exercise interventions in the elderly with and without sarcopenia. In this project, we will aim to employ the novel intrinsic foot muscle strengthening device using 3-D printing techniques and to examine the feasibility and reliability of the morphology in intrinsic and extrinsic foot muscles and foot posture before and after exercise intervention using sonographic imaging and foot posture index in the elderly with and without sarcopenia; second, we will investigate whether the immediate and persistent increase in balance control and level-walking after this therapeutic exercise with novel 3-D printing foot core exerciser.
The purpose of this study is to evaluate the efficacy and safety of Telitacicept in the treatment of patients with generalized myasthenia gravis.
The aim of this study is to investigate the efficacy of blood flow restriction (BFR) therapy in post operative rehabilitation following knee arthroscopy.
The investigator proposes to conduct a randomized trial of supervised ambulation delivered by mobility technician (MT) up to three times daily, including weekends, to hospitalized medical patients. The aims of the study are to compare the short and intermediate-term outcomes of patients randomized to the intervention versus those patients randomized to receive usual care, to identify patients who are most likely to benefit from the intervention and to assess whether the intervention increases or decreases overall costs of an episode of care, including the cost of the MTs, the index hospitalization and the first 30 days post enrollment.
In 2018, the Academic Department of Military Rehabilitation (ADMR) published a pilot randomised controlled trial (RCT), demonstrating the feasibility and acceptability of integrating twice-daily blood flow restriction (BFR) training into a busy residential care setting. Following its publication was a guidance note written by the Directorate of Defence Rehabilitation restricting the implementation of BFR training until more evidence can be provided to support its efficacy. This research trial is a fully-powered, multi-centre RCT investigating the efficacy and biological mechanism underpinning BFR therapy in UK military personnel with lower-limb musculoskeletal injury (specifically, persistent anterior knee pain) during residential rehabilitation. This study will aim to optimise both the rehabilitation outcome and improve the time-and cost-effectiveness of the service delivered across UK Defence Rehabilitation and beyond. Results will provide insight and knowledge to the clinical and scientific community to not only those embedded within Defence Rehabilitation, but also those working in civilian sector organisations and professional sport in the UK and abroad.
This Pilot study will hypothesize that patients with organ insufficiency and breathing assistance in our post-anaesthesia care unit (PACU) and ICU will be mobilized more often to an ICU mobility scale (IMS) ≥ 4 (i.e. standing) using the Liana® mobilizer. Therefore a randomized controlled pilot study will be conducted. The aim is to achieve an important physical function mile stone more often using this device. Secondary hypotheses are: 1. The intervention will relieve the burden of the health care staff in the unit 2. The intervention will positively influence the functional outcome of critically ill patients 3. The intervention is perceived as positive by the patients
To evaluate the safety and efficacy of tocilizumab in the treatment of generalized myasthenia gravis (gMG) as an extension study for the participants who previously completed Study tMG(NCT05067348).