View clinical trials related to Muscle Weakness.
Filter by:Muscle power training has proven to be an effective intervention to prevent sarcopenia and frailty in old people. In the last decade, new concepts related to the functionality of old people have been generated, such as muscle quality and functional capacity. The power training consists of rapid movements of short duration that imply a more specialized neuromuscular response and that improve the functional response reflected in activities of daily life that demand a certain manifestation of muscular power (stand up of a chair, climbing stairs, rebalance, accelerate suddenly, among others). Therefore, it is important to investigate the dose-response relationships in power training in older people and establish how possible improvements in muscle quality can be reflected in functional capacity. The aim of this study is to compare the effects of power training at two different loads on muscle quality and functional capacity in women aged 65-75
Multiple Sclerosis (MS) patients with subjective dysphagia will be tested for tongue strength fatigue using a strictly defined fatigue paradigm. A maximum of 40 sets will be performed, each set consisting of 5 repetitions of 80% of maximum isometric pressure (MIP) at the anterior tongue, followed by a MIP at the anterior tongue. Cut-off criteria are a MIP <50% of the baseline MIP, pronounced subjective discomfort and/or exceeding the allocated test time of 30 minutes.
Certain clinical syndromes eg frailty, sarcopenia, dementia, depression, cognitive impairment, vision impairment and falls in older adults carry an increased risk for poor health outcomes and if identified early, can be prevented, delayed or reversible. There is evidence to suggest that exercise and dietary intervention can help delay or prevent sarcopenia, frailty and dementia. The current hypothesis is older adults do not consume enough protein in their diet. Local delicacies enhanced with protein content, in addition to physical activity will improve muscle strength, function, perceived health status and possibly may even reverse frailty and sarcopenia. Additionally, it is hypothesized that combination of multi component group exercise activities and high protein nutrition will be effective in improving participants' social, mental and physical status.
Older adults who are referred to home care physiotherapy often only get to see the physiotherapist three to five times and are expected to continue exercising on their own. We have developed an interactive technology called ABLE that helps older adults do exercise in their homes by making it fun and interactive. We want to see if we can help 25 older adults to exercise with ABLE for three months and if exercising with ABLE for three months changes older adults' strength and balance. A physiotherapist will visit the older adults three times in their homes and show them how to use ABLE and which exercises to do. We will measure older adults' strength and balance before and after using the program and ask them and their family members for feedback about using ABLE. The results of our study will help us decide if we can do a bigger study to test the effect of using ABLE in a larger group of older adults, and to see what effect ABLE might have on strength and balance. The study will also help us incorporate feedback from the older adults and their families to improve ABLE for the next study.
Neuromuscular electrical stimulation (NMES) has recently been combined with blood flow restriction (BFR) in controlled trials and has shown increased muscular strength and size compared with NMES and BFR on their own. However, none have used BFR pressures previously recommended. The first study of my Ph.D. found 40% and 80% BFR pressures to induce acute fatigue and muscle swelling. However, 80% caused higher ratings of pain and perceived exertion. The present study will determine whether NMES combined with either 40% or 80% BFR causes greater structural muscular adaptations and is perceptually easier after 6 weeks of training.
Anterior cruciate ligament (ACL) injury is a common sport injury in both professional and recreational athletes. Furthermore, persistent quadriceps weakness and wasting are frequently observed after anterior cruciate ligament reconstruction (ACLR). Several studies have demonstrated that muscular rehabilitation to normal strength is difficult, protracted, and often not achieved due to the inability to fully activate the quadriceps voluntarily. Pain and disuse are often blamed for the inhibition of muscle activation following joint injury. However, arthrogenic muscle inhibition (AMI) is often overlooked and not addressed. Thus, the magnitude of strength restoration of the quadriceps is frequently restricted despite solid rehabilitation protocols. As AMI is a reflex inhibition of musculature involving the neurotransmitter γ-aminobutyrate (GABA), Gabapentin may have a potential role in modulating AMI, therefore limiting muscle weakness after ACLR.
Inspiratory muscle training for 8 weeks in patients with chronic thromboembolic pulmonary hypertension.
The Novus system intended to provide ankle dorsiflexion and knee flexion or extension in individuals with foot drop and thigh muscle weakness, following an upper motor neuron injury or disease. The primary objective of the study is to evaluate the usability of the Novus system among these patients and to gain subjects' feedback regarding the device when used on a daily basis.The secondary objective is to obtain information about the performance of the system as a gait assistive device and to evaluate the subject's Quality of Life while using the system.