View clinical trials related to Asthenia.
Filter by:This study aims at comparing manual function outcomes between the standard of care and additional self-administered hand therapy after stroke. Strokes are common neurological injuries, and although rates of survival have increased in recent decades, survivors often continue to experience deficiencies in hand dexterity and bimanual function. Most motor recovery takes place within the first 3 months after a stroke. This initial period is necessary for stabilizing the patient but also provides different opportunities to foster motor recovery. Functional gains, including instances after the post-acute period, have been observed after regular and frequent (high dosage) therapy, suggesting that recovery is likely influenced by practice-driven sensorimotor learning. These findings motivate the implementation of daily therapeutic regimes beyond post-stroke hospitalization and basic motor function, aiming instead at addressing overlooked deficiencies in manipulation and bimanual coordination. While some hand therapy is often provided during outpatient therapy visits (the standard of care), self-administered sessions play a large role in implementing additional daily therapy. As a result, the investigators are interested in both the implementation of self-administered regimes and measuring clinical outcomes with and without self-administered therapy.
Ventilator-induced diaphragmatic dysfunction and intensive care unit (ICU)-acquired weakness are two consequences of prolonged mechanical ventilation and critical illness in patients with acute respiratory distress syndrome (ARDS). Both complicate the process of withdrawing mechanical ventilation, increase hospital mortality and cause chronic disability in survivors. During transition from controlled to spontaneous breathing, these complications of critical illness favor an abnormal respiratory pattern and recruit accessory respiratory muscles which may promote additional lung and muscle injury. The type of ventilatory support and positioning may affect the muscle dysfunction and patient-self-inflicted lung injury at spontaneous breathing onset. In that regard, ARDS patients with ventilator-induced diaphragmatic dysfunction and ICU-acquired weakness who are transitioning from controlled to partial ventilatory support probably present an abnormal respiratory pattern which exacerbates lung and muscle injury. Physiological-oriented ventilatory approaches based on prone positioning or semi recumbent positioning with abdominal binding at spontaneous breathing onset, could decrease lung and muscle injury by favoring a better neuromuscular efficiency, and preventing intense inspiratory efforts and high transpulmonary driving pressures, as well as high-magnitude pendelluft. In the current project, in addition to perform a multimodal description of the severity of ventilator-induced diaphragmatic dysfunction and ICU-acquired weakness in prolonged mechanically ventilated ARDS patients, prone positioning and supine plus thoracoabdominal binding at spontaneous breathing onset will be evaluated.
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.
The prevalence of Sjogren's syndrome (SS) in rheumatoid arthritis (RA) patients varies from 3.5 to 31%. Between 30% and 90% of patients with (RA) have dry eye and/or mouth syndrome. To date, no studies have assessed whether RA patients have echostructural changes in their salivary glands suggestive of SS and the factors associated with these changes.The aim of this study is to investigate if there are changes in the echostructure of the salivary glands of RA patients, especially in patients with dry syndrome.
This is prospective multicentre comparative randomized double blind placebo controlled study conducted in 6 medical facilities.The objective of the study is to assess the safety and efficacy of the sequential therapy with BRAINMAX®, solution for intravenous infusion and intramuscular injection, and BRAINMAX®, capsules for the treatment of patients with asthenia after having the novel coronavirus infection (COVID-19)
The purpose of this study is evaluating of efficacy of innovative dietary strategy -stimulation of physiological ketosis with Liquid Technology Formula PanTrek, in patients with asthenia and or decreased tolerance to physical and\or mental exertion. PanTrek is a liquid formula of potassium and magnesium salts of beta-oxibutiric acid, ginsenosides and rosmarinic acid.
The overarching goal of the proposed study is to determine the trajectories of physical recovery and cellular markers involved with the underlying failure to recover muscle after critical illness, while exploring which characteristics are associated with sustained physical disability. This proposal will examine muscle pathophysiology carefully aligned with physical function outcomes in order to longitudinally assess the recovery, or failed recovery, of muscle function in participants after critical illness: 1. to examine the recovery of muscle and physical function in ICU survivors through longitudinal assessments 2. to investigate the underlying cellular markers and mechanisms of muscle recovery in ICU survivors 3. to determine which cellular markers contribute to physical disability in ICU survivors up to 1 year after hospital admission
Particularly, muscle respiratory wasting will occur early (18 to 69 hours) in up to 60% of patients with mechanical ventilation (MV), leading rapidly to diaphragmatic weakness, which is associated with prolonged MV use, longer ICU and hospital stay, and higher mortality risk. Sepsis and muscle inactivity, derived from sedation and MV use, are key driver mechanisms for developing these consequences, which can be avoided through early physical activation. However, exercise is limited at the early stages of care, where sedation and MV are needed, delaying muscle activation. Neuromuscular electrical stimulation (NMES) represents an alternative to achieve early muscle contraction in non-cooperative patients, being able to prevent local muscle wasting and, according to some reports, has the potential to shorten the time on MV, suggesting a systemic effect through myokines, a diverse range of cytokines and chemokines secreted by myocytes during muscle contraction. However, no studies have evaluated whether NMES applied to peripheral muscles can exert distant muscle effects over the diaphragm, ameliorating its weakness and if this protective profile is associated with myokine's change in ICU patients. This proposal comprises a randomized controlled study of NMES applied twice daily, for three days, compared to standard care (no NMES). Thirty-two patients will be recruited in the first 48 hours after MV and randomly assigned to the control group or NMES group (16 subjects each). Muscle characterization of quadriceps and diaphragm will be performed at baseline (Day 1, before the first NMES session) and after the last NMES session (morning of day 4). Myokine measurements [IL-1, IL-6, IL-15, Brain-Derived Neurotrophic Factor (BDNF), Myostatin and Decorin], through blood serum obtained from peripheric blood samples, will be performed just before starting NMES (T0) at the end of the session (T0.5), and 2 and 6 hours later (T2 and T6). These myokine curves will be repeated on days 1 and 3 at the first NMES session of the day. The Control group will be assessed in the same way and timing, except that blood samples will be at T0 and T6. Additionally, functional outcomes such as MV time and ICU length of stay will be registered for all patients at ICU discharge. Standard care won´t be altered.
The primary purpose of this study is to establish that application of a Sequential Compression Device (SCD) and lower extremity (LE) sleeve applied to a hemi-paretic upper extremity is safe.
Intensive care unit-acquired muscle weakness (ICUAMW) is a common problem following an ICU admission and is associated with prolonged hospitalization, delayed weaning and increased mortality. Up to 25% of patients requiring mechanical ventilation (MV) for greater than 7 days develop ICUAW, and this figure may rise to 50-100% in the septic population. Long-term follow-up studies of survivors of critical illness have demonstrated significantly impaired health-related quality of life and physical functioning up to 5 years after ICU discharge, with weakness being the most commonly reported physical limitation. Early rehabilitation has been shown to be safe and feasible; however, commencement is often delayed due to a patient's inability to cooperate. An intervention that begins early in ICU admission without the need for patient volition may be beneficial in attenuating muscle wasting. Therefore, this study aims to evaluate the effect of neuromuscular electrical stimulation and early physical activity on ICU acquired muscle weakness in mechanically ventilated patient