View clinical trials related to Paralysis.
Filter by:The purpose of the study is to examine the outcomes of home-based robot-guided therapy and compare it to laboratory-based robot-guided therapy for impaired ankles in cerebral palsy. Children with spastic cerebral palsy (CP) are randomly placed into two groups, participating in robot-guided stretching and active movement training either in a research lab setting (Lab group) or in a home setting (Home group).
The purpose of this study is to assess the efficacy of antiviral medicine (acyclovir) in recovery of complete facial Palsy. Fifty patients (Males and females) with acute Facial Palsy within the first 3 days of onset with age ranged from 15-60 years old. Each patient was submitted to the following clinical evaluation using House and Brackmann 6 facial function scoring system and Synnybrook grading system. Neurophysiological assessment of facial nerve and muscles was done before and after the end of treatment, then after the end of first and second month of treatment. EMG was done for facial muscles of both sides beside measuring facial nerve excitability to determine the excitation threshold by recording the minimum electrical stimulus required to produce visible muscle contraction. A difference greater than 3.5 mA between the affected and unaffected side is considered significant in terms of poor prognosis. Nerve conduction study of facial nerves of both sides using concentric needle electrode. Trigeminal Blink reflex for both sides of the face. Facial functional recovery was defined as "good" or "complete" using the same criteria used in the 2001 practice guideline. An outcome of grade I or II was considered a good recovery using the House and Brackmann 6 facial function scoring system
The aim of this randomized, stratified, single-blinded study is to compare two home based strength-training protocols (High Intensity Interval Training and Progressive Resistance Training) and their effects on muscle strength, gait and aerobic and anaerobic capacity in children with cerebral palsy.
The study aims to analyze the genetic variance between thyrotoxic periodic paralysis (TPP) patients and pure hyperthyroidism individuals. Meanwhile, the investigators also intended to evaluate the morphological difference in effected skeletal muscles and investigate their relation with genetic variance.
Stridor is a respiratory noise caused by partial obstruction of the large airways at the level of the pharynx, larynx and/or trachea. The second most common cause of stridor is vocal cord paralysis. Awake nasolaryngoscopyn (ANL) is regarded as the gold standard for the diagnosis of laryngomalacia. However, ANL has some drawbacks as it may cause discomfort for the patient and the laryngeal view may be obscured due to patient movement or anatomical variations. Ultrasound (US) is a noninvasive, painless, radiation free, well tolerated imaging technique. Evaluation of the dynamic characteristics of the glottis by US revealed perfect reliability in comparison to nasolryngoscopy suggesting that US can be useful in the assessment of laryngeal adduction. The investigator hypothesize that laryngeal US can be an accurate and reliable adjunct in the diagnosis of functional and anatomical causes of stridor and dysphonia in the pediatric population.
The purpose of this study was to study the effect of autologous bone marrow mononuclear cells on common symptoms of cerebral palsy patients.
This study is designed to assess effectiveness, safety and cost-utility of conventional rehabilitation and traditional Korean medicine conjugated rehabilitation on children with cerebral palsy.
The Lokomat is a robotic treadmill gait trainer that is used to help people who have neurologic conditions walk better. Early research with children with cerebral palsy (CP) shows that it may help to improve walking skills. The purpose of this two-group randomized study is to compare Lokomat training to regular physiotherapy (PT) as far as impact on walking abilities and related function. The primary (alternate) hypothesis is that children will improve more with Lokomat training in terms of gross motor skills and walking endurance. The investigators are enrolling 40 ambulatory children who are ages 5 to 12 years, have CP and are in Gross Motor Function Classification System (GMFCS) Level II (n=20) or III (n=20). In this crossover randomized clinical trial (RCT), whether PT or Lokomat intervention is done first is decided by an independent randomization process that occurs after the first baseline assessment. In the Lokomat phase, children receive 8 to 10 weeks of twice weekly therapy for a maximum of 16 sessions. Each session is 35 minutes plus the time needed for set-up. The 35 minute PT program is also given twice weekly for 8 to 10 weeks for a maximum of 16 sessions, and focuses on a menu-based strength, co-ordination, fitness, walking and balance activities. There is a 6 week break between the Lokomat and PT interventions. Each child has four study assessments during their ~6 months in the study. The first assessment is done before starting the Lokomat or physiotherapy phase. The second happens after the first intervention has finished. The child then has a 6-week break period. The third assessment is done at the end of this break, and the fourth occurs after the second intervention. The PT assessor who does these assessments will not be the same as the PT who gives the intervention. The assessor is blinded to the child's intervention phase and previous assessment results. The primary outcome measures are the Gross Motor Function Measure and 6 minute walk test. Secondary measures evaluate gait, functional abilities, participation, health related quality of life and individualized goals. The randomized aspect of the study lets us look at outcome differences between children for Lokomat and PT within their first intervention phase (n=20/group). The cross-over phase evaluates within-child outcomes across the two phases. A qualitative component is concurrently underway to examine child/parent experiences and their views of Lokomat outcomes.
1. To assess the clinical and neurophysiological efficacy of Xeomin® vs. Botox® in children with spastic equine and equinovarus foot deformation in pediatric cerebral palsy 2. To assess the safety of Xeomin® use as compared to Botox® in this patient population
Mandarin Chinese phonemically distinguishes four tones, with Tone 1 having high-level pitch, Tone 2 high-rising pitch, Tone 3 low-dipping pitch, and Tone 4 high-falling pitch The same segmental context carries different meanings depending on the tone. The function deficit of cricothyroid (CT) muscle, innervated by external branch superior laryngeal nerve (eSLN), would impair the speech tone adjustment. The defect in tone adjustment may interfere with the communication function in Mandarin Chinese speaker more than other language users. This may explain while peripheral unilateral vocal fold paralysis (UVFP) patients with eSLN injury had worse outcomes than those with sole recurrent laryngeal nerve paralysis. The neuromuscular control of laryngeal muscle can be evaluated by laryngeal electromyography (LEMG). The investigators have utilized a quantified LEMG (denoted Q-LEMG) in their previous research to measure the neuromuscular control of thyroarytenoid- lateral cricoarytenoid (TA-LCA) adductor complex. However, the task to measure the CT muscle function by Q-LEMG has not been developed yet. It is of thus of utmost interest to develop a standardized task to measure the neuromuscular function of CT muscle in Mandarin speakers. In Mandarin speaking patients with UVFP, the lexical tone influence from CT muscle can be discovered by the technique. The investigators also want to measure the lexical tone correction by conventional laryngoplasty and its influence in CT muscle activity. The data of lexical tone and its correlation with CT contractile activity is important in attempting pitch adjust artificial electrolarynx.