Aerobic Training On Spasticity And Gross Motor Function In Children With Diplegic Cerebral Palsy...
Cerebral PalsyTo determine the effects of aerobic training on spasticity and gross motor function in children with diplegic Cerebral palsy.Cerebral palsy (CP) is a neurodevelopmental disorder characterized by abnormalities of muscle tone, movement and motor skills, and is attributed to injury to the developing brain. . The spastic CP is found to be the commonest presentation followed by athetoid, ataxic and mixed types. Children with cerebral palsy (CP) have decreased capacity to participate in play and sports activities .Reduced capacity to perform typical childhood activities contributes to low habitual physical activity and declining gross motor function in adolescence. Exercise opportunities are restricted in the population of cerebral palsy with spasticity, and so muscle strength may be reduced by disuse. Aerobic Training via Lower-extremity cycling is a rehabilitation tool used by physical therapists to improve spasticity, gross motor function and cardio-respiratory fitness, appears well-suited as a therapeutic intervention for children with CP. The tools used will be GMFM-66 and Modified Ashworth Scale. Study will be conducted on Thirty two patients in two Groups. Group A will be Control Group that will be provided with conventional physiotherapy (Stretching exercises , Trunk control training, walk and breathing exercises) and Group B will be Experimental Group that will be provided with conventional physiotherapy with cycling for 30 minutes with three sessions per week over the period of 12 weeks. Data will be analyzed using spss 22.0.
Photobiomodulation Therapy Treatment on Facial Paralysis
Facial ParalysisObjective: Facial paralysis can be caused by a variety of etiological factors, complete palsy continues for two months, the chance of full recovery is reduced to zero. The aim of this study was to evaluate the effectiveness of photobiomodulation therapy (PBMT) in the in patients undergoing facial paralysis over 8 weeks. Methods: This study was an open-label, not concurrent control study including 54 patients that underwent facial paralysis over 8 weeks. Patients were assigned to the PBMT group and control group, with 27 patients in each group. Laser treatments were applied 3 days a week after recruited. PBMT was delivered using a class IV Multi-wave Locked System that combines with a simultaneous 808 nm continuous emission and 905 nm pulse emission and the maximum peak power was 25 W. Clinical outcome measure comprised the House-Brackmann grading system, Facial Clinimetric Evaluation Scale (FaCE), Sunnybrook facial grading scale (SBFG), and electrophysiological testing, including Electroneuronography (ENoG), Electromyography (EMG) and Blink Reflex. All the measurements were collected at the first day and at the end of study. All reported P values were two-sided and were declared statistically significant when less than 0.05.
Photobiomodulation Therapy for Idiopathic Facial Paralysis
Bell's PalsyObjective: Bell's palsy is characterized by acute, unilateral onset that compromises function and esthetics, exerting a considerable impact on the social, professional, and psychological aspects of the lives of affected individuals. Without treatment, 30% of patients with complete paralysis will not completely recover. Therefore, shortening the recovery time will accelerate the recovery process leading to better results. The aim of this study was to evaluate the effectiveness of photobiomodulation therapy (PBMT) in the patients undergoing Bell's palsy. Methods: This study was an open-label, randomized controlled trial including 96 patients that undergoing Bell's palsy. Patients were assigned to the PBMT group and control group, with 48 patients in each group. PBMT group were received 12 sessions of PBMT (3 times per week), while control group were received prednisolone treatment. Clinical outcome measure comprised the House-Brackmann grading system, Facial Clinimetric Evaluation Scale (FaCE), Sunnybrook facial grading scale (SBFG), and electrophysiological testing, including Electroneuronography (ENoG), Electromyography (EMG) and Blink Reflex. All the measurements were collected at the first day and at the end of study. All reported P values were two-sided and were declared statistically significant when less than 0.05.
Effects of Additional Functional Strength Training on Mobility in Children With Hemiplegic Cerebral...
Hemiplegic Cerebral PalsyMobilityThe randomized control trail was to determine the effects of additional functional Strength Training on mobility in Children with Hemiplegic Cerebral Palsy.
Validation of AI for Personalized Assessment and Rehabilitation of Upper Limb in Children With Unilateral...
Unilateral Cerebral PalsyUnilateral Cerebral palsy (UCP) is the most common neurological chronic disease in childhood with a significant burden on children, their families and health care system. AInCP aims to develop evidence-based clinical Decision Support Tools (DST) for personalized functional diagnosis, Upper Limb (UpL) assessment and home-based intervention for children with UCP, by developing, testing and validating trustworthy Artificial Intelligence (AI) and cost-effective strategies. The AInCP approach will: i) establish a clinical diagnosis and accurate prognosis for treatment response of individual UCP profiles, by employing a multimodal approach including clinical phenotyping, advanced brain imaging and real-life monitoring of UpL function, and ii) provide personalized home-based treatment, from advanced ICT and AI technologies. The AInCP will build upon personalized diagnostic and rehabilitative DST (dDST and rDST) to be developed and validated through large observational and rehabilitation studies, including at least 200 and 150 children with UCP, respectively. Using data driven and AI approach, dDST and rDST will be combined for developing a theranostic DST (tDST) that will allow the re-designing of an economical, ethical, sustainable decision-making process for delivering a personalized and validated approach, focused on the care, monitoring and rehabilitation of UpL in children with UCP. AInCP is a significant example of a transdisciplinary approach, where all project collaborators (clinicians, data scientists, physicists, engineers, economists, ethicists, SMEs, children and parent associations) will work closely together in building the AInCP approach. This approach will, therefore, hinge on transdisciplinary contributions, multi- dimensional data, sets of innovative devices and fair AI-based algorithms, clinically effective and able to reduce users? and market barriers of acceptability, reimbursability and adoption of the proposed solution.
Predicting Neuromuscular Recovery in Surgical Patients Using Machine Learning
Residual ParalysisPost Anesthesia2 moreDespite emerging efforts to decrease residual paralysis and postoperative complications with the use of quantitative neuromuscular monitoring and reversal agents their incidences remain high. In an optimal setting, neuromuscular blocking agents are dosed in a way that there is no residual block at the end of surgery. The effect of neuromuscular blocking agents, however, is highly variable and is not only influenced by their dose, but also by several patient-related factors such as muscle status, metabolic activity, and anesthesia management. Accordingly, the duration of action is difficult to predict. The PINES project will use artificial intelligence methods to develop a model that can accurately predict the course of action of neuromuscular blocking agents. It will be used to predict time to complete neuromuscular recovery (train-of-four [TOF] ratio >0.95) and may provide as a decision support in the individual management of timing and dosing of neuromuscular blocking drugs and their reversal agents.
Aquatic-based Explosive Strength Training in Children With Cerebral Palsy
Cerebral PalsyThis study was designed to assess the effect of a 12-week aquatic-based plyometric (Aqua-PLYO) training on postural control and functional performance in children with hemiparetic cerebral palsy (h-CP). Fifty-six children with h-CP were randomly allocated to the Aqua-PLYO group (n = 28, received an Aqua-PLYO training program, trice/week, over 12 weeks) or the control group (n =28, received standard rehabilitation). Both groups were assessed for postural control and functional performance pre and post-treatment.
Halliwick Concept on Motor Functions in Spastic CP
Spastic Cerebral PalsySpastic Hemiplegic Cerebral PalsyThis randomized controlled trial will investigate the effect of hydrotherapy (halliwick concept) on motor functions in children with spastic cerebral palsy (CP). Minimum of 30 Spastic CP children will be recruited for this study. Children will be randomly assigned into control group who will receive conventional selected exercise treatment or study group who will receive the same conventional program in addition to underwater exercise program. Motor function will be evaluated at baseline and after 3 months of treatment. No potential harms are expected during this study.
Outcomes of Stem Cells for Cerebral Palsy
Cerebral PalsyThe aim of this study is to assess the safety and effectiveness of autologous bone marrow mononuclear stem cells in patients with cerebral palsy.
A Prospective Study of Two Home Based Muscle Strengthening Programs for Children With Cerebral Palsy...
Cerebral PalsyThe 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.