View clinical trials related to Cerebral Palsy, Spastic.
Filter by:PURPOSE: To assess the effect of backward walking training on back geometry and mobility function in children with hemiparetic cerebral palsy through a comparative analysis with forward walking training. BACKGROUND: Spinal deformities are important orthopaedic problems among children with cerebral palsy. A detailed evaluation of all these areas when the child first arrives for treatment is essential. The majority of research in children with CP is focused on assessment and treatment of upper and lower extremities. In contrast, literature on trunk control in children with CP is scarce. Although proximal trunk control is a prerequisite for improving balance and weight symmetry, there is a lack of studies that reported the role of forward and backward walking training in treating the trunk for children with CP. Therefore, the purpose of this study will investigate the role of backward walking training in addition to conventional physiotherapy program on back geometry and mobility function in children with spastic hemiparetic cerebral palsy. HYPOTHESES: The null hypothesis of this study could be stated as: There will be no statistically significant difference in back geometry and mobility function after adding backward walking training to conventional physical therapy program in spastic hemiparetic cerebral palsy children compared with forward walking training. RESEARCH QUESTION: Do adding backward walking training to conventional physical therapy program improves back geometry and functional mobility in children with hemiparetic cerebral palsy?
BACKGROUND: Walking and balance problems are among the most common problems in individuals with cerebral palsy (CP). Hip abduction and extension muscle function insufficiencies are common in children with CP. OBJECTIVE: The aim of this study was to investigate the immediate and long-term effects of Kinesio® Taping (KT) applied on the gluteus maximus and gluteus medius muscles on walking, functionality, balance, and participation in children with unilateral spastic CP. METHOD: This study was designed as a randomized controlled trial. The study included 20 children with unilateral spastic CP: 11 in the taping group and 9 in the control group. KT was applied in the taping group for 4 weeks in addition to a physiotherapy program. The control group received only the physiotherapy program. Body structure and functions were evaluated with the Pediatric Berg Balance Scale (PBBS). Activity was evaluated with the Timed Up and Go Test (TUG), Functional Mobility Scale (FMS), Gross Motor Function Scale (GMFM-88), the BTS G-Walk Spatiotemporal Gait Analysis System. Participation was evaluated with the Canadian Occupational Performance Measure (COPM). Evaluations were made at the beginning of the study and 30 minutes after the first tape application, and at the end of 4 weeks in the taping group. The level of significance was accepted as p<0.05.
Statement of the problem: Does task-oriented circuit training have an effect on kinematic parameters of gait, pelvic symmetry and trunk endurance in children with hemiplegic CP? Purpose of the study: This study aims to: - Investigate the effect of exercise-based task-oriented circuit training on gait kinematics including (Stride length, step length, cadence, walking speed, ankle dorsiflexion angle in initial contact, knee extension angle in midstance and hip extension angle in terminal stance) in children with hemiplegic CP. - Determine the effect of task-oriented circuit training on pelvic symmetry including (Anterior and lateral pelvic tilting) in children with hemiplegic CP. - Examine the effect of task-oriented circuit training on trunk endurance including (prone plank test, timed partial curl up test, front abdominal power test and unilateral supine bridge test) in children with hemiplegic CP.
This study aimed to investigate the effect of individualized virtual reality therapy on upper extremity functions of children with hemiparetic cerebral palsy. Forty children (26 boys, 14 girls) with spastic hemiparetic cerebral palsy were included in this study. The primary outcome measure of this study was the Quality of Upper Extremity Skill Test, secondary outcome measures were the Modified Ashworth Scale and the "Reaching Map Test". The children were randomized into two groups. The first group was received conventional physiotherapy and virtual reality therapy for 60 minutes.The second group was received conventional physiotherapy and, activity training which the same movement patterns with virtual reality games for 60 minutes. Both treatments were given three times a week for eight weeks.
The primary aim of this study is to gain knowledge about both the effects of a single bout of static and proprioceptive neuromuscular facilitation (PNF) stretching and the effects of 8-week static and PNF stretching training on the calf muscle-tendon properties in children with spastic cerebral palsy (SCP). Furthermore, the effects on joint and muscle function, stretch reflexes, gait, and self-reported gait function and functional performance are examined to receive a comprehensive picture of potential changes. Further aims of this study are to identify which stretching technique might be more efficient by comparing the effects of both stretching interventions, and to gain information about the influence of foot flexibility on the stretch achieved by the spastic gastrocnemius muscle.
The purpose of our study; to investigate the effects of EMG-induced ES treatment on hand functions, muscle strength, and quality of life in patients with hemiplegic CP.
The aim of this study was to research the effects of hippotherapy simulator in children with Cerebral Palsy. In order to evaluate its effectiveness, assessment of gross motor functions, lower extremity functions, muscle tone and spasticity, trunk control, sitting and standing balance, walking functions and functional independence were being applied.
Gait abnormalities, which occur in Cerebral Palsy (CP), are characterized usually by a toe-to-floor or a plantar-to-floor initial contact (equinus gait), followed by an early braking of the tibia's forward progression (during ankle dorsiflexion). This causes consequently a trunk deceleration. Moreover, children with CP have difficulties to stabilize the trunk and the head in the space, and that could have impact on gait. If equinus gait is often attributed to the triceps surae spasticity, recent works suggest rather that this early braking of the dorsiflexion could be a motor adaptation to axial postural control difficulties. This thesis project aims firstly to attest that locomotor disorders are related to these difficulties in the stabilization of the axial body segments in children with CP and, secondly, to show that improving the trunk and head postural control with a specific rehabilitation protocol could reduce the early braking of the dorsiflexion and, consequently, the gait abnormalities observed in CP.
Cerebral palsy (CP) is caused by a non‐progressive injury in the developing brain, which leads to problems in functional mobility, posture, neuro musculoskeletal functions and gait. Around 75% of children with CP are ambulatory however they have gait problems such as excessive knee flexion, stiff knee, crouch gait or equinus which affects the quality of gait. When constructing an effective treatment plan in children with CP, a comprehensive assessment should be performed. One of the most essential assessments is gait analysis. Gait analysis is used in the quantitative assessment of gait disturbances providing functional diagnosis, assessment for treatment, planning, and monitoring of progress. Gait analysis aims to determine the factors leading to gait disturbances. To reach this aim, a large amount of quantitative data concerning the gait characteristics of a patient is analyzed. The assessment of these data can be performed via standardized clinical videos, recorded with numerical video cameras used in conjunction with optical 3D systems. The purpose of this study was to confirm the test-retest reliability of a commercially available body-worn sensor— G-Walk® sensor system—for spatiotemporal gait parameters in children with CP.
Selective motor control (SMC) impairment in children with cerebral palsy (CP) includes movement patterns dominated by flexor or extensor synergy affecting functional movements. The research was designed to investigate the validity and the reliability of the Turkish version of the Test of Arm Selective Control (TASC) (which is improved to evaluate SMC in children with spastic CP) and in order to provide more understanding of the relationship between SMC and upper extremity and gross motor functions. The study included 21 hemiplegic, 11 diplegic and 4 quadriplegic children with CP whose ages are 4 to 18 years and Gross Motor Function Classification System (GMFCS) level changes from 1 to 4, and their parents. In order to evaluate the gross motor function of children, GMFCS and the ability to hold objects with their hands in daily activities were evaluated with Manual Ability Classification System (MACS). ABILHAND-Kids scale was applied to evaluate upper extremity performance. TASC scale was used to evaluate the upper extremity SMC of children.