View clinical trials related to Upper Extremity Dysfunction.
Filter by:Spina bifida is one of the neural tube defects that cause neuromuscular dysfunction. Spina bifida is a disease accompanied by motor paralysis, musculoskeletal problems, Arnold-Chiari malformation, osteoporosis, hydrocephalus, upper limb coordination disorder. The affected upper extremity functionality and hand skills are very important for independence in daily living activities. There are some studies in the literature showing that upper extremity motor function is affected in patients with spina bifida. However, no study was found in which the upper extremity was investigated in terms of sensory and motor proficiency.The social and professional aspects of the upper extremity are of great importance.Therefore, our study aims to investigate the effects of upper extremity sensory and motor proficiency in patients with spina bifida
The primary purpose of this study is to determine the feasibility of our proposed intervention approach involving (1) an integrated physiotherapy and exercise intervention for individuals with breast cancer who are undergoing chemotherapy and (2) delivery of programming via an electronic health (eHealth) application. The secondary objective is to determine the efficacy of the program on upper extremity outcomes, general physical fitness, cancer treatment-related symptoms and quality of life.
Cerebral Palsy (CP) is a non-progressive neurodevelopmental disorder characterized by posture and movement disorders as a result of damage to the immature brain for any reason before, during or after birth.In addition to tone, postural and neuromuscular control in children with Cerebral Palsy; Problems are also observed in communication skills, perceptual and cognitive systems and sensory systems.
Cerebral palsy (CP) is a movement and posture disorder accompanied by sensory, perception, cognition, communication and behavioral disorders that cause activity limitations by causing various non-progressive disorders of the fetal or infant brain. Spastic CP, according to the affected area in the body; It is classified as hemiparetic, diparetic and is observed most frequently. Diparetic CP, on the other hand, is characterized by significant spasticity in the pelvis and lower extremities, mild hypertonus or spasticity in the upper extremities, and incoordination, mostly involving the lower extremities and some upper extremities.Although lower extremity involvement is observed in different degrees in children with diparetic CP, studies showing how upper extremity and hand functions are affected are insufficient.The aim of this study is to compare the effect of upper extremity functional skills on quality of life and participation levels in children with diparetic CP with their healthy peers.
Cerebral Palsy (CP) is an activity limitation, movement and posture deficiencies in early stage of life. In 80% of these children, upper extremity (UE) dysfunctions are observed, which leads to loss of quality of life, resulting in limited participation in activities of daily living (ADL). When the hands are affected in UE, fine motor skills such as grasping, writing and object manipulation are usually limited. This results in inadequate use of the extremities in functional activities. Although all children with CP are known to be affected by UE, studies in terms of physiotherapy and rehabilitation methods mostly focused on children with hemiparetic CP. Similar problems are observed in children with bilateral involvement. However, a wide variation is observed in the bimanual performance of children with hemiparetic and bilateral involvement. Studies evaluating UE activities in children with CP; emphasized that the inability to manipulate objects manually is one of the most important reasons for the restriction of participation in ADLs. Physiotherapy and rehabilitation programs include many neurodevelopmental treatment approaches including stretching, strengthening, positioning, splinting, casting, orthosis selection and movement facilitation. However, it is known that studies investigating the current efficacy of these treatments on UE functions mostly focus on unilateral CP. Interventions that focus on improving UE functions in children with bilateral CP are limited. In UE rehabilitation in bilateral CP; states that target-focused therapy, bimanual intensive task specific training programs and trainings such as HABIT (intensive bimanual training of the upper extremity) involving the lower extremity have been used, but there is only evidence for HABIT-ILE (HABIT involving the lower extremity). In the literature, it is observed that strengthening training with the Proprioceptive Neuromuscular Facilitation (PNF) method, which makes a significant contribution to muscle strength balance, is mostly used in lower extremity rehabilitation in these children. In this study, in the UE rehabilitation of children with hemiparetic and diparetic CP; in order to stimulate motor responses and improve neuromuscular control and function, the superiority of the PNF approach applied with scapular and UE patterns over the traditional Neurodevelopmental Therapy (NGT-Bobath) method will be determined.
This study is designed to investigate how musical patterns (e.g., patterned sensory enhancement, PSE) and non-invasive brain stimulation (e.g., transcranial direct current stimulation, tDCS) are effective to improve functional upper extremity performances in patients with corticobasal syndrome (CBS). 20 individuals with CBS will be randomly assigned to either PSE group (n= 10) or PSE+tDCS (n=10) group. Both interventions are 30 minutes long, twice a week for three weeks (a total of 6 sessions). Participants' self-reported and measurable outcomes including upper extremity function, kinematic quantities, quality of life, mood, cognitive level, and brain activity (e.g. electroencephalography, EEG) will be assessed in the baseline, pre- and post- each session, and follow-up phase. This study seeks to assess the possibility that music-based intervention and non-invasive brain stimulation may improve outcomes in CBS patients for patients' non-invasive but cost-effective rehabilitation settings in the future.
Stroke is one of the commonest causes of severe disability in adults. Stroke often results in spasticity and motor impairments in the upper limb. Permanent upper extremity impairments can lead to limitations in activities of daily living, social participation, and quality of life. Spasticity may obscure motor learning ability after stroke. Spasticity control is one of the main aims of most therapists in the rehabilitation process for patients with chronic stroke. Traditional approaches for managing spasticity may not be enough for gaining satisfactory results. Virtual reality-based therapy is one of the most innovative and developments in rehabilitation technology. It could be effective in accelerating motor recovery and modulating spasticity for the involved upper limbs. The purpose of this study was to examine the impact of virtual reality-based therapy on upper limb spasticity and motor functions in patients post-stroke.
The injury and remodeling mechanism about upper extremity motor network after stroke is not clear. There are few studies on the motor network covering cortex, white matter and blood perfusion at the time. Some studies have shown that metal imagery activates the cortex through active mental simulation. Our previous study has shown that passive application of transcranial direct current stimulation causes subthreshold polarization and promotes the effective integration of residual brain high-level network. This study proposes a hypothesis: transcranial Direct Current Stimulation + Motor Imagery combines active and passive neuromodulation techniques to produce dual channel effect, which can synergistically excite motor cortex, remodel the motor network and optimize cerebral perfusion. The research contents include clarify the effect of transcranial Direct Current Stimulation + Motor Imagery neuromodulation therapy through comprehensive randomized controlled trial study; present the process of brain injury and secondary neural plasticity through the motor network construction, functional connectivity strength and cerebral perfusion with Blood Oxygen Level Dependent, Diffusion Tensor Imaging and Arterial Spin Labeling multimodal magnetic resonance technology; calculate the correlation between motor score and brain functional network, extract the key nodes that can promote the motor network remodeling. The research results are expected to provide preliminary theoretical foundations for further research on the injury and remodeling mechanism about upper extremity motor network after stroke.
The aim of this study was to examine the validity and test-retest reliability of unsupported upper extremity exercise test (UULEX) in individuals with chronic neck pain. Patients with neck pain lasting at least 3 months will be included in the study. It is planned to examine the validity and test-retest reliability of the UULEX test in that patient groups.
In this study, it was aimed to evaluate whether or not NMES in front of the mirror brings an additional benefit to mirror therapy alone or NMES alone on upper extremity motor and functional development, spasticity, anxiety, depression, cognitive function and activities of daily living, and neuropathic pain.