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Browse 1,214 clinical trials for als. Find studies that match your criteria and connect with research centers.
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NCT04943315
The objectives of the present study are to compare the survival rates and possible biological and technical complications of metal-ceramic, and monolithic third-generation zirconia posterior crowns. The null hypothesis is that no differences would be found between the parameters studied for each type of restoration.
NCT05689346
Balance reactions and postural control are inadequate in children with CP which affect their daily living activities. So, different treatment modalities have been used to improve balance for cerebral palsy children. Recently, High tone power therapy is a new quantum leap in the field of electro therapy that can be used to stimulate nerves and muscles, so this randomized controlled study will be conducted to investigate the effect of high tone power therapy on balance and quality of life in hemiparetic cerebral palsy children.
NCT05691556
Cerebral Palsy is the most common cause of motor disability in children. It can lead to a deficit of the upper limb which alters the realization of daily activities, in particular in bimanual situations, and eventually leads to a decrease in their participation. Three-dimensional (3D) movement analysis is a tool that provides an accurate and objective measurement of movement. This technology allows us to understand and characterize movement anomalies in order to guide and adapt therapies to the upper limb. The majority of 3D upper limb analysis protocols used to measure the effect of interventions, such as botulinum toxin injections indicated for the treatment of spasticity or other innovative rehabilitative therapies, are unimanual and do not study bimanual function, which is more representative of the actual use of the upper limbs in daily life. Recently, a 3D bimanual analysis protocol called "Be An Airplane Pilot" (BE-API), taking place in an innovative play context, has been developed and validated in PC children. The 2nd version of the protocol (BE API 2.0) also allowed the exploration of new parameters in a bimanual situation such as the fluidity and the trajectory of the movement. In order to determine the interest of the BE API 2.0 protocol in routine clinical evaluation of the upper limbs, its sensitivity to change, i.e. its capacity to detect modifications caused by a therapy on the movements of the upper limbs is necessary (e.g.: Hand and Arm Bimanual Intensive Therapy Including Lower Extremity (HABIT ILE), botulinum toxin injections).