Cerebral Palsy, Spastic Clinical Trial
Official title:
Relationship Between Sit to Stand Movement, Trunk Control and Selective Motor Control of Lower Extremity in Children With Hemiplegic and Diplegic Cerebral Palsy
The aim of this study is to examine the relationship between trunk control and lower extremity selective motor control during the movement of sit to stand (STS) in children with cerebral palsy (CP).
The aim of this study is to examine the relationship between trunk control and lower
extremity selective motor control and balance problems during the movement of sit to stand
(STS) frequently encountered in children with cerebral palsy (CP) in daily life and to
compare the STS performance of in children with CP and typical developing children. CP
patients have difficulty in daily life activities due to muscle weakness, lack of muscle
coordination, balance and postural control disorders. STS activity, which is one of the most
frequently used activities in daily life, is a biomechanical activity in children with CP,
requiring neuromuscular coordination and postural control outside of muscle strength. It is
not enough to evaluate the muscle strength to evaluate the STS movement which is very
important for these group, it is necessary to evaluate the balance of this movement of
children with CP and the isolated muscle strengths (selective motor controls) of the lower
extremity that we believe may affect this movement. There is not enough information about
whether there is a relationship between the trunk controls and the selective motor controls
of the lower extremities during the STS movement in children with CP. The information in the
literature is limited to the fact that trunk control and muscle strength affect the balance
during the STS movement. However, there is no study examining the relationship between
selective motor control and trunk control during STS movement in children with CP.
This study, which includes selective motor control and trunk control, aims to eliminate this
deficiency in the literature. In addition, the performance of the participants STS movement
will be evaluated objectively with the test of the computerized balance device planned to be
applied. In this study, to in children with CP; "Modified Ashworth Scale" to evaluate
spasticity in the hip, knee and ankle, "Gross Motor Function Classification System" to
determine gross motor levels, "Trunk Control Measurement Scale" to measure dynamic and static
balance, "Gross Motor Function Measure-88's sitting sub-test" to assess seating function",
"Selective Control Assesment of Lower Extremity" to assess the selective motor control of the
knee and ankle muscles, the sit to stand test of the computerized postural analysis device
will be applied to assess the duration of the STS movement and the deviations during the
movement. The application time of the tests varies between 5-30 minutes.
For typical developing children, all tests except the Modified Ashworth Scale and the Gross
Motor Function Classification System will be applied from tests applied to children with CP.
This study will evaluate the independence of children with CP in daily life activities and
contribute to the correct planning of rehabilitation goals.
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