Stroke is the third leading cause of death in developed countries after heart disease and
cancer. In adults, it ranks first among neurological diseases in terms of causing death and
disability.
About one-third of stroke patients experience permanent physical dysfunction. This situation
has a negative impact on the economic, social, psychological life and general quality of life
of the patient and his family. Stroke is one of the leading causes of long-term disability in
adults due to problems such as activity limitations and participation restrictions caused by
disorders in body functions . At this point, rehabilitation in stroke patients has an
important place in ensuring the social participation of the patient and minimizing the
disorders.
When the literature is examined, it is stated that the best functional results are revealed
by a good postural control. Because the trunk is the key point of the body. Proximal trunk
control is essential for distal extremity movements, balance and functional activities. It
provides trunk control, static and dynamic posture, upright posture of the body, and
selective trunk movements .
There are many treatment approaches to increase trunk stabilization. Gaining early trunk
control is one of the basic principles of Bobath, which adopts the neurodevelopmental
behavior model from neurophysiological approaches.
In recent years, core stabilization exercises, which play an active role in trunk
stabilization, have started to be included in the rehabilitation program of stroke patients.
Haruyama et al. demonstrated the effectiveness of core stabilization exercises on trunk
control, standing, and mobility. This study also indicated the importance of trunk
stabilization in balance and mobility (5).
Trunk control means more than just sitting balance. Organization of postural and correction
reactions, stability required for the creation of extremity movements, rotation, appropriate
gait pattern, proximal stabilization to contribute to distal movement, establishment of the
connection between shoulder and pelvis are provided by good trunk control. The trunk, which
makes up 60% of our body mass, is necessary for controlling the force created in our body and
for optimum movement in the extremities. The holistic system that includes the lower
extremities, pelvis, trunk and upper extremities is called the kinetic chain. The creation,
collection and transfer of the force required for extremity movements from the lower
extremity to the upper extremity are made possible by this system. Thus, these segments,
which are independent from each other from proximal to distal, work in a certain interaction
and harmony during functional activities (6).
The aim of the study is to examine the effect of trunk control on balance, upper extremity
and lower extremity functions in stroke patients.
