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skeletal adaptations for bipedal locomotion and its possible effect on knee joint injuries
Karban, Tomáš ; Kautzner, Jakub (advisor) ; Hora, Martin (referee)
The subject of this Bachelor's Thesis is the change of locomotor pattern in human ancestors, which led to habitual bipedalism and associated skeletal adaptations, that changed functions of specific body parts. The main focus is on adaptations that adjusted the function of the knee joint, either directly by changing the anatomical structure in the knee area, or indirectly, for example, by increasing the tension in muscles or tendons due to weight transfer to the lower limb. Given adaptations are then a criterion for evaluating possible influence on typical knee injuries in modern human. Key words Bipedalism, locomotion, human, chimpanzee, injury, knee joint, knee, adaptation, evolution, anatomy
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Evolutionary development of the knee joint in relation to stability and injuries
Karban, Tomáš ; Kautzner, Jakub (advisor) ; Hora, Martin (referee)
5 Abstract Knee joint (articulatio genus) is the most complicated joint in human body from the anatomical view. Knee joint is compound, hinge joint, gynglimus, which has a major role in movement of the lower limb. Knee joint is related to the transfer of body weight in horizontal (walking, running) and vertical (jumping) direction. Knee joint is also the biggest joint in the human body, which is characterized by three bones: femur, tibia, patella. The greatest intervention of evolutionary development of human beings on to the knee joint is transition from four-legged walk to two-legged walk (bipedalism). The basic shape of the human knee joint is very similar to knee joints of chimpanzees however chimpanzees do not have problems with injuries typical to humans. The difference between them is in the angle of the knee joint caused by bipedalism movement. Chimpanzees hold the center of gravity in front of their hips and the knee joint clutches the angle of 70ř with the hips. On the other hand, knee joint of humans has the angle of 170ř, which causes more pressure to the knee joint and therefore is more vulnerable to injuries. Knee joint does not meet the demands of a modern man that overloads it with sports performance or pressures it with body weight impact from obesity. This overloading does not occur in...
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