Subject of this thesis, in the first part, was to analyze several groups of lower leg prosthesis with regard to their similarities, differences, advantages and disadvantages, as well as possible application of certain models or groups in various life activities. Tabular comparison of prosthetic knee and prosthetic feet was conducted by selecting one representative of a particular group of prostheses and analyzing its features. Subsequently, the results among the groups obtained through experimental research. At the prosthetic knees the comparison on 8 examiees from [8] between Mauch knee and C-leg bionic knee has been analyzed. It has been found that there are certain benefits of bionic knee, but also that they are very small, so the validity of construction complexity is still questionable. Regarding the prosthetic feet, it was analized the comparison from [9] between the Flex-foot, for the higher using levels, and standard Sach foot. It has been concluded that, despite Sach foot certain advatanges on low levels of activity, Flex-foot and similar contructions has much wider scope. The second part of the thesis analyzes the sports prosthesis with regard to their biomechanical properties, market price and applicable materials. We analyzed the moment of intertia of prosthesis and healthy calf around single axis of rotation of the human body. There was concluded that carbon fibre prothesis has very low moment of inertia around the lower limb axis which causes the rotation of the prothesis around the longitudinal axis. Two possible solutions, with slight construcion upgrades, was proposed to solve that problem. Also, it was partially analyzed the problem with dissbalance of lower limb masses at unilateral amputees. Furthermore, the analyses and comparison of carbon fibre and steel sport prothesis was carried out and also the improvement possibilities of steel prothesis was discussed. The concept of improving steel prothesis with shock absorber and spring was proposed, which demands more detail phisycall and experimental analyses. Its fundamental purpose is better adjusment of rigidity and damping vibration of leaf spring.Ultimately, an example of sports prosthesis concept was proposed, with the possibility of assembly and disassembly of components of the heel. That kind of construction would potentialy be applicable for sports and everyday activities and it would significantly disburden users of their big financial expenses and lead to the commercialization of sport prothesis.