Microprocessor knee joints are prosthetic knee joints with an integrated processor or a computer that can analyze data. During walking, parameters such as step speed, joint angles, and weight transferred through sensors are analyzed by the computer inside the joint and determines the movement for the safest and most normal walking. They have different features from each other in terms of weight/height, sensor and processor frequency, load carrying capacity, phase control (hydraulic, pneumatic, magnetic), battery properties, water resistance, and special activity mode. C-Leg, Genium, Genium X3, Rheo Knee 3, Rheo Knee XC, Orion etc. prostheses of different companies are used as oscillating and compression phase microprocessor knee prostheses. Publications on C-leg, Genium and Genium X3 prostheses are limited in international literature. Although there are existing studies comparing C-leg and Genium, there is no study comparing these three prostheses. The investigators think that our study is important because it is the first study in the literature to compare these three prostheses. In this study, the investigators aimed to examine the effects of different microprocessor knee prostheses on mobility and gait parameters in unilateral traumatic transfemoral amputees.
The study will be carried out with patients who applied to the outpatient clinic or who received inpatient treatment in the orthopedic rehabilitation (amputee) clinic. The patient's demographic information (age, gender, height, weight, body mass index, education level, occupation, marital status) and clinical characteristics (amputation date, cause of injury, amputation side, etc.) will be recorded with the evaluation to be made to the patient. The activity levels of the patients will be evaluated by the Amputee Mobility Predictor, the mobility of the patients by the Locomotor Capacity Index, the prosthesis satisfaction in general with the visual analog scale (VAS), the walking ability and capacity with the prosthesis will be evaluated by the 2 min walking test, and the gait analysis will be evaluated in the motion analysis laboratory.
Study Type
OBSERVATIONAL
Enrollment
27
Amputee Mobility Predictor, Locomotor Capacity Index, visual analog scale (VAS)
the individual is asked to walk in his natural course within 2 minutes on a track whose distance is measured beforehand, and at the end of two minutes, the distance he walks will be recorded in meters (m).
Temporo-spatial parameters (gait speed (m/s), cadence (step/s), other foot contact (%), double support time (second), single support time (second), stance phase time (sec), swing phase time (sec), stride length (meters)) and kinematic parameters (hip, knee, ankle joint angles (frontal, sagittal, transverse plane), maximum knee flexion angles in the stance and swing phase, velocity-dependent maximum knee flexion angles in the swing phase, knee flexion moments will be compared
Gaziler Physical Medicine and Rehabilitation Education and Research Hospital
Ankara, Turkey (Türkiye)
RECRUITINGAmputee Mobility Predictor
The amputee is evaluated with 21 functions and a score is obtained. According to this score, the patient's K activity level is determined. K0: The patient is immobile, does not have the potential and ability to ambulate or transfer with the prosthesis. K1: The patient can use the prosthesis for ambulation and transfers. Prostheses provide limited or unlimited in-home ambulation. K2: The patient provides limited ambulation in the community with the prosthesis. K3: The patient has the potential to use the prosthesis at variable speeds. The patient can use the prosthesis not only for ambulation, but also for occupation, therapeutic activities and exercises. K4: The patient has the potential and ability to use the prosthesis in high-energy activities.
Time frame: Through study completion, an average of 1 month
Locomotor Capacity Index
the patient's ability to perform 14 activities with the prosthesis is evaluated. The total maximum score is 42, and the higher the total score, the higher the locomotor capacity.
Time frame: Through study completion, an average of 1 month
visual analog scale
The visual analog scale is a 10 cm long line and patients are asked to mark a point on this line that they deem appropriate according to the degree of satisfaction (0: not at all satisfied with the prosthesis, 10: the highest satisfaction with the prosthesis)
Time frame: Through study completion, an average of 1 month
The 2-minute walk test
In this test, the individual is asked to walk in his natural course within 2 minutes on a track whose distance is measured beforehand, and at the end of two minutes, the distance he walks is recorded in meters (m).
Time frame: Through study completion, an average of 1 month
Temporo-spatial parameters of the patients in the motion analysis laboratory
gait speed (m/s), cadence (step/s), other foot contact (%), double support time (second), single support time (second), stance phase time (sec), swing phase time (sec), stride length (meters)
Time frame: Through study completion, an average of 1 month
kinematic parameters of the patients in the motion analysis laboratory
hip, knee, ankle joint angles (frontal, sagittal, transverse plane), maximum knee flexion angles in the stance and swing phase, velocity-dependent maximum knee flexion angles in the swing phase, knee flexion moments
Time frame: Through study completion, an average of 1 month
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