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Clinical Trial Summary

This study was planned to examine the relationship between trunk position sense and muscle activation, balance and quality of life in individuals with transtibial amputation. Individuals with unilateral transtibial amputation who have been using prostheses for at least 1 year and volunteered to participate in the study, as well as healthy individuals with similar demographic characteristics will be included in the study. The number of cases considered to be included in the study will be obtained from the statistical analysis of the results of the pilot study to be conducted with 5 individuals, since there is no study on the subject. The power of the study will be determined as 0.80. After determining the number of individuals to be included in the study group, a control group will be formed with the same number of healthy individuals. The study will be terminated when the determined total number of participants is reached. Body position sense, trunk muscle activation, static and dynamic balance performances and quality of life of all individuals will be evaluated. Body position sense of individuals with "Dualer IQ Pro Digital Inclinometer" device, trunk muscle activation with "Delsys Trigno IM wireless surface electromyography (sEMG) system", balance with "Bertec balance platform", balance and functional mobility with "Berg Balance Scale (BDI) ", "Timed Up and Go Test (SKYT)" and "Modified Star Excursion Test (SEBT)" and quality of life will be evaluated with "Trinity Amputation and Prosthesis Experience Scale (TAPES)". As a result of our study, investigators think that it will contribute to the current scientific knowledge about the somatosensory and biomechanical mechanisms underlying the abnormalities that occur in the trunk after transtibial amputation, to determine whether the trunk position sense of individuals with transtibial amputation is affected or not, and to determine the relationship between trunk position sense and muscle activation, balance and quality of life.


Clinical Trial Description

Amputation is a major trauma that significantly disrupts the biomechanics of the musculoskeletal system, results in serious physical and psychological losses, and affects the quality of life, social and professional life of the individual. Following lower extremity amputation, somatosensory input, muscle activity, and joint mobility decrease in the amputated part of the extremity. The ability to maintain postural stability is one of the most important aspects of our daily lives. While standing, the postural control system adjusts the center of pressure and gathers inputs from the visual, vestibular, and somatosensory systems (i.e. proprioceptive and cutaneous senses) to maintain the center of gravity on the base of support. The ability to maintain balance is severely impaired following lower extremity amputation. As the stump fails to compensate for the lack of foot and ankle as a proprioceptive organ, the postural control system is reprogrammed and compensatory mechanisms are developed to prevent weight-bearing asymmetries, somatosensory loss, reduced support surface, and increased joint stiffness. These changes are also reflected in changes in neuromuscular motor output, such as postural sway during standing. Although used prostheses are an alternative to partially reduce deficiencies, current prosthetic technologies do not provide enough sensory feedback. Persons with lower extremity amputations exhibit abnormal trunk movement during functional tasks than non-injured persons. As shown in studies, an asymmetrical posture and balance problem occurs in individuals with amputation. The resulting asymmetry can be associated with chronic neuromuscular problems such as back and extremity pain, vascular diseases, and early arthritis. Controlled trunk movement is essential for balance and stability while walking. Individuals with lower extremity amputations often exhibit abnormal trunk movement, but the underlying mechanisms are not well understood. Lower extremity amputation results in loss of muscles, tendons, ligaments and joint capsule, severely affecting the lower extremity and thus body function. These structures are not only essential for movement, they also function as sensory receptors, and when lost, proprioception suffers. It includes conscious proprioception, kinesthesia, strength sense, and joint position sense. Several studies have investigated changes in proprioception in individuals with transtibial amputation and have presented different results. Fontes et al. concluded that asymmetric body weight distribution was not accompanied by a decrease in knee proprioception in transtibial amputees. Latanioti et al. They stated that when joint position sense at 15° was evaluated, stump proprioceptive knowledge was not significantly affected after knee amputation and prosthesis application, and the loss of knee sensory receptors in these individuals was compensated by alternative mechanisms. Liao and Skinner concluded that there is a significant difference in knee joint proprioception between prosthetic and intact limbs in persons with below-knee amputation. Eakin et al. They designed a proprioception measurement system to evaluate lower extremity knee joint proprioception in 10 above-knee amputees. The system allowed subjects to be tested in a position simulating the late swing phase of gait. The ability to repeat the lower extremity positions specified for the intact and prosthetic extremities of the subjects was recorded for the detection of slow passive movement. As a result of the study, a significant difference was detected between the passive motion detection threshold of the amputated and intact extremities; however, they stated that there was no significant difference between passive motion reposition of amputated and intact extremities. This finding demonstrates the importance of hip joint motion appreciation when these motions are relevant in the proprioception of the prosthetic knee joint of amputees. However, prosthetic limb passive motion positioning error decreases with age, which may improve amputees' ability to use the remaining lower extremity proprioceptive mechanisms to compensate for the loss of anatomical knee joint structures. There are many studies in the literature examining position sense, muscle activity, balance and quality of life in individuals with transtibial amputation. However, studies have focused on the lower extremities. Individuals with transtibial amputation often have abnormal trunk movement, but the mechanisms underlying this abnormality in terms of trunk are not well understood. Information on trunk muscle activity and trunk position sense in individuals with transtibial amputation is very limited. In the current literature, the trunk position sense of individuals with transtibial amputation and the relationship of trunk position sense with muscle activation, balance and quality of life. Therefore, in this study, it is aimed to investigate whether the trunk position sense, including the trunk right and left sides of the individuals with transtibial amputation, is affected and the relationship between trunk position sense and muscle activation, balance and quality of life. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06046300
Study type Observational [Patient Registry]
Source Hacettepe University
Contact Semra TOPUZ
Phone 03123051576
Email fztsemra@yahoo.com
Status Not yet recruiting
Phase
Start date February 15, 2025
Completion date October 25, 2025

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