Diabetic peripheral neuropathy (DPN) is a common complication of type 1 and type 2 diabetes. DPN is characterized by significant axonal degeneration and segmental demyelination affecting sensory and motor nerves. The effect of foot sole sensation on gait and balance parameters has been reported in various studies in the literature, however, no study has been found examining the effect of foot sensory training on plantar sensation, functional performance, balance, gait and kinesiophobia in type 2 diabetic individuals with neuropathy. In order to contribute to the literature, 40 type 2 diabetic individuals with neuropathy who applied to the Turgut Ozal Medical Center Endocrinology and Metabolic Diseases Polyclinic will be included in this randomized controlled study. After diabetic foot training is given to all participants, an experimental (20) and a control (20) group will be formed with a sequential random method. Foot sensory training will be given to the experimental group, while no intervention will be made to the control group, and sensory training will be given to the participants who wish after the study is completed. All participants will be evaluated for subscapular sense, functional performance, balance, walking and kinesiophobia at the beginning and end of the training. Subscapular sense will be evaluated with light touch, two-point discrimination and vibration tests. Functional performance evaluation will be made with timed up and go test and timed stair ascent-descend test. Kinesiophobia will be analyzed with Tampa Kinesiophobia Scale, Balance; One-Legged Stand Test and Y balance tests and walking will be analyzed with Kinect V2 camera based software. Physical activity levels will be evaluated with International Physical Activity Questionnaire-Short Form. The data taken into the research will be analyzed with SPSS (Statistical Program in Social Sciences) program. The values belonging to the data will be expressed with percentage, mean and standard deviation, and the significance level (p) will be taken as 0.05 for comparison tests.
Type 2 diabetes (T2D) is a chronic metabolic disease that develops as a result of insufficiency of insulin itself or its action. Diabetic peripheral neuropathy (DPN), a common complication of type 2 diabetes, results from metabolic and microvascular changes as a consequence of prolonged hyperglycemia and metabolic derangements. Diabetic peripheral neuropathy is associated with damage to small unmyelinated and myelinated nerve fibers, resulting in impaired sensations of touch, pain and temperature. Damage to large myelinated nerve fibers results in decreased sensation of vibration and proprioception. Sole sensation is an important parameter for posture and gait control. When the afferent inputs of the foot are not properly transmitted to the central nervous system, a lack of balance develops reciprocally. Functional performance refers to some activities and behaviors in daily life that individuals can perform up to a certain level. In individuals with diabetes mellitus with neuropathy, it is reported that there are decreases in functional performance as well as strength losses and decreases in joint mobility, especially in the dorsal and plantar foot muscles. Involving both sensory and motor fibers, DPN causes balance and gait disturbances and neuropathic pain. As a result of altered gait biomechanics and balance disorders, individuals with diabetes have an increased risk of falling, perception of imbalance and fear of falling. This leads to physical inactivity and loss of muscle strength. It leads to further impairment of gait and balance biomechanics. Kinesiophobia is the patient's fear of physical movement as well as negative cognitive and emotional response to anticipated or actual pain. It is expressed as a condition describing actions resulting from a feeling of vulnerability to re-injury. Impaired balance and fear of falling initiate kinesiophobia in people. As a result, restriction in physical activities increases. The number of studies examining kinesiophobia in individuals with diabetes is very limited. In one study, it was stated that individuals with diabetic neuropathy had an increase in kinesiophobia in balance disorders. When the studies conducted with type 2 diabetic individuals with neuropathy were examined in the literature, no study providing foot sensory training was found. In this study, we aimed to investigate the effect of foot sensory training on underfoot sensation, functional performance, balance, gait and kinesiophobia in type 2 diabetic individuals with neuropathy. This study will provide data and contribution to fill this gap in the literature.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
40
After obtaining informed consent to participate in the study, all participants will be evaluated by an experienced physiotherapist before group allocation. All participants will receive diabetic foot training. Then, the experimental group and the control group will be formed by a sequential random method. Foot sensory training will be applied to the experimental group and no intervention will be made to the control group. However, after the study is completed, sensory training will be provided to the participants in the control group who wish to do so. Foot sensory training will be performed by the researcher physiotherapist. Foot sensory training sessions will be planned for 6 weeks, 3 days a week. An initial assessment will be made before the sessions begin and a final assessment will be made after the 6-week foot sensory training program.
İnonu University
Malatya, Battalgazi, Turkey (Türkiye)
Tampa Kinesiophobia Scale
Tampa Kinesiophobia Scale is a Likert-type scale consisting of 17 questions. Turkish validity and reliability of the scale has been performed. It is used to determine the level of kinesiophobia of individuals.
Time frame: 6 week
Evaluation of Light touch sense
Light touch sensation will be evaluated using Semmes-Weinstein Monofilaments with reference to the metatarsal head, 5th metatarsal head and heel midpoint. The monofilament will be held for 1-1.5 seconds at each reference point and the patient will be asked to say "yes" when they feel the filament. 3 measurements will be taken from each point and 10 seconds will be allowed between measurements. The value of the filament felt by the patient will be recorded as a score.
Time frame: 6 week
Timed Up and Go Test
The timed get up and go test was developed to assess functional mobility parameters such as walking speed, postural control and balance. This test involves standing up from a normal-sized chair without arms, walking three meters, then returning and sitting back down on the chair. During the test, the individual will be asked to take a trial walk and then carefully perform the test three times. The average of these three tests will be taken as the basis. Walking speed will be recorded in seconds. The time will be started when the individual stands up from the chair. It will be stopped and recorded when the individual sits back in the chair.
Time frame: 6 week
Single Leg StanceTest
The Single Leg StanceTest will be used to assess static balance. For this test, participants will be asked to stand without falling for 30 s with the non-evaluated side knee in 90° flexion. The stopwatch will be started as soon as the foot leaves the ground. Each fall to maintain balance will be recorded as a score. The test will be repeated 3 times for the right and left lower extremities and averaged.
Time frame: 6 week
Gait Analysis
The gait analysis of the participants will be evaluated with a Kinect V2 camera-based software. This software is developed in MATLAB environment and identifies joint positions by processing depth images. In the developed software, the joint position is first determined for a pixel in the depth images and the accuracy level is calculated for each pixel. A validation study of the gait analysis of the Kinect camera system was conducted by Baldewijns et al.
Time frame: 6 week
Evaluation of vibration sense
The sense of vibration will be evaluated using a 128-Hz frequency diapason. Measurements will be made with the patient in the supine position with eyes closed, with reference to the 1st metatarsal head and medial malleolus. Each measurement point will be repeated three times and the average will be recorded in seconds.
Time frame: 6 week
Evaluation of Two-point discrimination sense
Two-point discrimination will be assessed using an esthesiometer. In the study, trans-metatarsal, heel midpoint and midfoot midpoint will be taken as reference. The esthesiometer will be touched sequentially to the reference points on the sole of the participant's foot. Measurement will start from the maximum distance and continue by decreasing the range. The distance at which the patient perceives one point instead of two points at the specified reference points will be recorded in millimeters.
Time frame: 6 week
Stair Climb Test
The stair climb test was developed to assess functional mobility content such as strength, speed and maneuverability. The test consists of the participant climbing the steps of the staircase and descending back to the starting point from the 10th step. They are free to hold on the edge of the ladder. At the beginning of the test, the participants will be asked to climb the ladder with a total of 10 steps and without waiting, turn back, descend the ladder and return to the starting point. During the test, the individual will be asked to perform a trial test. They will then be asked to repeat the test three times. These three tests will be averaged. Starting with the go command, the time in seconds will be recorded until both feet land on the floor on the return.
Time frame: 6 week
Y Balance test
The Y Balance Test will be used for the assessment of dynamic balance. After the individual is placed in the center of the Y-shaped apparatus with hands on the waist, they will be asked to reach in the anterior, posteromedial and posterolateral directions with the other leg with one leg fixed. While extending the moving foot along the desired vector throughout the measurement, they will be asked to touch the farthest point they can reach without losing their balance in a one-leg stance and the distance of this point to the center will be measured. Reaching will be asked 3 times in each direction and then the average of the reaching distances will be taken and recorded in centimeters. The test will be applied to both extremities.
Time frame: 6 week
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