The primary aim of the study is to investigate the effectiveness of Myofascial Chain Release Techniques on pain, functional limitation and quality of life in patients with Plantar Fasciitis. The secondary aim of the study is to create a future clinical projection regarding the applications to be made over the myofascial chain in addition to the generally accepted treatment protocols in the light of the findings. There will be three groups in this study. Each group will consist of 12 patients aged 30-60 years with plantar fasciitis. A total of 36 participants will take part in the study. Conventional physiotherapy will be applied to the group 1 and, local release technique addition to conventional physiotherapy will be applied to the group 2, while myofascial release techniques will be applied to the experimental group in addition to conventional physiotherapy. Treatment programs will be applied to both groups 2 days a week for 6 weeks. Postural problems that can be seen in the superficial back myofascial chain line will be evaluated.
The plantar fascia is an important connective structure that extends from the metatarsal heads to the calcaneus and provides the continuity of the longitudinal arch of the foot. Microtraumas and the formation of chronic inflammation on the plantar surface, which is exposed to repetitive stress, thickens the fascia, making it susceptible to repetitive injuries and forming plantar fasciitis. The reasons for this repetitive stress are; excessive physical activity, obesity, age, prolonged standing, biomechanical changes, limited dorsiflexion and hamstring tension. Studies on this subject in the literature have reported that tension in the hind leg muscles is associated with plantar fasciitis, and applications on the Achilles tendon and gastrocnemius have been shown to relieve plantar fasciitis complaints. Similarly, it has been reported that tension in the hamstring muscle may be associated with the development of plantar fasciitis. It is known that the Plantar Fascia and Achilles tendon affect each other due to the fascial connection, and therefore these structures are considered together in the solution of their problems. On the other hand, according to the fascial meridian concept developed by Thomas Myers, it was stated that the fascial connection between these two tissues extends to the frontal region in a chain manner, and that a problem at any point in the chain may cause problems in other elements of the chain. For this reason, recently, applications related to the detection and solution of problems have come to the fore by looking at fascial problems more holistically over the fascial chain. From this point of view, there are many studies reporting the effectiveness of applications performed in any region of the myofascial chain in a different region on this chain. Plantar Fascia; It is located in the Superficial Back Line, and as far as we know, there is no study of plantar fasciitis treatment in which the myofascial chain is considered as a whole. Based on this, our aim in this study is to investigate the effect of myofascial release techniques applied along the myofascial chain line on pain, lower extremity functionality and quality of life in patients diagnosed with Plantar fasciitis. In the light of the findings, it is to create a projection for future clinical studies regarding the treatment approaches to be applied over the myofascial chain in addition to the generally accepted treatment protocols.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
36
Myofascial release is a hands on technique which stretches the fascia and releases, bonds between muscles, integuments and fascia in order to eliminate pain, improve motion and to maintain myofascial balance within the body.
Local Release Techniques are a soft tissue method that focuses on relieving tissue tension via the removal of fibrosis/adhesions which can develop in tissues as a result of overload due to repetitive use.
Istanbul Medeniyet University
Istanbul, Turkey (Türkiye)
Ultrasonography
It will be used to measure the thickness of the plantar fascia. As a result of these studies, a plantar fascia greater than 4 mm appears to be abnormal and associated with plantar fasciitis. Ultrasonography (USG) evaluation is a routine method for the diagnosis of Plantar Fasciitis.
Time frame: Change from baseline ultrasonography at week 6.
Plantar Fasciitis Pain
Visual Analogue Scale will be used in the assessment of pain severity. It expresses pain severity between a score of 0 (no pain) and 10 (unbearably severe pain).
Time frame: Change from baseline plantar fasciitis pain at week 6.
Pes planus
Pes Planus will be evaluated with navicular drop test. The distance between the navicular bone and the ground is measured while the individual sits on the chair with the hip-knee joint in 90º flexion and the subtalar joint in neutral position. Then, the distance between the navicular bone and the ground is measured again while the individual is standing in a position with equal weight on both extremities. The difference between the two measurements is recorded. 10 mm or more difference is considered pes planus.
Time frame: Change from baseline pes planus at week 6.
Foot Posture
Foot posture will be evaluated using the Foot posture index, a six item foot posture assessment tool, where each item is scored between -2 and +2 to give a sum total between -12 (highly supinated) and +12 (highly pronated). Items include: talar head palpation, curves above and below the lateral malleoli, calcaneal angle, talonavicular bulge, medial longitudinal arch, and forefoot to rearfoot alignment.
Time frame: Change from baseline foot posture at week 6.
Ankle Joint Angle
Active and passive dorsi and plantar flexion angles will be measured with a goniometer.
Time frame: Change from baseline ankle joint angles at week 6.
Algometer
It is used to measure the pressure pain threshold. After localization of the painful area by palpation, force is applied with an algometer until patients feel pain and discomfort. The digit displayed on the algometer is recorded. The average of 3 measurements is taken.
Time frame: Change from baseline pressure pain threshold at week 6.
Passive Tone
Passive Tone will be evaluated with MyotonPro digital palpation device which is a valid and reliable. In the measurements, the Myoton probe will be placed perpendicular to the fibers of the tissue to be measured and when the probe reaches a sufficient depth, 3 repetitive mechanical stimulus (15ms, 0.40N) will be given to the tissue that has pre-compressed (0.18N). Measurements were taken 3 times from each point and the average values will be used in statistical analysis.
Time frame: Change from baseline passive tone of myofascial tissues at week 6.
Stiffness
Stiffness will be evaluated with MyotonPro digital palpation device which is a valid and reliable. In the measurements, the Myoton probe will be placed perpendicular to the fibers of the tissue to be measured and when the probe reaches a sufficient depth, 3 repetitive mechanical stimulus (15ms, 0.40N) will be given to the tissue that has pre-compressed (0.18N). Measurements were taken 3 times from each point and the average values will be used in statistical analysis.
Time frame: Change from baseline Stiffness of myofascial tissues at week 6.
Decrement
Decrement will be evaluated with MyotonPro digital palpation device which is a valid and reliable. In the measurements, the Myoton probe will be placed perpendicular to the fibers of the tissue to be measured and when the probe reaches a sufficient depth, 3 repetitive mechanical stimulus (15ms, 0.40N) will be given to the tissue that has pre-compressed (0.18N). Measurements were taken 3 times from each point and the average values will be used in statistical analysis.
Time frame: Change from baseline Decrement of myofascial tissues at week 6.
Creep
Creep will be evaluated with MyotonPro digital palpation device which is a valid and reliable. In the measurements, the Myoton probe will be placed perpendicular to the fibers of the tissue to be measured and when the probe reaches a sufficient depth, 3 repetitive mechanical stimulus (15ms, 0.40N) will be given to the tissue that has pre-compressed (0.18N). Measurements were taken 3 times from each point and the average values will be used in statistical analysis.
Time frame: Change from baseline Creep of myofascial tissues at week 6.
Relaxation time
Relaxation time will be evaluated with MyotonPro digital palpation device which is a valid and reliable. In the measurements, the Myoton probe will be placed perpendicular to the fibers of the tissue to be measured and when the probe reaches a sufficient depth, 3 repetitive mechanical stimulus (15ms, 0.40N) will be given to the tissue that has pre-compressed (0.18N). Measurements were taken 3 times from each point and the average values will be used in statistical analysis.
Time frame: Change from baseline Relaxation time of myofascial tissues at week 6.
Hamstring Muscle shortness
Hamstring length will be measured with the straight leg lift test. The patient is asked to keep the opposite leg fixed on the bed with the knee straight in the supine position, wearing suitable clothes, and to raise the leg to be tested upwards with the ankle in dorsiflexion and the knee straight. The patient is instructed to wait where the initial tension occurs, and the last degree of movement is measured.
Time frame: Change from baseline Hamstring muscle shortness at week 6.
Pelvic tilt
The position of the pelvis will be evaluated with a digital pelvic inclinometer device to determine whether the pelvis has tilted anteriorly or posteriorly. The digital pelvic inclinometer is a valid and reliable method for the evaluation of pelvic tilt. The device consists of two calipers and the calipers are placed on the spina iliaca anterior superior (SIAS) and spina iliaca posterior superior (SIPS) of the pelvis. The score on the digital display is recorded. "-" values indicate posterior pelvic tilt, "+" values indicate anterior pelvic tilt.
Time frame: Change from baseline pelvic tilt at week 6.
Cervical and Lumbar Lordosis
It will be determined by photographing. Side photos will be taken while the patient is standing in a free standing position in front of a bare, flat wall with the upper body. Later, the obtained photo shoots will be analyzed with the Tracker 4.11.0 (Physlets, 2017) program and cervical and lumbar lordosis angles will be determined.
Time frame: Change from baseline Cervical and Lumbar Lordosis at week 6.
Skin temperature of the Plantar Fascitis area
In order to see the effectiveness of the applications, the skin temperature will be determined by thermal imaging method. This method is frequently preferred because it is a reliable and non-invasive method. The skin temperature of the plantar fascia will be measured with the P45 thermographic camera (Flir System, ThermaCAM, Sweden) with high thermal sensitivity, while the patient is in the prone position, while the feet are hanging from the bed at the level of the malleolus. The measurement will be made by placing the camera on a tripod placed 1m away from the patient. In the analysis, the area covering 1 cm distance from the point where fasciitis develops will be used. Skin temperature will be determined using the FLIR Quick-Report 1.2 software, one of the temperature indicators obtained from this region. In the calculation of skin temperature, the human skin emissivity value will be accepted as 0.98.
Time frame: Change from baseline Skin temperature of the Plantar Fascitis area at week 6.
Headache
Presence of headache will be questioned and severity assessment will be made with Visual Analogue Scale. It expresses pain severity between a score of 0 (no pain) and 10 (unbearably severe pain).
Time frame: Change from baseline Headache at week 6.
Windlass Test
While the patient is sitting in a chair, the big toe of the foot to be tested is brought into the dorsal flexion of the metatarsal phalangeal joint for a hard time. Pain at the junction of the plantar fascia with the calcaneus during this movement indicates a positive test.
Time frame: Change from baseline Windlass Test at week 6.
SF-12 Quality of Life
An abbreviated form for assessing quality of life. SF-12, a form developed in 1994, is not specific to any age and disease type, and is a scale that evaluates the quality of life of the person during the last four weeks. SF-12; physical functionality includes physical role, pain, general health, emotional role, mental health, social functionality and vitality.
Time frame: Change from baseline Quality of Life at week 6.
Lower extremity functionality
Lower extremity functional scale will be used. This scale is a valid and reliable scale used in musculoskeletal problems affecting the lower extremities. It consists of 20 items. Each item is scored between 0-4. The total score is between 0-80. Higher scores indicate better functional status.
Time frame: Change from baseline lower extremity functionality at week 6.
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