Pesplanus, commonly known as 'flatfoot,' is a common pathomechanical condition characterized by a lowered medial longitudinal arch (MLA) and exaggerated pronation. There are two general types of flatfoot : flexible flatfoot and rigid flatfoot Flexible flatfoot is the most common form of flat foot. In adult population, it was reported that prevalence of flexible flatfeet is 13.6%. It has been proved that there is static and dynamic balance deficit in the participants with flatfeet. The extrinsic muscles as posterior tibialis (TP) ) and intrinsic muscles as abductor hallucis (AbdH) act as active subsystem support for the MLA during weight-bearing, standing, and walking. Abnormal alignment of the foot may cause stretch weakness of the foot muscles by elongating beyond the neutral physiological resting position. leading to musculoskeletal dysfunction and overuse injuries. Insoles can assist in maintaining normal alignment of the foot, improve balance as it supports MLA which is essential to stabilize postural sway, they widen the contact surface of the sole of the foot improving stability.
Insoles have been used to correct pathomechanical alterations that occur in patients with flexible flat feet, it was reported that they reduced ankle eversion, ankle inversion moment and reduced the load placed on the ankle invertor muscles which must act eccentrically to control over-pronation and support the arch. Insole with intrinsic foot muscle training has been reported to increase strength on flexor hallucis and cross-sectional area of the AbdH muscle in patient with pes planus. Therefore insole combined with short foot exercises is recommended for strengthening intrinsic foot muscles in pes planus. Wearing hard insole has been reported to improve postural stability as it limits and control the range of foot pronation, correct foot malalignment and promotes a neutral foot position. Many studies had investigated the effect of using insole alone or exercise program alone or comparing between them on flexible flat foot patients. Up to the knowledge of the primary investigator, this is the first study to investigate the effect of adding arch support insole to strengthening exercise of foot muscles (intrinsic or extrinsic) in terms of dynamic balance, foot function, and foot muscle strength (intrinsic or extrinsic).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
34
Custom made arch support insole with semi-rigid arch support will be made using the casting method, plaster cast of both feet in a subtalar neutral position will be taken from each subject by highly specialized orthotist. The negative casts will be placed in calcaneal vertical position and custommolded orthosis will be fabricated to positive molds obtained from the negative casts with the goal to control the pronation movement of the foot
Participants will perform extrinsic foot muscles strengthening exercises with both ankles 3 times per week, 20 minutes for 8 weeks. they will be trained using a progressive resistance protocol using Thera-Band elasticated bands. Subjects will be progressed weekly throughout the training period according to progressive resistance protocol for dorsiflexors, planterflexors, evertors and investors muscles.
The patient will assume the same position as in intrinsic foot muscle assessment, then he will be instructed to hold the position for a count of 10 seconds and attempt to maintain the MLA as steady as possible during the entire time without any compensatory extrinsic foot muscle activity. Following the 10-seconds, slowly and with eccentric control allow the foot to pronate and the MLA to lower to a relaxed state .
Patient will be instructed to wear a standard prefabricated flat insole as a placepo treatment iniside his shoes for 2 months (8 weeks), 6 to 8 hours per day, and adhere to wearing the orthoses during outdoor walking and during extrinsic foot muscle training.
Outpatient clinic, Faculty of Physical Therapy, Horus University, Egypt
Damietta, Egypt
Dynamic balance
assessing the change in dynamic balance via using star excursion balance test. The individual will be instructed to establish a stable base of support on the stance limb in the middle of the testing grid and maintain it through a maximal reach excursion in one of the prescribed directions. While standing on a single limb, the participant is asked to reach as far as possible with the reaching limb along each reaching line ; lightly touches the line with the most distal portion of the reaching foot without shifting weight to or coming to rest on this foot of the reaching limb, and the maximum reaching distance will be measured by tape measurement, then the participant is asked to return the reaching limb to the beginning position in the center of the grid, reassuming a bilateral stance.
Time frame: at baseline and after 2 months of intervention
Foot function
assessing the change in Foot function via using The arabic version of Foot and ankle ability measure questionnaire. It is a 29-item questionnaire divided into two subscales: the FAAM, 21-item Activities of Daily Living Subscale and the FAAM, 8-item Sports Subscale. • Scoring of each item will be based on a 5-point Likert scale (4 to 0) from no difficulty at all' to unable to do. Item score totals range from 0 to 84 for the ADL subscale and 0 to 32 for the Sports subscale. Higher scores represent higher levels of function for each subscale with 100% representing no dysfunction. The score on each of the items is added together to get the item score total which is divided by the highest potential score. This value is then multiplied by 100 to get a percentage
Time frame: at baseline and after 2 months of intervention
Extrinsic foot muscle strength
assessing the change in Extrinsic foot muscle strength via using Hand held dynamometer device. Participants will be placed in subtalar neutral position for all testing. The lower leg will be strapped down to stabilize and prevent any accessory movement. Participants will be instructed to pull or push against the device as hard as they could for each direction and the investigator will counteracte that force with both hands for 3 seconds per trial, 3 consecutive trials will be conducted with a 10-second rest between trials. The maximum force (newtons) was used for analysis as the patient peak force .
Time frame: at baseline and after 2 months of intervention
Intrinsic foot muscle strength
assessing the change in Intrinsic foot muscle strength via using intrinsic foot muscle test.patient will be directed to Stand in front of a wall, with the feet shoulder width apart and knees slightly flexed. The fingertips may be lightly placed on the wall. In order to achieve subtalar joint neutral, the therapist will gently supinate the feet by lifting all the toes off the floor, then slowly drop the toes down again but maintain the MLA. This most often results in arise of the MLA and the navicular bone, due to the windlass effect via the plantar fascia. If this procedure proves difficult, then simply the patient will be ordered to increase the height of the MLA, by actively trying to approximate the head of the first metatarsal towards the heel, without flexing the toes. While maintaining the MLA, the patient will stand on a single leg, as steady as possible. The fingertips should remain lightly on the wall for balance and fall prevention
Time frame: at baseline and after 2 months of intervention. • The therapist will Count to 30 seconds and will observe for the steadiness of the navicular height and for any compensatory extrinsic foot muscle activity
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