Familial Mediterranean Fever (FMF) is an autosomal recessive, autoinflammatory disease characterized by recurrent fever attacks and inflammation of the serous membranes. FMF is defined by short, self-limiting inflammatory attacks that typically resolve within 1-3 days, and classic symptoms during an attack include fever, abdominal pain, chest pain, joint pain, and swelling. Adolescents with chronic illnesses face numerous challenges in participating in physical activity, and often the disease itself leads to deconditioning and a decline in functional ability. Previous studies have reported that adolescents with FMF have lower cardiorespiratory fitness, exercise capacity, and muscle strength compared to their healthy peers. Even during attack-free periods, children experience high levels of fatigue, lower motivation and activity levels, and problems with concentration. In the literature, there is evidence that physical activity and exercise programs are safe and feasible in rheumatic diseases such as Juvenile Systemic Lupus Erythematosus, Juvenile Idiopathic Arthritis, Juvenile Fibromyalgia, and Juvenile Dermatomyositis. These programs have been shown to improve patients' functional capacities, physical fitness, and reduce fatigue. However, only one study has been found regarding the effectiveness of physical activity and exercise programs in patients with FMF. This study compared the effectiveness of physical activity counseling and a 12-week online aerobic dance program conducted twice a week. It was found that both interventions led to positive improvements in functional capacity and physical fitness in children and adolescents with FMF, and aerobic dance was found to be feasible in this population. Accordingly, it is evident that further studies comparing the effects of different types of exercise in adolescents with FMF are needed in the literature. Neuromuscular exercise is defined as a type of training that aims to improve the ability to generate controlled movement through coordinated muscle activation by enhancing various parameters such as muscle strength, flexibility, balance, and agility. Neuromuscular training programs conducted over 6-12 weeks have been shown to positively affect performance-related parameters in adolescent athletes from different sports disciplines, improve motor skills and motor control, enhance balance, proprioception, and core stabilization, reduce injury incidence, and improve both health- and skill-related physical fitness parameters. Exergaming, derived from the combination of exercise training and video gaming, has gained significant popularity over the past few decades. In the literature, it has been found to improve muscular fitness and physical activity in obese children and adolescents, reduce the perception of fatigue and dyspnea in patients with Cystic Fibrosis, and be a safe option in various conditions with impaired neuromotor control, such as Down Syndrome, Developmental Coordination Disorder, and Cerebral Palsy. However, no study has been found investigating the effectiveness of exergaming in adolescents with FMF. The aim of our study is to compare the effects of structured neuromuscular exercise training and a neuromuscular exergaming program in adolescents diagnosed with FMF.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
60
In the Structured Neuromuscular Exercise group, the exercise program will be administered to patients diagnosed with FMF twice a week for 12 weeks under the supervision of a physiotherapist. The exercises will be performed using a balance board and will include sitting, standing, lunge, modified push-up, and plank positions.
In the Neuromuscular Exergaming group, patients diagnosed with FMF will perform the same exercises as those in the structured neuromuscular exercise program, delivered in an exergaming format using the Smart Exercise Board (SEG-Board). The program will be conducted under the supervision of a physiotherapist, twice weekly for 12 weeks, and will include exercises performed in sitting, standing, lunge, modified push-up, and plank positions.
Istanbul University-Cerrahpasa
Istanbul, Turkey (Türkiye)
10-Stair Climb Test (10-SCT)
The 10-SCT is commonly used to assess functional capacity in adolescents with chronic rheumatic diseases. During the test, participants will be asked to climb 10 steps (14x28x120 cm) as quickly as possible. The time taken to ascend the stairs will be recorded in seconds using a stopwatch.
Time frame: From enrollment to the end of treatment at 12 weeks
6-Minute Walk Test (6MWT)
The 6MWT is a simple, easy-to-administer, and well-tolerated test that reflects the submaximal level of functional capacity. It measures the distance a patient can walk quickly on a hard, flat surface within six minutes. Participants will be instructed on how to perform the test, and the distance walked in six minutes will be recorded in meters. The 6MWT will be used to assess the functional capacity of the participants.
Time frame: From enrollment to the end of treatment at 12 weeks
30 Second Sit-to-Stand Test
The 30SST is one of the tests used to assess lower extremity functional strength and performance in adolescents. During the test, participants will sit in the center of an armless chair with a seat height of 45 cm, feet flat on the floor, and arms crossed over their chest. Upon the evaluator's command, they will be instructed to stand up fully and sit back down using both lower limbs, completing as many sit-to-stand-to-sit cycles as possible within 30 seconds. Participants will also be instructed to perform at their maximum effort. The 30SST will be used to evaluate the functional performance of the lower extremities.
Time frame: From enrollment to the end of treatment at 12 weeks
FitnessGram Physical Activity Test Battery- Curl-up Test
The curl-up test will be used to assess the abdominal muscle strength and endurance of the participants. The test will begin with the patient lying supine on an exercise mat, knees flexed at approximately 140°, feet flat on the floor, and legs slightly apart. Arms will be positioned parallel to the body and the floor, with palms placed flat on the ground and fingers extended. The goal of the test is to perform as many curl-ups as possible at a controlled pace. The rhythm of the test will be set to 20 curl-ups per minute, or one curl-up every 3 seconds. A maximum of 75 curl-ups will be counted. The test will end when the participant completes 75 curl-ups, fails to perform two consecutive repetitions correctly, or is unable to continue.
Time frame: From enrollment to the end of treatment at 12 weeks
FitnessGram Physical Activity Test Battery- Push-up Test
The push-up test will be used to assess upper extremity muscle strength and endurance. The test will begin with the patient in a prone position on an exercise mat, with hands placed at or slightly wider than shoulder-width apart, fingers extended, palms flat on the floor, and legs slightly apart. During the test, participants will lower their torso toward the floor by bending their elbows to approximately 90°, then push themselves back up to the starting position. The pace will be set at 20 push-ups per minute, or one push-up every 3 seconds. The test will be terminated if the participant makes two errors.
Time frame: From enrollment to the end of treatment at 12 weeks
FitnessGram Physical Activity Test Battery- Trunk Lift Test
The trunk lift test will be used to assess trunk extensor muscle strength and flexibility. The test will begin with the patient lying in a prone position on an exercise mat, with hands placed under the thighs. During the test, participants will slowly and in a controlled manner lift their upper body up to a maximum height of 12 inches (30.48 cm). At the end of the test, the distance between the participant's chin and the floor will be measured with a tape measure and recorded in centimeters.
Time frame: From enrollment to the end of treatment at 12 weeks
FitnessGram Physical Activity Test Battery- Back-Saver Sit and Reach Test
This test allows for the assessment of each leg separately, enabling the identification of any asymmetry in hamstring flexibility and helping to prevent knee hyperextension. The back-saver sit and reach test will be used to assess hamstring flexibility in patients. A test box is required for the procedure, measuring 35 cm in length, 45 cm in width, and 32 cm in height, with a top plate measuring 50 cm in length and 45 cm in width placed on top. During the test, participants will remove their shoes and sit in front of the test box. One leg will remain extended while the other is flexed. Participants will place one hand on top of the other and reach forward four times, holding the fourth reach for one second. The procedure will be repeated for the opposite leg. The distance reached will be recorded in centimeters.
Time frame: From enrollment to the end of treatment at 12 weeks
Progressive Aerobic Cardiovascular Endurance Run (PACER)
The PACER test is a modified version of the 20-meter shuttle run test and consists of multiple stages. It will be used to assess the aerobic capacity of the participants. During the test, patients will be asked to run back and forth between two cones placed 20 meters apart, following a pre-recorded audio cue set to music standardized by the Cooper Institute. The test begins at a slow pace and progressively increases in speed each minute. The test will be terminated when the participant can no longer maintain the required pace for their current level. If a participant fails to reach the cone at the sound of the beep for the first time, they will be instructed to continue running in the opposite direction and try to maintain the rhythm. At the end of the test, the total number of laps completed, including the lap that could not be completed, will be recorded.
Time frame: From enrollment to the end of treatment at 12 weeks
Kinvent K-Plate Measurement System
The KPlate, included in the Kinvent Measurement Set, will be used to evaluate the patients' static and dynamic balance.
Time frame: From enrollment to the end of treatment at 12 weeks
Digitsole Pro® System
The Digitsole Pro® system is capable of measuring walking patterns and gait variables under real-life conditions. The smart insoles of Digitsole Pro® can be placed inside any shoe, allowing for the measurement of spatial, temporal, and kinematic gait parameters. Gait profile of the patients will be assessed using Digitsole Pro®.
Time frame: From enrollment to the end of treatment at 12 weeks
Fatigue Assessment Scale
The Fatigue Assessment Scale is a 10-item questionnaire that includes five questions on physical fatigue and five on mental fatigue. It will be used to evaluate the fatigue levels of the patients.
Time frame: From enrollment to the end of treatment at 12 weeks
Kinvent K-Pull Measurement System
The K-Pull device, included in the Kinvent Measurement Set, will be used to assess the quadriceps and hamstring muscle strength of the patients.
Time frame: From enrollment to the end of treatment at 12 weeks
Physical Activity
The physical activity levels of the patients will be monitored using a smartwatch. The participants' step counts will be recorded via a smartwatch for a period of 3 months.
Time frame: From enrollment to the end of treatment at 12 weeks
Exercise Satisfaction
Patients' satisfaction levels will be assessed with Numerical Rating Scale. A score of 0 indicates no satisfaction from exercise, while a score of 10 indicates very high satisfaciton from exercise.
Time frame: From enrollment to the end of treatment at 12 weeks
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