Effects of Two Supervised Training Programs for the Rehabilitation of Ankle Sprains

Medial-lateral Stability Index

The Biodex Stability System, which is a dynamic tilting platform, was used for assessment. The medial-lateral stability index corresponded to the variance of foot platform displacement in the frontal plane, and it was measured in single-leg stance, for the sprained leg, without footwear. Three 20-sec trials were performed, with open eyes, and the mean score was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Overall Stability Index

The Biodex Stability System, which is a dynamic tilting platform, was used for assessment. The overall stability index corresponded to the variance of foot platform overall displacement, and it was measured in single-leg stance, for the sprained leg, without footwear. Three 20-sec trials were performed, with open eyes, and the mean score was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Ankle Dorsiflexion Range of Motion

Assessement was performed with a goniometer. Participants actively dorsiflexed the sprained ankle, while being in long sitting, on a physical therapy table. The mean score of three measurements was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Pain Sensation

The main component of the Greek version of the short form of McGill Pain Questionnaire (GR-SFMPQ) was used for the assessment of pain sensation of the sprained ankle. This consists of 15 descriptive adjectives for the pain sensation (11 sensory and 4 affective), which are self-rated according to their intensity level on a 4-point rating scale (0 = none, 1 = mild, 2 = moderate, 3 = severe). The total rating score (minimum = 0, maximum = 45) of the main component of the GR-SFMPQ was used for data analysis, with higher values representing a worse pain sensation.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Pain Intensity During the Week Before Testing

The second component of the Greek version of the short form of McGill Pain Questionnaire, which is a visual analogue scale (VAS), was used for the assessment. The VAS is a horizontal 10-cm line with clearly defined boundaries: 0 cm = 'No pain' and 10.0 cm = 'worst possible pain'. partipants made a mark on the line at the point that better described the average pain intensity for their sprained ankle, during the week before testing. The distance marked from the 'no pain' point was measured in mm and was used for data analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Present Pain

The third component of the Greek version of the short form of McGill Pain Questionnaire, which is a 6-point verbal rating scale, was used for the assessment. Participants noted what word at the time completing the questionnaire would best describe their pain sensation for the sprained ankle (scoring: no pain = 0, mild = 1, discomforting = 2, distressing = 3, horrible = 4, excruciating = 5). The score corresponding to the noted word was used for data analysis, with higher values representing a worse pain sensation.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Ankle Joint Sense for 10° Dorsiflexion

The Biodex isokinetic dynamometer was used for assessment. During testing, participants were blindfolded, in the seated position, with footwear on.The internal goniometer of Biodex recorded the degrees of error for the active repositioning of 10° dorsiflexion (non-weight-bearing) for the sprained ankle, and the mean of three trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Ankle Joint Sense for 15° Plantar Flexion

The Biodex isokinetic dynamometer was used for assessment. During testing, participants were blindfolded, in the seated position, with footwear on.The internal goniometer of Biodex recorded the degrees of error for the active repositioning of 15° plantar flexion (non-weight-bearing) for the sprained ankle, and the mean of three trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Ankle Joint Sense for 30° Plantar Flexion

The Biodex isokinetic dynamometer was used for assessment. During testing, participants were blindfolded, in the seated position, with footwear on.The internal goniometer of Biodex recorded the degrees of error for the active repositioning of 30° plantar flexion (non-weight-bearing) for the sprained ankle, and the mean of three trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Ankle Dorsiflexor Muscles at 30°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the ankle joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Ankle Dorsiflexor Muscles at 120°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the ankle joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Ankle Plantar Flexor Muscles at 30°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the ankle joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Ankle Plantar Flexor Muscles at 120°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the ankle joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Foot Evertor Muscles at 30°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the subtalar joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Foot Evertor Muscles at 120°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the subtalar joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Foot Invertor Muscles at 30°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the subtalar joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Peak Torque of Foot Invertor Muscles at 120°/Sec Speed

The Biodex isokinetic dynamometer was used for assessment. During isokinetic testing of the subtalar joint, participants were in the seated position, with footwear on. Measurements were taken for the sprained leg, and the mean of five maximal trials was used for analysis.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Anterior Tibialis Muscle During Ankle Dorsiflexion at 30°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the ankle dorsiflexor muscles, at 30°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the anterior tibialis muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Anterior Tibialis Muscle During Ankle Dorsiflexion at 120°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the ankle dorsiflexor muscles, at 120°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the anterior tibialis muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Peroneus Longus Muscle During Ankle Plantar Flexion at 30°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the ankle plantar flexor muscles, at 30°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the peroneus longus muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Peroneus Longus Muscle During Ankle Plantar Flexion at 120°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the ankle plantar flexor muscles, at 120°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the peroneus longus muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Peroneus Longus Muscle During Foot Eversion at 30°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the foot evertor muscles, at 30°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the peroneus longus muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Peroneus Longus Muscle During Foot Eversion at 120°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the foot evertor muscles, at 120°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the peroneus longus muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Tibialis Anterior Muscle During Foot Inversion at 30°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the foot invertor muscles, at 30°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the anterior tibialis muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Electromyographic Activity of Tibialis Anterior Muscle During Foot Inversion at 120°/Sec Speed

Two surface electrodes and a ground electrode were used for assessment. Measurements were taken for the sprained leg, during isokinetic testing of the foot invertor muscles, at 120°/sec speed, with the Biodex dynamometer. Normalized values of the electromyographic (EMG) signals were used for analysis, and EMG activity during maximal voluntary isometric contraction of the anterior tibialis muscle was used as the reference value for normalization.

Time frame: Baseline, after the completion of training (follow-up 1), and eight weeks after the completion of training (follow-up 2)

Participants With Recurrent Ankle Sprain

Time frame: Twelve months after the completion of training