Background: For patients with neck pain, a taping method has been used to promote thoracic spine extension. To induce thoracic spine extension without back pain, a neutral lumbo-pelvic position must be established. The spiral trunk taping method can induce a neutral lumbo-pelvic position and thoracic spine extension. Objectives: To determine the effectiveness of spiral trunk taping in inducing thoracic spine extension and neutral lumbo-pelvic position in patients with neck pain. Design: A randomized controlled trial. Methods: Thirty patients with neck pain were randomly assigned to groups. The experimental group received spiral trunk taping and the control group received sham taping. The resting position visual analogue scale (VAS) and VAS during painful movement were measured and compared pre and post treatment. Results: Significant within-subjects changes were resting position VAS (F=59.823, P=0.001) and VAS during painful movement (F=76.128, P=0.001). Significant between-subject changes were resting position VAS (F=10.402, P=0.003) and VAS during painful movement (F=7.657, P=0.01). Conclusion: Spiral trunk taping, which can induce thoracic spine extension and a neutral lumbo-pelvic position, was effective for neck pain. This study demonstrates the potential of a systemic taping approach in the management of neck pain, and provides important clues for future clinical applications.

Background: Stroke patients often exhibit excessive kyphosis of the spine and a forward head posture (FHP), which negatively impacts their daily activities. These postural abnormalities not only negatively affect functional movement but also exacerbate musculoskeletal problems. Objectives: This study was conducted to determine the effect of backward walking on FHP in stroke patients. Design: Single-case experimental design (A-B-A’ design). Methods: The study was conducted over a total of 8 weeks, comprising 24 sessions: 3 baseline sessions (A), 18 intervention sessions (B), and 3 regression baseline sessions (A'). No backward walking intervention was performed during baseline (A) and regression baseline (A’). To determine changes in FHP, the craniovertebral angle (CVA) was measured at all sessions. Results: The CVA increased in the intervention (B) and regression baseline (A’) compared to the baseline (A). Conclusion: Backward walking was effective in improving FHP, and the effect was maintained after intervention (B) in patients with stroke. Therefore, backward walking was effective in improving the postural alignment of stroke patients.

Background: The shift from traditional education to competency-based education in response to societal demands, emphasizes the need for developing assessment tools to measure major competencies—comprising knowledge, skills, attitudes, and personal characteristics—required to perform specific tasks. Thus, It is essential to develop assessing tools to measure the existing major competencies in physical therapy, enabling more effective management of educational outcomes on competencies. Objectives: The purpose of this study is to develop an assessment tool for measuring major competencies within the Department of Physical Therapy. Design: Delphi survey research. Methods: This study was conducted based on the three major competencies and six sub-competencies of the Physical Therapy Department. To develop an assessing tool for measuring major competencies, conversion of the achievement factor into behavioral statements, and expert panel group Delphi survey was conducted. Results: The results of the Delphi survey indicated 0.88 to 1, exceeding the established threshold and demonstrating adequate validity. Conclusion: A total of 54 preliminary questions for the major competency assessing tool were developed through the Major Curriculum Committee. Through the Delphi survey, the validity of the 54 preliminary questions for major competencies was secured.

Background: A weight-bearing jacket during treadmill gait training is being used for rehabilitation in stroke patients. However, the effect on various gait parameters has not been confirmed. Objectives: The purpose of this study was to investigate the comparison of exercise intensity through speed increase and weight-bearing jacket during treadmill gait training to restore gait ability in stroke patients. Design: Randomized controlled trials. Methods: This study recruited 24 stroke patients. The subjects were randomly assigned to the experimental group (wearing a weight-bearing jacket during treadmill gait training, n=12) and the control group (speed increase during treadmill gait training, n=12). Gait measurement device (G-walk) was used to measure the gait parameters of the subjects. Results: Both the experimental group and control group showed a significant increase in cadence, gait speed, stride length, and gait symmetry index post intervention (P<.05). In comparison between the two groups, the experimental group showed a significant increase in the gait symmetry index post the intervention than the control group (P<.05). Conclusion: Through this study, it was found that wearing a weight-bearing jacket was a more effective method for improving the gait symmetry index than increasing speed during treadmill gait training in stroke patients.

Background: For the rehabilitation of stroke patients, it is necessary to confirm the differences in the mechanical properties of the paretic- and non-pareticside masseter muscles. Objectives: To investigate the muscle tone and stiffness of masseter muscles in patients with chronic stroke. Design: A case study. Methods: This study included 20 stroke patients. Muscle tone and stiffness of the paretic and non-paretic masseter muscles in stroke patients were measured using MyotonPRO. Measurements were performed under relaxation and masseter muscle contraction conditions. Results: There was no significant difference in the muscle tone and stiffness of the paretic and non-paretic side masseter muscles in the relaxation conditions (P>.05). In male, left hemiplegia, right hemiplegia and infatction, the nonparetic side masseter muscles showed significantly increased than musle tone and stiffness of the paretic side masseter muscles in the contraction (P<.05). In female and hemorrhage, the non-paretic side masseter muscles showed significantly increased than musle tone the paretic side masseter muscles in the contraction (P<.05). Conclusion: The muscle tone and stiffness were lower on the paretic side than on the non-paretic side during masseter muscle contraction in stroke patients; thus, muscle strengthening training was required.

Background: Inspiratory muscle training can improve inspiratory strength and endurance through threshold loading. In addition, trunk stabilization exercises can improve trunk strength and respiratory function. Objectives: The purpose of this study is to investigate the effect of application of inspiratory muscle training and trunk stabilization exercise on pulmonary function and inspiratory muscle activation in college students. Design: Randomized controlled trials. Methods: In this study, 24 college students were randomly divided into two groups: inspiratory muscle training and trunk stabilization exercise (experimental group, n=12), and trunk stabilization exercise (control group, n=12). Inspiratory muscle activity was measured using a surface electromyography. Pulmonary function was measured using a spirometer and a peak expiratory flow meter. Results: In the experimental group, the muscle activity of both upper trapezius and latissimus dorsi muscles increased significantly after the intervention. In the experimental group, both upper trapezius muscle activity was significantly increased than in the control group. In the experimental group, all the pulmonary function significantly increased after the intervention. Conclusion: In this study, when the inspiratory muscle training was additionally applied to the trunk stabilization exercise in college students in their twenty, it was possible to improve the inspiratory muscle activity and pulmonary function.

Background: Women patients who have undergone high tibial osteotomy need management to control walking and balance and to enable functional daily life. In that way, land-based physical therapy and aquatic physical therapy were performed. Objectives: To investigated the effect of land-based and aquatic physical therapy on the balance and walking of women who had undergone high tibial osteotomy. Design: Randomized control trial. Methods: In all, this randomized controlled trial enrolled 21 patients with high tibial osteotomy who received land-based physical therapy (LP, n=7), aquatic physical therapy (AP, n=7), and land-based and aquatic physical therapy (LAP, n=7). Single-leg standing balance, 10-m walk test, and Knee injury and Osteoarthritis Outcome (KOOS-12) scores were. The intervention period was 3 days per week for 6 weeks. Results: One-leg standing balance and 10-m walk test increased statistically, and KOOS-12 score also increased statistically. All three groups have improved. As a result, the variable changes were compared in three groups, and although there was no significant difference between the land-based and aquatic physical therapy groups, the land-based and aquatic physical therapy combined programs improved further than the previous two groups. Conclusion: The balance and walking of female patients with high tibial osteotomy were found to have been very effective in land physical therapy and aquatic physical therapy. In addition, the land-based and aquatic physical therapy combination program can improve balance and walking more effectively.

Background: Patients who underwent rotator cuff repair (RCR) require management to control pain and prevent re tear and stiffness. Thoracic mobilization has been applied for the improvement of vertebra and shoulder movements and pain reduction. Also, core stability exercise is an intervention necessary for rehabilitation after shoulder surgery. Objectives: To examine the short term benefits of thoracic mobilization and core stability exercise for patients after RCR. Design: Randomized controlled trial with multi arm parallel group and single blind assessor. Methods: 30 participants after RCR were recruited. Participants were categorized into conventional physical therapy (CPT) group, thoracic mobilization (TM) group, and core stability exercise (CSE) group according to the randomization program. Each treatment, transcutaneous electrical nerve stimuli (TENS), TM, and CSE was applied to each group. 3 physical therapists only conducted evaluations; VAS (visual analogue scale), ROM (range of motion), and Korean version of Shoulder Pain and Disability Index (SPADI). Results: VAS and SPADI were statistically reduced, and ROM was statistically improved in all 3 groups. In between three group comparisons of changes in outcome variables, there was not a significant difference in VAS, but there was a significant difference in ROM and SPADI. In the post hoc test, ROM and SPADI showed a significant difference in TM and CSE compared to CPT. Conclusion: TM according to Maitland concept and CSE had beneficial effects compared to CPT in patients after RCR.