Your search keyword '"Yoon, Ji-yeon"' showing total 4 results

1. Strategy on navigating obstacle in patients with lumbar spinal stenosis: Relationship among trunk and pelvic movement, swing toe clearance, and muscle coordination of the stance limb.

Author

Shin, Sun-Shil, Yu, Ji-Su, Yoon, Ji-Yeon, Lee, Mi-Ra, An, Duk-Hyun, and Yoo, Won-Gyu

Subjects

LEG physiology, PELVIC physiology, QUADRICEPS muscle physiology, SPINE physiology, TORSO physiology, CHEST physiology, TOES, GLUTEAL muscles, ELECTROMYOGRAPHY, POSTURAL balance, RANGE of motion of joints, KINEMATICS, LUMBAR vertebrae, MUSCLE contraction, SPINAL stenosis, WALKING, THREE-dimensional imaging, PATIENT-centered care, MOTION capture (Human mechanics), PHYSIOLOGY

Abstract

BACKGROUND AND OBJECTIVE: Lumbar spinal stenosis (LSS) is a common spinal disorder that causes patients to assume a forward-trunk posture. Spinal alignment affects gait, muscle activity, and trunk-pelvis-limb coordination because the lumbar spine and muscles interact to allow load transfer between the lower back and pelvis during sagittal trunk movement. Therefore, we investigated the relationships among trunk and pelvic movement, swing toe clearance, and muscle coordination (isolated contraction ratios) of the stance limb during obstacle-crossing by patients with LSS. METHODS: Ten patients with LSS and ten control subjects were enrolled. All navigated an obstacle during walking. Kinematic data from the trunk and lower extremities were monitored using a three-dimensional motion analysis system. In addition, we measured the isolated contraction ratios of the gluteus medius (GMed) and vastus lateralis (VL) using surface electromyography. RESULTS: The normalized lead limb distance was significantly lower in the LSS group than in controls. The spine flexion angle when the swinging limb toe was above the obstacle was higher, but the pelvic anterior tilting angle was lower, in the LSS group. LSS patients also had a significantly lower isolated contraction ratio of the GMed in the trailing stance limb but a significantly higher VL. CONCLUSIONS: Patients with LSS adapted a poor posture and their thoracic and spinal regions were hyperflexed with restricted pelvic obliquity. This created an inefficient gait, a shorter leading limb step, and less stable muscle coordination in the stance limb. Our findings may help healthcare professionals manage patients with LSS. [ABSTRACT FROM AUTHOR]

Published

2018

2. The effects of an exercise with a stick on the lumbar spine and hip movement patterns during forward bending in patients with lumbar flexion syndrome.

Author

Yoon, Ji-yeon, Kim, Ji-won, Kang, Min-hyeok, An, Duk-hyun, and Oh, Jae-seop

Subjects

*TREATMENT of backaches, *ANALYSIS of variance, *CONFIDENCE intervals, *EXERCISE, *HIP joint, *JOINT hypermobility, *RANGE of motion of joints, *KINEMATICS, *LUMBAR vertebrae, *BODY movement, *MOTION capture (Human mechanics), *DATA analysis software, *DESCRIPTIVE statistics, *DISEASE complications

Abstract

BACKGROUND AND OBJECTIVE: Forward bending is frequently performed in daily activities. However, excessive lumbar flexion during forward bending has been reported as a risk factor for low back pain. Therefore, we examined the effects of an exercise strategy using a stick on the angular displacement and movement onset of lumbar and hip flexion during forward-bending exercises in patients with lumbar flexion syndrome.METHODS: Eighteen volunteers with lumbar flexion syndrome were recruited in this study. Subjects performed forward-bending exercises with and without a straight stick in standing. The angular displacement and movement onset of lumbar and hip flexion during forward-bending exercises were measured by using a three dimensional motion analysis system. The significances of differences between the two conditions (with stick vs. without stick) was assessed using a one-way repeated analysis of variance. RESULTS: When using a stick during a forward-bending exercise, the peak angular displacement of lumbar flexion decreased significantly, and those of right and left-hip flexion increased significantly compared with those without a stick. The movement onset of lumbar flexion occurred significantly later, and the onset of right-hip flexion occurred significantly earlier with than without a stick.CONCLUSIONS: Based on these findings, a stick exercise was an effective method to prevent excessive lumbar flexion and more helpful in developing hip flexion during a forward-bending exercise. These findings will be useful for clinicians to teach self-exercise during forward bending in patients with lumbar flexion syndrome. [ABSTRACT FROM AUTHOR]

Published

2015

3. Changes in Kinetic, Kinematic, and Temporal Parameters of Walking in People With Limited Ankle Dorsiflexion: Pre-Post Application of Modified Mobilization With Movement Using Talus Glide Taping.

Author

Yoon, Ji-yeon, Hwang, Young-in, An, Duk-hyun, and Oh, Jae-seop

Subjects

ANALYSIS of variance, ANKLE, DYNAMICS, JOINT diseases, RANGE of motion of joints, KINEMATICS, WALKING, REPEATED measures design, TAPING & strapping

Abstract

Abstract: Objective: The purpose of this study was to investigate the changes in passive ankle dorsiflexion range of motion (ROM), maximum plantar force, force-time integral, and time to heel off during walking between pre- and postapplication of modified mobilization with movement (MWM) using talus glide taping in people with limited ankle dorsiflexion. Methods: Eighteen feet with limited ankle dorsiflexion in 13 people were examined. Participants performed 3 different walking tasks in the following order: walking before and immediately after applying the modified MWM using talus glide taping and walking after 5-minute walking with the modified MWM using talus glide taping. A floor-mat pressure measurement system (HR-mat) was used to measure maximum plantar force, force-time integral, and time to heel off; and passive ankle dorsiflexion ROM was measured using a standard goniometer. The significance of differences was assessed using repeated one-way analysis of variance. Results: Passive ankle dorsiflexion ROM and time to heel off were significantly increased after 5-minute walking with the modified MWM using talus glide taping compared with walking before and immediately after applying the tape. Significantly increased maximum plantar force and force-time integral on the hindfoot and significantly decreased force-time integral on the forefoot during walking after 5-minute walking were observed with the modified MWM using talus glide taping compared with before applying the tape. No significant difference between before and immediately after applying the tape was observed in any variable. Conclusions: Our results suggest that walking an additional 5-minute with the modified MWM using talus glide taping increased passive ankle dorsiflexion ROM and time to heel off and improved dynamic plantar loading during walking. [Copyright &y& Elsevier]

Published

2014

4. Influence of the strap-length on the trunk motion and gait symmetry in Korean women carrying a single-strap bag.

Author

Yoon, Ji Yeon, Lim, Woo Taek, and Oh, Jae Seop

Subjects

*MUSCULOSKELETAL system diseases, *TORSO physiology, *ANALYSIS of variance, *ANTHROPOMETRY, *DIAGNOSIS, *GAIT in humans, *KINEMATICS, *LIFTING & carrying (Human mechanics), *RESEARCH funding, *EQUIPMENT & supplies, *REPEATED measures design, *DATA analysis software, *DESCRIPTIVE statistics, *PREVENTION

Abstract

Objective: The purpose of this study was to examine whether strap length influences the trunk motion and gait symmetry of the ground reaction forces while walking with a single-strap bag. Methods: Seventeen Korean women participated in this study. The kinematics of trunk motion and ground-reaction forces was recorded while the participants walked at a self-paced speed under three conditions: no bag, a short-strap bag and a long-strap bag. Results: The amplitude of trunk rotation on the ipsilateral side (the bag side) decreased while walking with a short-strap bag compared to walking with a long-strap bag or no bag (p< 0.05). The amplitude of trunk lateral bending toward the contralateral side and asymmetry in the mediolateral ground-reaction force significantly increased while walking with a long-strap bag compared to walking with a short-strap bag or no bag (p< 0.05). Conclusions: These results demonstrate that carrying a long-strap bag during walking resulted in increased trunk lateral bending and asymmetry in the mediolateral ground-reaction forces. It is therefore important to select the correct strap length when carrying a single-strap bag to prevent musculoskeletal disorders. [ABSTRACT FROM AUTHOR]

Published

2012