• Title/Summary/Keyword: Horseback riding stance

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Proposal of Urinary Incontinence Treatment Program Using Moosim Gi-Gong Riding stance. (무심 기공 선자세를 활용한 요실금 치료 프로그램 제안)

  • Lee, Se Won;Lee, Jae Heung;Bae, Jae Ryong;Chui, Eun Geung;Park, Jung Eun;Kang, Han Joo
    • Journal of Korean Medical Ki-Gong Academy
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    • v.17 no.1
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    • pp.83-108
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    • 2017
  • Objects : The purpose of this study was to investigate Urinary Incontinence improvement effect of Moosim Gi-Gong Riding stance and to propose urinary incontinence treatment Program. Methods : We analyzed the effect of Moosim Gi-Gong Riding stance, and compared to Behavior theraphy which includes Kegel Exercise, Riding Stance of Ki-chum, Zhan-Zhuang-Gong. Results : 1. Moosim Gi-Gong Riding stance can correct the pelvic strain with principles such as horseback riding and help restore organs in the abdominal cavity. 2. Moosim Gi-Gong Riding stance can restore the ability to recover bladder and proximal urethra in right place through changes in the abdominal pressure by breathing and posture 3. Moosim Gi-Gong Riding stance can help restoring the ability to control the urination by increasing the intensity of the abdominal pressure and reinforcing Kidney, Liver, Spleen Meridian muscles. 4. Reinforcing Kidney, Liver, Spleen Meridian muscles can help to treat urinary incontinence through strengthening the tension between organs and activating the intestinal tract. Conclusions : This study shows that treatment program for Urinary Incontinence using Moosim Gi-Gong Riding stance can be useful to patient.

Effect of Basal Physical Fitness and ADL Function in the Aged According to Horse Riding Exercise (실내 승마운동이 고령자의 기초체력 및 ADL 기능에 미치는 효과)

  • Kim, E.R.;Kang, S.R.;Yu, C.H.;Moon, D.A.;Park, S.Y.;Kwon, T.K.
    • Journal of Biomedical Engineering Research
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    • v.34 no.4
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    • pp.163-169
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    • 2013
  • The purpose of this study was to verify exercise effect of horse riding exercise according to estimate basal physical fitness and activities of daily living(ADL) function in the aged. Participants were nineteen peoples who have no impediment of activity. They performed horse riding exercise using SRider(Neipplus, Co., Korea) at sixty minutes a day. Exercise has progressed three days a week for eight weeks. We measured trunk flexion, sit up, whole body reaction, leg strength and maximal oxygen uptake as basal physical fitness. Also three meter gait, single stance with eyes opened and single stance with eyes closed as ADL function were estimated once a month. The result of legs strength and whole body reaction showed the higher significantly than before the exercise. Moreover, the result of three meter walking ability only increased significantly among the ADL function. This means that horse riding exercise might be activated continuous muscular contraction with maintained tonus of muscle. We thought that continuous movement of horse riding could be lead to isometric muscle contraction in lower limbs. Our study found that horse riding exercise could improve lower strengths and muscle reaction for exercise effect. Also we suggested that horse riding exercise could be adapted to exercise methods that could provide rehabilitation and treatment enough for the aged or disabled person.

A Biomechanical Analysis of Four Different Taekwondo Body Punch Types in Horseback-Riding Stance (태권도 주춤 서 몸통지르기 유형별 생체역학적 변인 비교 분석)

  • Kang, Sung-Chul;Kim, Eui-Hwan;Shin, Hyun-Moo;Kim, Sung-Sup;Kim, Tae-Whan
    • Korean Journal of Applied Biomechanics
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    • v.17 no.4
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    • pp.201-208
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    • 2007
  • The purpose of this study is to compare 4 different body punch types(type 1: a punch using a shoulder, type 2: a punch using a waist, type 3: a punch using lower extremities, and type 4: a punch with elbows by your side at chest level) in horseback-riding stance and establish suitable teaching theory and method, which would be a useful reference to Taekwondo instructors on the spot(in Taekwondo dojangs all around Korea). Five exhibition players from Korean national Taekwondo exhibition team participated in this study. Each participant was asked to perform the four different types of punches and their kinematic and kinetic data were recorded with 7 vicon cameras(125Hz) and two force plates(AMTI, 1200Hz). We analyzed displacement, time, resultant center of body mass trajectory, velocity, trunk angular velocity, and ground reaction force(GRF) from each body segment in body punch and the result. I performed 1-way ANOVA(RM) for average values of each player after standardization and statistical significance was set as p<.05. was as the following ; First, they showed a tendency to take the body punch posture with the biggest motion at a shoulder and on descending order a waist and a knee. Second, a mean time for each body punch on ascending order 0.46sec. for type 2, 0.49sec for type 3, 0.50sec. for type 4, and 0.56sec. for type 1. Third, a mean resultant center of body mass trajectory for each body punch the longest 4.07cm for type 3 and the shortest 2.458cm for type 1. Fourth, a mean of maximal velocity of a fist strike was the fastest 5.99m/s for type 3, 5.93m/s for type 4, 5.67m/s for type 2, and 5.01m/s for type 1 on the descending order. Fifth, a mean of maximal trunk angular velocity of the fastest 495.6deg./sec. for type 4 and 337.7deg./sec. for type 1 on the descending order. Sixth, strongest value was type 3, 2 for anterior-posterior ground reaction force(left -54.89N, right 60.58N), type 4 for medial-lateral GRF(left 83.59N, right -80.12N), and type 3 for vertical GRF(left 341.79N, right 426.11N).

The Kinematic Analysis of Jumeok Jireugi in Taekwondo of Security Martial Arts (경호무도의 태권도 주먹 지르기 동작 운동학적 분석)

  • Lee, See-Hwan;Yang, Young-Mo
    • Korean Security Journal
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    • no.31
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    • pp.187-207
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    • 2012
  • The purpose of this study was to analyze the punching movement at the horseback riding stance, one of the basic movements in Taekwondo, with 3D images and further the kinetic variables such as time, velocity, angle, angular velocity, and angular acceleration according to the types. It also aimed to examine the characteristics of each type and suggest instructional methods for the right punching movement. For those purposes, three members from the College Taekwondo Poomse Demonstration Squad were put to the test. The research findings led to the following conclusions: 1. Performance Time of the Punching Movement : In Section 1, Type 1 and 2 recorded $0.24{\pm}0.07s$ and $0.42{\pm}0.08s$, respectively, for the punching movement at the horseback riding stance. While Type 1 took less performance time in the punching movement, Type 2 took less time for take back according to each section's percentage in the total performance time. 2. Variables of Linear Velocity and Linear Acceleration : Each type recorded different linear velocity for each aspect, but the highest linear velocity represented the moment of impact for each type. Type 2 recorded the highest linear velocity in Aspect 4, which was the moment of impact. 3. Variable of Joint Angle : There were no big outer differences in the joint angle during the punching movement between Type 1 in the aspect of impact and Type 2, but the individuals assumed dynamic positions in the punching movement of Type 2 with more diverse changes to the joint angle. 4. Variables of Angular Velocity and Angular Acceleration During the punching movement of Type 1, the Aspect 3 in the moment of impact recorded angular velocity of $0.79{\pm}0.02deg/s$, $0.91{\pm}0.04deg/s$, and $5.24{\pm}0.09deg/s$ at the pelvis, shoulder, and wrist respectively. During the punching movement of Type 2, the Aspect 3 in the moment of impact recorded angular velocity of $1.32{\pm}0.03deg/s$, $0.21{\pm}0.03deg/s$, and $4.98{\pm}0.08deg/$ at the shoulder, wrist, and pelvis, respectively. In the Aspect 3 in the moment of impact in Type 2, the angular acceleration at the right wrist joint was $176.24{\pm}1.11deg/s^2$, which was bigger than that in the moment of impact in Type 1.

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