Peak joint angular velocities of the straight punch in professional boxers
Fecha
01/09/2016Autor
Estado
info:eu-repo/semantics/publishedVersionMetadatos
Mostrar el registro completo del ítemResumen
Introduction: In order to deliver a powerful straight punch, a
large linear velocity must be exerted on the distal segment at the
point of contact. To do this, a perfect synchronization of joint
angular displacements is necessary, delivering speed from foot to
fist through joint angular velocity and ultimately affecting fist
linear velocity. The latter is known as the kinetic chain [1]. Previous
investigations have focused on analyzing the peak linear velocity at
impact and the impact itself [2]. However, to our knowledge there
is a lack of reports on straight punch angular velocities of
professional boxers. A better understanding of how joint angular
velocities contribute to fist linear velocity of the straight punch
technique is necessary to optimize boxing performance. Unfortunately,
we are unaware of previous reports on angular velocity
normative data. Thus, this would be the starting point.
Research question: What are the normative joint peak angular
velocities of the straight punch of professional boxers?
Methods: 11 professional boxers (23.18 4.29 years, 63.09
11.05 kg, 18 3.22 weekly training hours, 6.7 2.93 training years)
were measured using an inertial measurement system (Technaid). A
total of 8 inertial measurement units were placed on the subject to
define joint angles, with a calibration IMU placed on the lumbar spine.
Each boxer was instructed to deliver a straight punch to a punching
bag as hard as possible from a ready position at a comfortable
distance from the punching bag. Peak joint angular velocities on the
three movement planes were extracted for ankle, knee, hip, shoulder,
elbow and wrist joints. The mean of 5 repetitions for each subject was
used for further analysis.
Results: Peak joint angular velocities (mean SD) are presented
below (Fig. 1).
Discussion: Regarding upper limb joint angular velocities of the
present study, similar findings have been reported in the literature.
While we reported 32.88 rad/s of maximum elbow extension
velocity previous studies have reported values in a range of
22 41.22 rad/s [3]. On the contrary, lower joint angular velocities
have been previously reported for shoulder flexion/internal
rotation and elbow extension/pronation [4], and for the hip, knee,
and ankle [3]. The lower values may be attributed to the fact that
contrary to the present study, these studies used a sample of
amateur boxers [3], or analysed the straight punch in karate [4]. Introduction: In order to deliver a powerful straight punch, a
large linear velocity must be exerted on the distal segment at the
point of contact. To do this, a perfect synchronization of joint
angular displacements is necessary, delivering speed from foot to
fist through joint angular velocity and ultimately affecting fist
linear velocity. The latter is known as the kinetic chain [1]. Previous
investigations have focused on analyzing the peak linear velocity at
impact and the impact itself [2]. However, to our knowledge there
is a lack of reports on straight punch angular velocities of
professional boxers. A better understanding of how joint angular
velocities contribute to fist linear velocity of the straight punch
technique is necessary to optimize boxing performance. Unfortunately,
we are unaware of previous reports on angular velocity
normative data. Thus, this would be the starting point.
Research question: What are the normative joint peak angular
velocities of the straight punch of professional boxers?
Methods: 11 professional boxers (23.18 4.29 years, 63.09
11.05 kg, 18 3.22 weekly training hours, 6.7 2.93 training years)
were measured using an inertial measurement system (Technaid). A
total of 8 inertial measurement units were placed on the subject to
define joint angles, with a calibration IMU placed on the lumbar spine.
Each boxer was instructed to deliver a straight punch to a punching
bag as hard as possible from a ready position at a comfortable
distance from the punching bag. Peak joint angular velocities on the
three movement planes were extracted for ankle, knee, hip, shoulder,
elbow and wrist joints. The mean of 5 repetitions for each subject was
used for further analysis.
Results: Peak joint angular velocities (mean SD) are presented
below (Fig. 1).
Discussion: Regarding upper limb joint angular velocities of the
present study, similar findings have been reported in the literature.
While we reported 32.88 rad/s of maximum elbow extension
velocity previous studies have reported values in a range of
22 41.22 rad/s [3]. On the contrary, lower joint angular velocities
have been previously reported for shoulder flexion/internal
rotation and elbow extension/pronation [4], and for the hip, knee,
and ankle [3]. The lower values may be attributed to the fact that
contrary to the present study, these studies used a sample of
amateur boxers [3], or analysed the straight punch in karate [4].
Peak joint angular velocities of the straight punch in professional boxers
Tipo de Actividad
Presentaciones orales presentadas como resumenPalabras Clave
Peak joint angular, velocities , straight punch , boxersPeak joint angular, velocities , straight punch , boxers