The purpose of this study was to quantify lumbar kinematics and kinetics during fast bowling using a novel inverse dynamics model, and to explore the relationship between shoulder counter-rotation (SCR) (a variable that has been associated with the development of spondylolysis in fast bowlers) and lumbar range of motion and moments. Ten fast bowlers participated in the study. A large correlation was found between SCR and lumbar rotation range of motion between front foot contact and ball release (r=0.628,
Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fas...
PURPOSE: This study aimed to analyse lumbo-pelvic lateral flexion kinematics and kinetics in junior ...
Full-body three-dimensional kinematics and ground reaction force characteristics were calculated to ...
Lower back injuries are a serious concern for cricket fast bowlers. As lumbar loading is the causal ...
The aim of this study was to examine the velocity dependence of shoulder alignment counter rotation,...
Lower back injuries are a serious concern for cricket fast bowlers. As lumbar loading is the causal ...
The Australian Institute of Sport Biomechanics department cricket fast bowling technique data were a...
Lumbar stress fractures and lumbar injury account for the greatest amount of lost playing time in in...
This study aimed to assess changes in bowling technique and lumbar load over the course of a bowling...
BACKGROUND: Fast bowlers display a high risk of lower back injury and pain. Studies report factors t...
The relationship between bowling action classification and three-dimensional lowe
Background: Fast bowlers display a high risk of lower back injury and pain. Studies report factors t...
Lumbar bone stress injuries (LBSI) have the highest prevalence of any injury in cricket. The purpose...
The role of a cricket bowler is to deliver the ball in such a way as to minimise batsmen scoring run...
The purpose of this study was to analyse the kinetics of front arm motion in fast bowling. A sample ...
Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fas...
PURPOSE: This study aimed to analyse lumbo-pelvic lateral flexion kinematics and kinetics in junior ...
Full-body three-dimensional kinematics and ground reaction force characteristics were calculated to ...
Lower back injuries are a serious concern for cricket fast bowlers. As lumbar loading is the causal ...
The aim of this study was to examine the velocity dependence of shoulder alignment counter rotation,...
Lower back injuries are a serious concern for cricket fast bowlers. As lumbar loading is the causal ...
The Australian Institute of Sport Biomechanics department cricket fast bowling technique data were a...
Lumbar stress fractures and lumbar injury account for the greatest amount of lost playing time in in...
This study aimed to assess changes in bowling technique and lumbar load over the course of a bowling...
BACKGROUND: Fast bowlers display a high risk of lower back injury and pain. Studies report factors t...
The relationship between bowling action classification and three-dimensional lowe
Background: Fast bowlers display a high risk of lower back injury and pain. Studies report factors t...
Lumbar bone stress injuries (LBSI) have the highest prevalence of any injury in cricket. The purpose...
The role of a cricket bowler is to deliver the ball in such a way as to minimise batsmen scoring run...
The purpose of this study was to analyse the kinetics of front arm motion in fast bowling. A sample ...
Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fas...
PURPOSE: This study aimed to analyse lumbo-pelvic lateral flexion kinematics and kinetics in junior ...
Full-body three-dimensional kinematics and ground reaction force characteristics were calculated to ...