Add to ORKGThe performance of sitting pivot transfers (SPTs) is demanding for the upper limbs (ULs) in individuals with a spinal cord injury (SCI). Recent biomechanical research has contributed to greater insight in the performance of SPT tasks. This article highlights the current knowledge on the biomechanics of SPTs among individuals with SCI, especially among those with paraplegia. Current clinical practice recommendations related to SPTs are reviewed along with suggested revisions and additions based on recent evidence. Suggestions for optimizing SPT performance, while simultaneously minimizing UL risk exposure, are proposed. Last, research opportunities related to the performance of SPTs among individuals with SCI are addressed. © 2009 Thomas Lan...
Objective: To test the hypothesis that footrests contribute to active control of sitting balance. De...
This study describes a new custom measurement system designed to investigate the biomechanics of sit...
Introduction: Individuals with paraplegia due to spinal cord injury (SCI) perform manual wheelchair ...
The performance of sitting pivot transfers (SPTs) is demanding for the upper limbs (ULs) in individu...
Due to lower limb paralysis people with SCI rely heavily on their upper extremities (UEs) for perfor...
International audienceIndividuals with Spinal Cord Injury (SCI), perform Sitting Pivot Transfer (SPT...
This study's main objective was to determine if upper-limb (UL) muscular demand was reduced when ind...
Transfer is a key ability and allows greater interact with the environment and social participation....
Abstract Background Sitting pivot transfer (SPT) is one of the most important, but at the same time ...
Les personnes vivant avec une lésion de la moelle épinière (LMÉ) dépendent de l'utilisation d'un fau...
AbstractIndividuals with a low level spinal cord injury (SCI) at T1 or below must use a wheelchair f...
International audienceObjective:The goal of this study is to minimize arm forces applied during sit-...
Persons with paraplegia who use a manual wheelchair for mobility are at high risk for overuse injuri...
This study describes a new custom measurement system designed to investigate the biomechanics of sit...
Objective: To test the hypothesis that footrests contribute to active control of sitting balance. De...
This study describes a new custom measurement system designed to investigate the biomechanics of sit...
Introduction: Individuals with paraplegia due to spinal cord injury (SCI) perform manual wheelchair ...
The performance of sitting pivot transfers (SPTs) is demanding for the upper limbs (ULs) in individu...
Due to lower limb paralysis people with SCI rely heavily on their upper extremities (UEs) for perfor...
International audienceIndividuals with Spinal Cord Injury (SCI), perform Sitting Pivot Transfer (SPT...
This study's main objective was to determine if upper-limb (UL) muscular demand was reduced when ind...
Transfer is a key ability and allows greater interact with the environment and social participation....
Abstract Background Sitting pivot transfer (SPT) is one of the most important, but at the same time ...
Les personnes vivant avec une lésion de la moelle épinière (LMÉ) dépendent de l'utilisation d'un fau...
AbstractIndividuals with a low level spinal cord injury (SCI) at T1 or below must use a wheelchair f...
International audienceObjective:The goal of this study is to minimize arm forces applied during sit-...
Persons with paraplegia who use a manual wheelchair for mobility are at high risk for overuse injuri...
This study describes a new custom measurement system designed to investigate the biomechanics of sit...
Objective: To test the hypothesis that footrests contribute to active control of sitting balance. De...
This study describes a new custom measurement system designed to investigate the biomechanics of sit...
Introduction: Individuals with paraplegia due to spinal cord injury (SCI) perform manual wheelchair ...