Add to ORKGThis dissertation encompassed three studies involving precision pinch strength and 5% submaximal fine-motor control. One hundred participants (30-79 years old) were divided into 10-year categories, with 10 males and 10 females in each decade. A Manual Force Quantification System containing a platform and force-transducer apparatus, along with a computer and visual monitor, was used. Each subject performed four tasks -- maximal voluntary isometric contraction (MVIC), force-matching, tracing, and tracking -- by applying force on the transducers with the thumb and index finger while attempting to produce a desired force level or task displayed on the computer monitor. The first study measured MVIC, accuracy (rRMSE, Root Mean Square Relative Er...
<p>A: Each subject performed a constant isometric contraction by abducting their left index finger a...
We examined aging-related differences in the contribution of visuomotor correction to force fluctuat...
High precision demands in manual tasks can be expected to cause more selective use of a part of the ...
This dissertation encompassed three studies involving precision pinch strength and 5% submaximal fin...
The purpose of this study was to investigate how children and adults control bimanual activities wit...
Ninety-four participants (age 5-93 years) performed isometric force production tasks at five differe...
Ninety-four participants (age 5-93 years) performed isometric force production tasks at five differe...
It has been repeatedly shown that precise finger force control declines with age. The tasks and eval...
Introduction: Given that pinch is a precision grip involved in sustained submaximal activities, a Su...
The purpose of the study was to determine the age related maximal voluntary isometric force producti...
This study compares and correlates young and elderly people’s pinch force and endurance, and propose...
Objective: The present study examined the effects of age (20s to 70s), gender (male and female), and...
related changes in the performance of maximal and accurate submaxi-mal force and moment production t...
Strote C, Gölz C, Stroehlein JK, et al. Effects of force level and task difficulty on force control ...
International audienceThe present study addresses how task constraints and aging influence isometric...
<p>A: Each subject performed a constant isometric contraction by abducting their left index finger a...
We examined aging-related differences in the contribution of visuomotor correction to force fluctuat...
High precision demands in manual tasks can be expected to cause more selective use of a part of the ...
This dissertation encompassed three studies involving precision pinch strength and 5% submaximal fin...
The purpose of this study was to investigate how children and adults control bimanual activities wit...
Ninety-four participants (age 5-93 years) performed isometric force production tasks at five differe...
Ninety-four participants (age 5-93 years) performed isometric force production tasks at five differe...
It has been repeatedly shown that precise finger force control declines with age. The tasks and eval...
Introduction: Given that pinch is a precision grip involved in sustained submaximal activities, a Su...
The purpose of the study was to determine the age related maximal voluntary isometric force producti...
This study compares and correlates young and elderly people’s pinch force and endurance, and propose...
Objective: The present study examined the effects of age (20s to 70s), gender (male and female), and...
related changes in the performance of maximal and accurate submaxi-mal force and moment production t...
Strote C, Gölz C, Stroehlein JK, et al. Effects of force level and task difficulty on force control ...
International audienceThe present study addresses how task constraints and aging influence isometric...
<p>A: Each subject performed a constant isometric contraction by abducting their left index finger a...
We examined aging-related differences in the contribution of visuomotor correction to force fluctuat...
High precision demands in manual tasks can be expected to cause more selective use of a part of the ...