Your search keyword '"Hand muscles"' showing total 2 results

1. Long-latency feedback coordinates upper-limb and hand muscles during object manipulation tasks

Author

UCL - SSS/IONS/COSY - Systems & cognitive Neuroscience, UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, UCL - (SLuc) Service de médecine physique et de réadaptation motrice, Louvain Bionics - Center of Interdisciplinary Expertise, Crevecoeur, Frédéric, Thonnard, Jean-Louis, Lefèvre, Philippe, Scott, Stephen, UCL - SSS/IONS/COSY - Systems & cognitive Neuroscience, UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, UCL - (SLuc) Service de médecine physique et de réadaptation motrice, Louvain Bionics - Center of Interdisciplinary Expertise, Crevecoeur, Frédéric, Thonnard, Jean-Louis, Lefèvre, Philippe, and Scott, Stephen

Abstract

Suppose that someone bumps into your arm at a party while you are holding a glass of wine. Motion of the disturbed arm will engage rapid and goal-directed feedback responses in the upper-limb. Although such responses can rapidly counter the perturbation, it is also clearly desirable not to destabilize your grasp and/or spill the wine. Here we investigated how healthy humans maintain a stable grasp following perturbations by using a paradigm that requires spatial tuning of the motor response dependent on the location of a virtual target. Our results highlight a synchronized expression of target-directed feedback in shoulder and hand muscles occurring at ∼60 ms. Considering that conduction delays are longer for the more distal hand muscles, these results suggest that target-directed responses in hand muscles were initiated before those for the shoulder muscles. These results show that long-latency feedback can coordinate upper limb and hand muscles during object manipulation tasks.

Published

2016

2. Aging Related Differences in Hand Intrinsic and Extrinsic Muscles for Hand Dexterity: An MRI Investigation

Author

Hsu, Jeffrey and Hsu, Jeffrey

Abstract

Hand dexterity is crucial for humans to interactions with the external environment. Many activities of daily living (ADLs) such as pressing, grasping, writing and typing would be unattainable without a skillfully and proficiently functioning hand. Sexagenarians and older often experience difficulties in hand dexterity, which seriously impair their ability to perform ADLs. This study described the aging-related changes in hand muscle size and dexterity; and addressed the conflicting literature regarding the extent of atrophy to either the intrinsic or extrinsic hand muscles in the elderly. The overall hypotheses for this study were 1) that elderly adults show an aging-related decrease in hand muscle size and strength, especially a greater decrease in the intrinsic hand muscles, 2) elderly adults show an aging-related decrease in hand dexterity and 3) hand muscle size and strength are positively related to hand dexterity. This study examined hand muscle sizes with magnetic resonance imaging (MRI) and examined hand strength and other functional measures. This study found aging-related decreases in muscle size, muscle strength, hand dexterity. Furthermore, intrinsic muscles showed a greater aging-related decrease in volume and strength as compared to the extrinsic muscles. When examining relationships, muscle strength was positively correlated to multi-finger synergy and finger dependence. Also, muscle size was positively related to performance on clinical hand dexterity tests. This supports the strength-dexterity equivalence hypothesis.

Published

2009