Bibliographic Details
| Title: |
Passive Dynamics of the Head, Neck and Forelimb in Equine Foetuses—An Observational Study. |
| Authors: |
Lusi, Carla M.1 (AUTHOR) clusi28@gmail.com, Davies, Helen M. S.1 (AUTHOR) h.davies@unimelb.edu.au |
| Superior Title: |
Animals (2076-2615). Jun2023, Vol. 13 Issue 12, p1894. 10p. |
| Subject Terms: |
*FORELIMB, *ANIMAL locomotion, *HEAD, *SCIENTIFIC observation, *FOALS, *POSTURAL muscles |
| Abstract: |
Simple Summary: In horses, the whole body and the individual limbs move in particular patterns that are constrained by the connections between the different parts. In this study of dead foals, we demonstrate that the movements of the front limbs forwards and backwards cause specific and consistent movements in the head and neck. In contrast, similar movements in the head and neck cause no such movements in the limbs. This unidirectional mechanical connection is different from the bidirectional reciprocal movements within the forelimb that constrain the limb to work as a whole. Such mechanical effects of limb movement on the head and neck may integrate with the nervous controls to provide near-instantaneous adjustments to postural disturbances, thus promoting rapid and efficient locomotion. Passive dynamics is an aspect of locomotion which is entirely dependent on the mechanical configuration and linkages of adjacent body segments. Tension distribution along mechanical linkages enables the execution of movement patterns with reduced need for complex neurological pathways and may play a role in reestablishing postural stability following external disturbances. Here we demonstrate a uni-directional mechanical relationship between the equine forelimb, head and neck, which may have implications for balance and forelimb loading in the horse. These observations suggest that forelimb, head and neck movement coordination (observed in the horse during unrestrained locomotion) is significantly influenced by the mechanical linkages between body segments, rather than being entirely dependent on neurological input as previously thought. This highlights the potential significance of research directed at investigating passively induced movements in understanding common locomotory patterns. Additionally, it suggests a mode of postural control which may provide instantaneous adjustments to postural disturbances, thus promoting rapid and efficient locomotion. [ABSTRACT FROM AUTHOR] |
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