AI Article Synopsis
- - The study focuses on the neuromechanics of Aplysia californica's feeding system, emphasizing the need to understand both neural dynamics and muscle mechanics for coordinated behavior.
- - Previous research characterized the I2 muscle responsible for moving Aplysia's grasper, but the I1/I3 muscle, which retracts the grasper, had not been studied in detail until now.
- - This research utilized various experiments to analyze the I1/I3 muscle, revealing that its force-generation capabilities surpass those of the I2 muscle, which enhances simulations and understanding of Aplysia's feeding behavior.
Article Abstract
The coordination of complex behavior requires knowledge of both neural dynamics and the mechanics of the periphery. The feeding system of Aplysia californica is an excellent model for investigating questions in soft body systems' neuromechanics because of its experimental tractability. Prior work has attempted to elucidate the mechanical properties of the periphery by using a Hill-type muscle model to characterize the force generation capabilities of the key protractor muscle responsible for moving Aplysia's grasper anteriorly, the I2 muscle. However, the I1/I3 muscle, which is the main driver of retractions of Aplysia's grasper, has not been characterized. Because of the importance of the musculature's properties in generating functional behavior, understanding the properties of muscles like the I1/I3 complex may help to create more realistic simulations of the feeding behavior of Aplysia, which can aid in greater understanding of the neuromechanics of soft-bodied systems. To bridge this gap, in this work, the I1/I3 muscle complex was characterized using force-frequency, length-tension, and force-velocity experiments and showed that a Hill-type model can accurately predict its force-generation properties. Furthermore, the muscle's peak isometric force and stiffness were found to exceed those of the I2 muscle, and these results were analyzed in the context of prior studies on the I1/I3 complex's kinematics in vivo.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11289039 | PMC |
| http://dx.doi.org/10.1007/s00422-024-00990-3 | DOI Listing |
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