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Morshed, A; Cortez, R; Fauci, L (, Physical review fluids)Free, publicly-accessible full text available September 30, 2026
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Chen, H; Hata, T; Cortez, R; Nguyen, H; Koehl, M; Fauci, L (, Mathematical biosciences)Free, publicly-accessible full text available August 24, 2026
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Nguyen, H; Gibbs, A; Healy, F; Shindell, O; Cortez, R; Brown, K; McCoy, J; Rodenborn, B (, Physical review fluids)Free, publicly-accessible full text available March 3, 2026
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Hamlet, Christina; Fauci, Lisa; Morgan, Jennifer R.; Tytell, Eric D. (, Proceedings of the National Academy of Sciences)Spinal injuries in many vertebrates can result in partial or complete loss of locomotor ability. While mammals often experience permanent loss, some nonmammals, such as lampreys, can regain swimming function, though the exact mechanism is not well understood. One hypothesis is that amplified proprioceptive (body-sensing) feedback can allow an injured lamprey to regain functional swimming even if the descending signal is lost. This study employs a multiscale, integrative, computational model of an anguilliform swimmer fully coupled to a viscous, incompressible fluid and examines the effects of amplified feedback on swimming behavior. This represents a model that analyzes spinal injury recovery by combining a closed-loop neuromechanical model with sensory feedback coupled to a full Navier–Stokes model. Our results show that in some cases, feedback amplification below a spinal lesion is sufficient to partially or entirely restore effective swimming behavior.more » « less
