The balance hypothesis for the avian lumbosacral organ and an exploration of its morphological variation

Abstract: Birds (Aves) exhibit exceptional and diverse locomotor behaviors, including the exquisite ability to balance on two feet. How birds so precisely control their movements may be partly explained by a set of intriguing modifications in their lower spine. These modifications are collectively known as the lumbosacral organ (LSO) and are found in the fused lumbosacral vertebrae called the synsacrum. They include a set of transverse canal-like recesses in the synsacrum that align with lateral lobes of the spinal cord… Show more

“…Reissner fiber is non-cellular strucute and composed of glycoproteins that are secreted into CSF from the subcommissural organ [53]. Reissner fiber should mechanically act on CSF-N. Additionally, we mention an analogy of the avian lumbosacral organ [54,55] to similarity of Reissner fiber, because the avian lumbosacral specializations [13,56] of the vertebral canal may be referred as a possible function as a sense organ of equilibrium [56,57].…”

Somatic Rhythmic Motion Effective on Peristaltic Circulation of Cerebrospinal Fluid: Hypothesis for Music- and Sport-Based Interventions

“…Reissner fiber is non-cellular strucute and composed of glycoproteins that are secreted into CSF from the subcommissural organ [53]. Reissner fiber should mechanically act on CSF-N. Additionally, we mention an analogy of the avian lumbosacral organ [54,55] to similarity of Reissner fiber, because the avian lumbosacral specializations [13,56] of the vertebral canal may be referred as a possible function as a sense organ of equilibrium [56,57].…”

Somatic Rhythmic Motion Effective on Peristaltic Circulation of Cerebrospinal Fluid: Hypothesis for Music- and Sport-Based Interventions