Afferent Innervation Patterns of the Saccule in Pigeons

doi:10.1152/jn.00817.2001

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J Neurophysiol 89: 534-550, 2003; doi:10.1152/jn.00817.2001
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J Neurophysiol (January 1, 2003). 10.1152/jn.00817.2001
Submitted on Submitted 5 October 2001; accepted in final form 30 August 2002

Afferent Innervation Patterns of the Saccule in Pigeons

M. Zakir,¹^,² D. Huss,¹ and J. D. Dickman¹^,²^,³

¹Research Department, Central Institute for the Deaf, ²Departments of Otolaryngology and ³Anatomy and Neurobiology, Washington University, St. Louis, Missouri 63110

Zakir, M., D. Huss, and J. D. Dickman. Afferent Innervation Patterns of the Saccule in Pigeons. J. Neurophysiol. 89: 534-550, 2003. The innervation patterns of vestibular saccular afferents were quantitatively investigated in pigeons using biotinylated dextranamine as a neural tracer and three-dimensional computer reconstruction.Type I hair cells were found throughout a large portion of themacula, with the highest density observed in the striola. TypeII hair cells were located throughout the macula, with the highestdensity in the extrastriola. Three classes of afferent innervationpatterns were observed, including calyx, dimorph, and bouton units,with 137 afferents being anatomically reconstructed and used forquantitative comparisons. Calyx afferents were located primarilyin the striola, innervated a number of type I hair cells, andhad small innervation areas. Most calyx afferent terminal fieldswere oriented parallel to the anterior-posterior axis and themorphological polarization reversal line. Dimorph afferents werelocated throughout the macula, contained fewer type I hair cellsin a calyceal terminal than calyx afferents and had medium sizedinnervation areas. Bouton afferents were restricted to the extrastriola,with multi-branching fibers and large innervation areas. Mostof the dimorph and bouton afferents had innervation fields thatwere oriented dorso-ventrally but were parallel to the neighboringreversal line. The organizational morphology of the saccule wasfound to be distinctly different from that of the avian utricleor lagena otolith organs and appears to represent a receptor organundergoing evolutionary adaptation toward sensing linear motionin terrestrial and aerialspecies.

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