Comparative morphology of the rodent vestibular periphery:I.  Saccular and utricular maculae

doi:10.1152/jn.00746.2003

Comparative morphology of the rodent vestibular periphery:I. Saccular and utricular maculae

Sapan S. Desai¹, Catherine Zeh¹, and Anna Lysakowski¹^*

¹ Department of Anatomy and Cell Biology, University of Illinois at Chicago, Chicago, IL, USA

^* To whom correspondence should be addressed. E-mail: alysakow{at}uic.edu.

Calyx afferents, a group of morphologically and physiologicallydistinct afferent fibers innervating the striolar region ofvestibular sensory epithelia, are selectively labeled by antibodiesto the calcium-binding protein calretinin (Desmadryl and Dechesne1992). In this study, the population of calretinin-stainedcalyx afferents was used to delineate and quantify the striolarregion in six rodent species: mouse, rat, gerbil, guinea pig,chinchilla, and tree squirrel. Morphometric studies and haircell and calyx afferent counts were done. Numbers of hair cells,area, length, and width of the sensory epithelium increase frommouse to tree squirrel. In the mouse and rat, calretinin isfound in 5-9% of all type I hair cells, 20-40% of striolar typeII hair cells, and 70-80% of extrastriolar type II hair cells.Numbers of calyx afferents increase from mouse to squirrel,with more complex calyx afferents in larger species. About10% of calyx afferents are branched. Based on our counts oftotal numbers of calyx afferents in chinchilla maculae and comparisonto fiber counts in the literature, the proportion of calyx afferentsis greater than previously described, constituting nearly 20%of the total. Because morphometric measures increase with bodyweight, we obtained additional data on vestibular endorgan surfaceareas from the literature and used this to construct a powerlaw function describing this relationship. The function holdsfor species with body weights below ~4 kg. Above 4 kg, thesurface area of the sensory epithelia remains constant evenwith increasing body weight.

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