Histo-Morphological Study on the Footpad of Ostrich (Struthio camelus) In Relation to Locomotion

El-Gendy, S. A.A.; Derbalah, Amira; Abu El-Magd, M. E.R.

doi:10.21608/jva.2011.45309

Histo-Morphological Study on the Footpad of Ostrich (Struthio camelus) In Relation to Locomotion

Document Type : Original Article

Authors

¹ Department of Anatomy and Embryology, Faculty of Veterinary Medicine, Alexandria University, Edfina, Behera, Egypt

² Histology, Faculty of Veterinary Medicine, Alexandria University, Edfina, Behera, Egypt

³ Department of Anatomy and Embry- ology, Faculty Veterinary Medicine, Kafr el sheikh University, Egypt

10.21608/jva.2011.45309

Abstract

The ostrich foot has four digital pads, two on the 3rd digit, one on the 4th digit and one at metatarsophalangeal joint. Although these footpads are essential for long distance locomotion of the ostrich, no published data is available on the structure of these footpads. Therefore, the aim of this study is to examine the histo-morphological structure of these footpads in an attempt to highlight their structural functional adaptation for long distance motion. Morphologically, the ventral surface of each footpad is covered by numerous papillae which are varied in direction, length and thickness. In histological examination, the epidermis of the footpad consists of outer stratum corneum and inner stratum germinativum (which is subdivided into basal, intermediate and transitional layers). The stratum corneum has several layers of flattened horney cells. The nuclei of the basal cells have several mitotic figures. The cytoplasm of the stratum germinativum cells has multiple lipid droplets and multigranular bodies (in transitional cells only). Using scanning electron microscope, the collagen fibers in the mid and deep dermis of the footpad run parallel and connect to each other by very thin fibrils which are branched, crossed with each other in an oblique direction. Such arrangement of these collagen fibers and thin fibrils and presence of digital cushion are likely to be responsible for absorption of concussion and hence acceleration of the ostrich movement. We have concluded that ostrich footpads have unique modified structures which are adapted for long distance movement and protection of the underlying soft tissues.

Keywords