Light microscopy and scanning electron microscopy of the In vitro evagination process of Echinococcus multilocularis protoscolices

Marchiondo A. A. and Andersen F. L. 1984. Light microscopy and scanning electron microscopy of the in vitro evagination process of Echinococcus multilocularis protoscolices. International Journal for Parasitotogy14:151–157. During histogenesis of the protoscolices of Echinococcus multilocularis, the apical portion of the protoscolex consisting of the suckers, rostellum and hook region develops as an introversion and invagination within the tissue of the basal portion. In vitro incubation of protoscolices in evagination fluid stimulates the emergence of the apical portion. The initiation of evagination is first detected by a surface change in the basal portion. The smooth contour of this surface which lacks microtriches becomes transformed into tegumental indentations that form transverse and longitudinal furrows within the basal tegument as the protoscolices contract and expand, respectively. An orifice formed at the site or junction where the apical portion is invaginated begins to expand laterally in order to allow emergence of the suckers. The hooks are arranged within the invaginated protoscolex with blades directed towards the basal orifice, the handles directed towards the peduncle and the guards directed laterally. This arrangement persists throughout the evagination of the suckers and rostellum until the apical dome of the hook region emerges, thereby rotating the blades laterally in the direction of the peduncle and rotating the handles and guards medially to assume a coronal arrangement. Evagination is an asynchronous event and therefore allows observation of individual protoscolices in various stages of emergence.