Archivio italiano di anatomia e di embriologia. Italian journal of anatomy and embryology最新文献

"In vivo" and "in vitro" morphological analysis of associations of cells ("rosettes") involved in immune response in human tumoral effusions revealed the existence of cell interactions either by simple membrane apposition between the cell projections or by gap-like junctions between two adjacent cells; endocytotic phenomena were also observed. The giant fibroblastic cells seen "in vitro" ("myofibronoblasts") reacting positively to anti-human macrophage Mabs, might be the cells presenting antigen to lymphocytes.

Membranous and endochondral ossification processes are insufficient to describe all the aspects observed in the growing skeleton. The presence of chondroid tissue that we have identified by means of all modern histological techniques, including those able to detect the different types of collagen, has also to be explained. Present in the mandibular symphysis of either the human or cat fetuses, chondroid tissue has also been observed in the other parts of the mandible, in the sutural areas of the skull and in all the bones of both axial and appendicular skeleton. The differentiation of the mesenchyme into chondroid tissue could probably be related with mechanical forces exerted simultaneously in opposite directions or with a transient ischemia.

A consistent chondrogenesis takes place in micro-mass cultures of stage 23-24 chicken limb bud mesenchymal cells. In these cultures a short, marked elevation of cAMP level was detected at the time of the onset of cartilage phenotype expression. On the other hand, exogeneous glycosaminoglycans which inhibited chondrogenesis caused a reduction in the cAMP level of the cells. These correlations between cAMP level and phenotypic characteristics suggest that, among other things required in chondrogenesis, cAMP level may be a prominent factor.

The events which happen after transplantation of organizer material into a Triton germ are explained by the action of formative cells. As example the first steps of in vitro mesonephrogenesis are filmed. The sequences show that the locomotion of the relatively sluggish epithelial cells is accomplished by the activity of fibroblasts.

The immunohistochemical and immunological properties of a rabbit serum raised against the calf thymic hormonal factor "Thymostimulin" were studied on mammalian and human thymuses, discussing the problem of species-specificity. The serum was also injected in chick embryos to study the possible interrelationship between avian thymus and Bursa of Fabricius.

Using qualitative and quantitative polarization microscopical techniques, an axiparallel orientation of chondroitin sulfate molecules and collagen fibrils could be detected in the osteocyte capsule of human embryonic and fetal bones. It is suggested that this spatially oriented microstructure plays a role in ana- and catabolic transport processes of the bone tissue.

The authors have investigated the morphological aspects of the wall components of the developing colon in the chick embryo (Gallus domesticus) from the 7th to th 15th day of incubation. Particular attention has been given to the lumen recanalization, phenomenon which occurs also in other animal species. The most significant results can be summarized as follows: 1) the lumen is recanalized at the 7th day only at the proximal part of the colon (Fig. 1, Tav. 1), while at the distal tract it is still completely filled by an epithelial plug (Fig. 2, Tav. 1). Therefore the recanalization of the lumen takes place cranio-caudad. 2) At the 8th day the process of recanalization of the lumen shows, in the distal part of the colon, well defined modalities. Radially oriented intraepithelial spaces within the epithelium filling the lumen join other semilunar intercellular spaces, which are placed near the central part of the occluded lumen (Fig. 3). By the junction of a couple of radially oriented spaces with one semilunar space, an U-shaped intercellular space derives, which delimits an incoming epithelial fold (Tav. 3). Such a phenomenon is continued also during the 9th and 10th day of incubation (Fig. 6, Tav. 2). 3) At the 11th day the colonic lumen is completely open and, in its distal part, the appearance of the primordial previllous ridges can be observed (Fig. 7). In the proximal tract the previllous ridges develop one day later (Fig. 8). 4) At the 13th day, in the distal part of the colon, the first appearance of crypts occurs (Fig. 10). So, while the process of recanalization of the lumen is cranio-caudad, the formation of previllous ridges and crypts proceeds caudo-cranially. 5) From the 11th day onwards the lamina propria is actively involved in the process of formation of the previllous ridges. Only at the 14th day, in the distal part of the colon anlage, the appearance of the muscularis mucosae is observed (Fig. 11). 6) The muscle layer and the subserous stratum do not show appreciable morphological changes in the course the considered period of incubation.

The authors have examined an anatomical preparation of a human upper limb preserved in the Anatomical Museum in Bologna. The specimen was formed by bone, fibrous formations, musculus biceps brachii and musculus coracobrachialis. The soft parts were kept in situ and dried by mummification. The humerus showed abnormalities at its proximal extremity (Fig. 1) and the muscles displayed fibrous varieties: a) a fibrous sheet (Fig. 1, 2) connected the caput brevis of the musculus biceps brachii to the articular capsule of the shoulder joint; b) an aponevrosis (Fig. 1, 3) connected the musculus coracobrachialis to the same articular capsule and the humerus. These observations were discussed from an evolutionary and functional point of view.

In order to know the morphostructural changes that occurs in the enamel during the mineralization and to study the rod tridimensional orientation, the author has examined the literature concerning these subjects comparing it to the results of his researches realized by S.E.M. and Rx-microprobe-analysis. It has been demonstrated that three phases can be distinguished during the mineralization: "fibrillation phase", "rod density phase", "interrod density phase". The fibrillation phase begins in the middle of the ameloblastic secretion phase, ends 8 mm from the cervical ansa and is characterized by the unmasking of the matrix subunits and chemically by the disappearance of the sulphur. The rod density phase occurs in the area included between 8 and 14 mm from the cervical ansa, that is in the ameloblastic modulation phase, and is characterized by the aggregation of the intraprismatic subunits and by the calcium increase. The interrod density phase that occurs during the ameloblastic pigmentation phase, is characterized by the aggregation of the interprismatic subunits and by the presence of the iron in the most superficial enamel layers. The rod orientation in the space has been studied during the second phase of the mineralization suice the intraprismatic subunits join while the interprismatic ones remain in the fibrillation phase; besides the author has compared the results of these studies to the morphology of the external opening of the honeycomb pits. In such a way it has been demonstrated that the rod originates from the dentine-enamel junction forming a 60 degree angle that opens in the cuspidalmesial or cuspidal-lateral direction. In the outer enamel layer the rod loses its mesial or lateral inclination and bends further towards the cusp delimiting a 30 degree angle; finally it bends outward and as a sharpend that is ortogonal to the enamel external surface. It is eventually discussed how this model of rod reconstruction is fit to convert the tangential forces that develop during the mastication into compression forces.