For the changes which take place on the formation of the face I may refer the reader to [fig. 167].
The most obscure point connected with the early history of the human ovum concerns the first formation of the allantois, and the nature of the villi covering the surface of the ovum. The villi, if really formed of mesoblast covered by epiblast, have the true structure of chorionic villi; and can hardly be compared to the early villi of the dog which are derived from the subzonal membrane, and still less to those of the rabbit formed from the zona radiata.
Unless all the early ova so far described are pathological, it seems to follow that the mesoblast of the chorion is formed before the embryo is definitely established, and even if the pathological character of these ova is admitted, it is nevertheless probable (leaving Krause’s embryo out of account), as shewn by the early embryos of Allen Thomson and His, that it is formed before the closure of the medullary groove. In order to meet this difficulty His supposes that the embryo never separates from the blastodermic vesicle, but that the allantoic stalk of the youngest embryo ([fig. 168]) represents the persistent attachment between the two[98]. His’ view has a good deal to be said for it. I would venture, however, to suggest that Reichert’s embryonic area is probably not in the two-layered stage, but that a mesoblast has already become established, and that it has grown round the inner face of the blastodermic vesicle from the (apparent) posterior end of the primitive streak. This growth I regard as a precocious formation of the mesoblast of the allantois—an exaggeration of the early formation of the allantoic mesoblast which is characteristic of the Guinea-pig (vide p. [264]). This mesoblast, together with the epiblast, forms a true chorion, so that in [fig. 168], and probably also in [fig. 164] A and B, a true chorion has already become established. The stalk connecting the embryo with the chorion in His’ earliest embryo ([fig. 168]) is therefore a true allantoic stalk into which the hypoblastic allantoic diverticulum grows in for some distance. How the yolk-sack (umbilical vesicle) is formed is not clear. Perhaps, as suggested by His, it arises from the conversion of a solid mass of primitive hypoblast directly into a yolk-sack. The amnion is probably formed as a fold over the head end of the embryo in the manner indicated in His’ diagram ([fig. 168] Am).
Fig. 168. Diagrammatic longitudinal section of the ovum to which the embryo ([fig. 165] a) belonged. (After His.)
Am. amnion; Nb. umbilical vesicle.
These speculations have so far left Krause’s embryo out of account. How is this embryo to be treated? Krause maintains that all the other embryos shewing an allantoic stalk at an early age are pathological. This, though not impossible, appears to me, to say the least of it, improbable; especially when it is borne in mind that embryos, which have every appearance of being normal, of about the same age and younger than Krause’s, have been frequently observed, and have always been found attached to the chorion by an allantoic stalk.
We are thus provisionally reduced to suppose either that the structure figured by Krause is not the allantois, or that it is a very abnormal allantois. It is perhaps just possible that it may be an abnormally developed hypoblastic vesicle of the allantois artificially detached from the mesoblastic layer,—the latter having given rise to the chorion at an earlier date.
General.