Zeitschrift fur mikroskopisch-anatomische Forschung最新文献

The reduction of the forceps major of the corpus callosum was estimated quantitatively in relation to the lesions to the neocortex in animals to which methylazoxymethanol-acetate (MAM) had been administered on the 13 th, 15 th or 17 th day of embryonic development. The specimens which received a prenatal injection of MAM the 13 th or 15 the day of gestation show noticeable reductions in both the extension of the occipital neocortex and the forceps major of the corpus callosum. Parallelly in MAM 13 there is a significant reduction in cell density both in the deeper layers and the more superficial ones, whereas in MAM 15 only the supragranular layers seem to be altered. Such a quantitative analysis shows a close correlation among the decreases in the area of the forceps major of the corpus callosum, in the area of the occipital neocortex and in cell density of the infragranular and supragranular layers.

Snout glabrous skin (rhinarium) of the cat is innervated not only by typical simple lamellar corpuscles but also glomerular formations. In contrast to simple lamellar corpuscles, glomerular nerve formations are located away the dermal papillae. In cross sections, glomerular nerve formation consists of several axonal profiles enveloped by 1-2 cytoplasmic lamellae of Schwann cells. The space among them is filled by collagenous microfibrils and the basal lamina-like material. Capsule was composed from fibroblast-like cells without definite basal lamina. An electron-dense reaction product due to non-specific cholinesterase activity was associated with Schwann cells and their processes surrounding unmyelinated terminal portion of the sensory axons. Abundant reaction product was bound to the collagenous microfibrils and was deposited in extracellular matrix between Schwann cell processes. These results are further evidence for the presence of the non-specific cholinesterase molecules as integral component of the extracellular matrix in sensory corpuscles. On the basis of histochemical study two possible explanation are considered for functional involving of this enzyme in sensory nerve formations.

Impact of progesterone (norethindrone) only oral contraceptive (MICRONOR) on mouse uterus was investigated by SEM. The three dimensional SEM photographs revealed that, flat wave like mucous folds of the uterus (control) become more thick and highly convoluted after 50 days of MICRONOR feeding. The uteri became highly secretory as indicated by increased thickness of nonciliated secretory cell population with their increased microvilli. Low doses of norethindrone in combination with circulating estrogen, instead of causing regression, maintained a steady and highly secretory state which may interfere implantation/gamete transport.

Treatment of rats between day 15 and 20 of gestation with gentamicin caused histological as well as enzyme histochemical lesions in the kidney of the one year old offspring (F1 generation). Other organs were not significantly affected. Primarily in the female kidney dilated convoluted proximal tubulus with reduced or absent staining for brush border and lysosomal proteases, phosphatases and glycosidases and mitochondrial dehydrogenases were observed. In comparison, glomeruli were less frequently damaged and contained fewer capillary loops or irregularly arranged tissue elements with lowered or no activities for plasma membrane-associated proteases as well as specific and non-specific phosphatases. In addition, the activities of proteases and phosphatases in cortical and medullary endothelial cells of capillaries were reduced or even abolished in the kidney of the female and male F1 generation after treatment of their mothers with gentamicin.

The author has shown the variety in denominating peripheral sensory structures serving for mechanoreception, nociception, thermoreception and chemoreception. To term peripheral sensory structures as nerve endings is considered particularly unsuitable because this denomination is based only on morphogenesis of the ending. From the view of system approach, the peripheral sensory structures forms one unit formed by two or more structural subsystems. Even though the axon or its dendritic zone has the leading role in this unit, the function of the whole formation is influenced (modulated) by further non-nervous components. Although the causes of velocity of adaptation in some sensory structures have been already explained (e.g. in lamellar corpuscles with a thick capsule), different adaptation velocity of Merkel complexes in reptiles and birds on one side, and in mammals on the other, with the same structure has not been clear up to now. From the view of system approach as well as of the share of non-nervous components in the activity of the whole sensory structure, the author has suggested to introduce the term "sensory nerve formation" for peripheral sensory structures serving for mechanoreception, nociception, thermoreception and chemoreception. The term "complex sensory nerve formation" is suggested for more complex sensory structures in which either more sensory nerve formations of the same kind (Pinkus tactile dics) or different kinds of sensory formations (Eimer organ of a mole) are connected constantly or in which the connection of sensory nerve formations with other supporting structures (hairs, feathers) occurs.

Nine frogs of the species "Rana esculenta" were heart perfused with Microfile Silicone Rubber. The frogs were examined both after dissection (cut with a razor blade) to study the superficial blood vessel pattern, and histologically (the Nissl staining method) to study the distribution of the deep blood capillaries. While the superficial blood vary in pattern, the deep capillaries are distributed symmetrically. This finding does not support a correlation between blood vessel pattern and morphological brain asymmetry, at least in the frog, and thus other explanations must be sought to explain brain asymmetry.

Histochemical method of KARNOWSKY and ROOTS (1964) was used to discover the AChE-positive nerves. These nerve fibres were found in all layers of all organs under study. The ureter was weakly innervated, while the urinary bladder and the urethra possessed strong AChE-positive innervation. AChE-positive fibres were most abundant in the bladder trigone. Muscular membrane was the best supplied layer, both in the urinary bladder and in the urethra. Part of AChE-positive nerves was connected with the blood vessels in all organs under discussion.

Morphological studies of peripheral human nerves have shown that the number o of Schmidt-Lanterman incisures in an internode is proportional to the fibre diameter. Quantitative and ultrastructural examinations of incisures in the shoulder plexus nerves of the juvenile have proved some common features in the distribution and structure of incisures, characteristic for the nerves of both mammals and people. However, in all probability, in the peripheral nerves of man under certain condition there is a mechanism, leading to a sharp increase of the number of incisures in the internodal segment.

Both, calmodulin (CaM) as well as the antigen Ki67 show a close relationship to cell proliferation. By means of specific antibodies against them, it has become possible to study the spatial distribution of proliferative compartments in tissues. We performed an indirect immunofluorescence study on unfixed frozen sections of human adult skin to gain more informations about the spatial distribution of immunoreactive CaM and Ki67 in skin appendages, i.e. anagen hair follicle, sebaceous and eccrine sweat gland. Two major patterns of immunoreactivity were seen: Type (1) or epidermis-like, which was present in the interfollicular epidermis and the pilosebaceous unit. Type (2) or sweat gland type, which was seen in eccrine sweat glands. Both types disclosed significant differences in the relative number of proliferative cells in S-phase, which might be a consequence of a quiet different tissue architecture. Furthermore, myoepithelial cells of secretory coils were likely to represent mainly SQ-cells. Their immunoreactivity in human skin was quiet different from other parts of eccrine sweat glands suggesting another ontogenetic pathway.