Morphometric study of the mandibular condyle of the rat during postnatal development

A morphometric technique for the use of the temporomandibular joint (TMJ) of the rat as an experimental model was developed to study TMJ growth from birth to 120 days of age. Experimental conditions for the reduction and embedding of the specimen, as well as for data collection were standardized. Morphometric data were obtained from projected drawings and the areas occupied by the various structures were determined by counting points with a specially constructed integration grid. The areas occupied by the layers making up the mandibular condyle remained relatively constant, forming an architectural pattern from the 30th postnatal day on. Between the 10th and 30th day they underwent modifications interpreted to be functional adaptations conditioned by changes in the animal's feeding habits.     

A microcinematographic study of the in vitro development of postimplantation rat embryos

A method for time-lapse cinematography of in vitro cultured rat embryos is presented. Technical details (especially with respect to the possibility of manipulation during filming) and the first results obtained are presented and discussed.     

Postnatal development of the vomeronasal epithelium in the rat: an ultrastructural study

Three basic types of cells are distinguished in the rat vomeronasal epithelium at birth: bipolar neurons, supporting cells, and basal cells. Neurons at this time include both immature and differentiated cells. By the end of the first postnatal week, all neurons show morphological signs of maturity in their cytoplasm, including abundant granular and smooth endoplasmic reticulum, neurotubules, dense lamellar bodies, apical centrioles, and tufts of microvilli. During the third week microvilli are more frequently encountered and appear to be longer and more branched. Supporting cells appear well-developed by the second day after birth. During the first ten days of life, supporting cells lose their centrioles and all of the complex associated with ciliary generation in the apical zone. Basal cells appear to be more numerous in newborns than in older animals. Protrusions projecting into the lumen are frequently observed in the epithelium of newborn animals, both on the dendrites of neurons and on supporting cells. After the third week, such protrusions are only observed in the transitional zone between the sensory and the non-sensory epithelia of the vomeronasal tubes. In this transitional zone, a fourth cell type showing apical protrusions with microvilli differentiates. Cytoplasm in this type resembles that of neighboring ciliated cells but has no cilia or centrioles. These transitional cells are considered to be cells in an intermediate state of differentiation, between that of the differentiated neurons and supporting cells of the sensory epithelium and that of the predominate ciliated cells of the non-sensory epithelium. The results suggest that by the end of the third week the vomeronasal epithelium is morphologically mature.     

Electron microscopic study of the prenatal development of the thoracic aorta in the rat

Prenatal development of the thoracic aorta of the rat during the period ranging from gestational days 12 to 21 was examined by transmission electron microscopic and morphometric studies. The process of wall formation occurred in four major phases. At phase I (gestational day 12), the dorsal aorta consists of an endothelium and loosely surrounding mesenchymal cells. Collagen fibrils and fine filamentous materials are sparsely present in the intercellular space. At phase II (days 13 to 16), the mesenchymal cells begin to differentiate to myoblasts, which have small clusters of myofilaments with dense bodies, rough endoplasmic reticulum, and a discontinuous basal lamina. The differentiating cells form a few compact cell layers around the endothelium. Elastic fibers first occur sparsely in juxtacellular spaces at days 13-14. The thickness of the aorta increases rapidly from 1-3 layers of cells at day 13 to 5-8 layers at day 17, leading to a maximum of 5-9 cell layers at day 20. The differentiation of myoblasts and elastogenesis are initiated in the inner layers, and later progress toward the outer layer of the aortic wall. At phase III (days 17 to 19), the myoblasts continue to develop into typical smooth muscle cells, and elastic fibers rapidly increase in both size and number. At phase IV (day 20 and later), smooth muscle cells have well-developed myofilaments in the cell periphery, and rough endoplasmic reticulum and other organelles tend to accumulate in the apical portion of the cytoplasm. Elastic laminae appear in a few inner layers of the aortic wall.     

Immunohistochemical study on the development of CRF-containing neurons in the hypothalamus of the rat

Summary Appearance of immunoreactive corticotropin-releasing factor (CRF)-containing neurons was studied in developing hypothalamus of the rat by use of antisera against rat- and ovine CRF. These neurons were first recognized in the lateral and paraventricular nuclei on days 15.5 and 16.5 of gestation, respectively, when antiserum against rat CRF was employed. Antiserum against ovine CRF revealed the cells two days later exclusively in the latter nucleus. In both nuclei, the neurons increased in number with development. The neurons in the paraventricular nucleus appeared to project their immunoreactive processes to the median eminence via the periventricular and lateral pathways. In the median eminence, the immunoreaction with antiserum to rat CRF was first recognized in its anterior portion in the form of dots on day 16.5 of gestation but as beaded fibers in the external layer on day 17.5; these structures increased in amount with development in rostro-caudal direction. Although antiserum to ovine CRF was less potent in immunostainability than antiserum to rat CRF, it also revealed the beaded fibers in the median eminence on day 17.5 of gestation. Since evidence is available that the paraventricular nucleus is involved in corticotropin release, it is concluded that, in rats, the hypothalamic regulatory mechanism controlling the release of corticotropin initially appears on days 16.5–17.5 of gestation.     

Histochemical study of the pre—and postnatal development of acetylcholinesterase in the rat spinal cord

The distribution of acetylcholinesterase(AChE)-positive structures in the developing rat spinal cord was studied with AChE-histochemistry.AChE-positive perikarya were first seen on embryonic day 14(E14) in the ventrolateral portion of the spinal cord.From that time onward.AChE=containing cells appeared gradually in the intermediate gray,dorsal horn and lateral spinal nucleus of the spinal cord in a ventral-to-dorsal,and lateral-to-medial order.No obvious rostral-to-caudal sequence was found.At birth,the distribution pattern of AChE-positive perikarya was basically similar to that in adults.After birth a dramatic increase in the AChE staining intensity extended from postnatal day 5(P5) to postnatal day 21(P21),In addition,two phases of transient AChE staining were observed in the external surface of the dorsal horn from embryonic day 15(E15) to embryonic day 21(E21) and in the marginal layer from embryonic day 21(E21) to postnatal day 14(P14),respectively.     

A mesoscopic technique for the study of the development of the peripheral system in rat foetuses

In order to study the morphogenesis of the nervous system in the rat an acetylcholinesterase in toto method for staining nervous tissue in rat foetuses was developed. Procedure: Rat foetuses of 14-22 days are fixed "en bloc" for 24 hours in a cold sucrose-formol solution. Fixed specimens are rinsed for 2 days in cold 0.22 M sucrose in a sodiumcacodylate buffer (pH 7.2). The specimens are cut (mid-)sagittally with the aid of a razor-blade, and incubated in a medium of acetylthiocholine iodide in acetate buffer (pH 5.0). Then, dehydration in glycerine/water mixtures of increasing glycerine content follows. The specimens may be stored in pure glycerine or embedded in epoxy-resin blocks and can be studied under a binocular dissecting microscope. In using this in toto staining method both the continuity of the central and peripheral parts of the nervous system as well as details up to the level of individual perikarya and motor endplates are preserved. With this mesoscopic method the three-dimensional architecture of the peripheral nervous system and its topological relations to other structures can be studies in one specimen. The exact procedure and the results as well as a method for embedding specimens in epoxy-resin blocks for teaching purposes are described. The advantages of this mesoscopic staining method for foetuses are discussed.     

Ultrastructural study of the development of Sarcocystis singaporensis sarcocysts in the muscles of its rat host

Laboratory rats fed sporocysts of Sarcocystis singaporensis (Zaman & Colley, 1975) Zaman & Colley, 1976 originating from Singapore were euthanized 22, 23, 33 and 80 days later. Sporocysts were extracted from feces of either naturally or laboratory-infected Python reticulatus. Electron microscopically examined longue and esophageal muscles yielded images of successive developing stages of sarcocysts. The primary wall evolved from a continuous thin layer into folds and later, into villar protrusions. At all stages the wall was interrupted by pinocytotic-like indentations. Young sarcocysts contained only metrocytes, they divided by endodyogeny into daughter metrocytes. The first bradyzoites appeared only 33 d.p.i. Sarcocysts by 80 d.p.i. were enclosed in a fully differentiated primary wall and contained almost entirely bradyzoites.     

An electron microscopic study of the development of rat testis in the first 10 postnatal days

Summary The ultrastructure of testis of immature rats from birth to ten postnatal days was studied in order to describe the development of germ cells into definitive spermatogonia. The primordial germ cells showed no structural changes from birth to 4 days after birth. At the 5th postnatal day the gonocytes were transformed into darker cells and began to migrate towards the basement membrane. As they reached the periphery of the seminiferous cords they resumed mitoses and gave rise to smaller gonocytes, which were progressively transformed in definitive spermatogonia. A lighter kind of supporting cell was also detected.We wish to thank Mrs. L. Giaccardo, A. Pozzolini and E. Taccini for skilled technical assistance.From the Department of Medical Pathology, Pisa University, Pisa, Italia.     

A light and electron microscopic study on the embryonic development of the rat carotid body.

The embryonic development of the rat carotid body was studied with electron microscopy. In the 11 mm embryo a cell aggregation consisting of undifferentiated cells and unmyelinated nerve fibers appears on the anterior wall of the third branchial artery. Granule-containing cells appear in the 12 mm embryo and continue to increase in number as the cellular aggregation increases in size and becomes separated from the wall of the third branchial artery. Synapse formation and the appearance of fenestrated capillaries occur almost simultaneously at the 17 mm stage. There are two types of synapses, one with membrane densification and vesicles clustered inside the nerve endings, the other with dense material and vesicles inside the granule-containing cells. At the 20 mm stage the undifferentiated cells send enveloping cytoplasmic processes toward adjacent granule-containing cells and the carotid body anlage displays rudimentary lobules.