Development of the hemomicrocirculatory bed of the human gonads during the prenatal period of ontogeny

The formation of the organospecific hemomicrocirculatory bed of the ovaries and testes has been studied by a complex of light, transmissive and scanning electron microscopy in 3--9-month-old human fetuses. The change of the diffusive protocapillary bed is secured by: 1) reduction of some protocapillaries; 2) appearance of secondary capillaries from the growth buds of the preceeding microvessels; 3) formation of arteriolar and venular links of the hemomicrocirculatory bed from the protocapillaries at the expense of differentiation of the developing paravasal connective tissue into cellular elements of the muscular and adventitial tunics. The secondary blood capillaries of the human gonads are predominantly formed intraendothelially. During the prenatal ontogenesis presence of the secondary blood capillaries of somatic uninterrupted type is specific for the human gonads.     

Ultrastructural regularities of new growth of secondary micro blood vessels in the prenatal period of human morphogenesis

By means of transmissive electron microscopy structural aspects of new formation of secondary blood microvessels in functionally different organs have been studied during fetal period of the human development. Growth buds appear on the basal surface of the endothelial lining of the blood microvessels predominantly in those areas of the vascular wall, where pericytes and adventitial cells are absent. The first stage in formation of the growth bud is separating of small compartments in the lumen of the maternal vessel. Then, connected by means of specialized contacts, endothelial cells of such a compartment move one by one towards periphery of the vessel and form the growth bud, protruding outside. In the area of the growth bud local destruction of the basal membrane is observed. Newly formed microvessels, anastomising, form vascular loops. Further processes in differentiation of separate segments of the newly formed capillary network into links of the hemomicrocirculatory bed are analogous to those, observed in the course of differentiation of the primary protocapillary network into the secondary intraorganic blood bed.     

The blood microcirculatory bed of the tunica muscularis of the human esophagus in postnatal ontogeny]

The analysis of morphological and morphometrical data of the muscular membrane and its blood microcirculatory bed has demonstrated that their development during the postnatal ontogenesis advances unevenly. An intensified growth and development of the muscular membrane morphological structures, including its blood microcirculatory bed occurs from 3 up to 30 years of life. Their maximal growth is noted from 12 up to 30 years of age. The stages of intensified development of the muscular membrane and its blood microcirculatory bed change into stages of retarded growth, where processes of involutive character preponderate. This is especially noticeable from 60 and more years of age. The stages noticed in the muscular membrane development and its blood microcirculatory bed are characterized both by general and topographical morphofunctional peculiarities specific for every stage of organogenesis.     

Morphofunctional adjustments in the microvasculature of the conjunctiva of the human eye at different stages of the postnatal period of ontogenesis

By means of the biomicroscopy method under vital conditions, conjunctival microvessels in the eyeball have been investigated in 240 healthy boys 7-17 years of age at the state of rest and at the antiorthostatic action. The rearrangement of the conjunctival microcirculatory bed of the eyeball completes on the whole by 13-14 years of age and is characterized by transition from diffuse to a more refulate structure (the number of the main magistrals lessens, they become larger, the number of capillaries functioning simultaneously decreases, the role of the shunting blood stream becomes more important). With this process in ontogenesis, certain changes in reactivity of microvessels are connected. The quickest and the most adequate responses of the microvessels appear in the development by the time when the definitive composition of the conjunctival microcirculatory bed in the eyeball is formed. Since that time the microcirculatory system reaches its optimal level of functioning and all the processes are performed in the most economic regimen.     

Hemomicrocirculatory bed in the rabbit small intestine wall during ontogenesis

Hemomicrocirculatory bed has been studied in fragments of the small intestine wall, obtained from 30 rabbits of various age. During ontogenesis the number and caliber of all components of the hemomicrocirculatory bed increase, as well as density of the capillary network in connection with formation and growth of the small intestine membranes. At the age of two or three years involutive changes are observed in the blood bed of this organ.     

Morphometric findings in the microcirculatory bed of the sigmoid serosa during the fetal period in man

During fetal life, formation and arrangement of the microcirculatory bed in the serous membrane of the sigmoid colon correspond to the growth and functioning of the latter at different stages of ontogenesis. Two periods in the development of the microcirculatory bed of the serous membrane of the sigmoid colon are revealed: the first period coincides with the first half of the fetal development when capillary growth is considerable, i.e. with the growth of metabolic part in the microcirculatory bed; the second period coincides with the second half of the fetal development when intensified growth of the sigmoid portion of the large intenstine and its transport sections in the microcirculatory bed (arterioles, precapillaries, postcapillaries, venules) are observed.     

Patterns in the development of the ultrastructure of elements of the microcirculatory system in the early stages of human embryogenesis

By means of transmissive electron microscopy methods, general regularities in development of the microcirculatory system have been studied at early stages of the human prenatal ontogenesis in functionally different organs. Ultrastructure of two cell types has been described in the mesenchyme of human embryos. Formation mechanisms of the primary blood vessels belonging to the protocapillary type are revealed. Structural peculiarities of the primary protocapillary network differentiating into various links of the secondary organospecific hemomicrocirculatory bed are distinguished. Certain stageness in development of the microcirculatory system is stated, its blood circulatory compartment including. Two stages are determined in development of the microcirculatory system: prevascular and vascular microcirculation. The latter includes the precirculatory and circulatory phases.     

Milky spots in the human greater omentum. Macroscopic and histological identification

Macroscopic and histological investigations were made from surgical specimens demonstrating milky spots in the human greater omentum from subjects of various ages. The milky spots in the human greater omentum appear as tiny, cotton-wool-like masses to the naked eye. Histologically, the milky spots consisted mainly of many macrophages with diffuse cytoplasmic esterase reaction products and esterase-negative B lymphocytes surrounding the vascular networks. Macrophages phagocytosed many carbon particles which were introduced as a carbon suspension during the operation. The vascular networks were blood capillary convolutions with a glomerular shape. Silver impregnation showed the delicate networks of reticular fibers which constitute the framework of the organ. The number of milky spots was highest in infancy and gradually decreased with age.     

Blood supply of the greater omentum in sheep and goats

The course and shape of the arteries and veins which - as side branches of the A. and V. gastroepiploica and the A. and V. epiploica - supply the greater omentum of sheep and goat were demonstrated by means of the india ink method and by stained membrane preparations. The terminal vascular bed shows the principle of the s.c. bridgeformation, consisting of a preferential channel and parallel connected capillaries, which are encircled with precapillary sphincters. The capillaries comprise a continuous endothelium. There are capillary convolutes - sometimes furnished with a fenestrated endothelium - which are parts of the milky spots. Other capillary convolutes not belonging to the milky spots contain a nonfenestrated endothelium.     

Lymphatic bed of the muscular sheath of the small intestine in animals and man during ontogenesis]

In the anatomy of the lymphatic bed of the small intestine muscle layer still there are obscure questions on the phylo- and ontogenesis of man and animals. Under study were 92 corpses (35 men, 27 cats and 30 dogs) of different age, beginning from the intrauterine period to old age. Different methods were used: polychromatic injection; macro- and microscopic dissection; staining after van Gieson and with haematoxilineeosin; impregnation with 0,25-1% solution of silver nitrate; dehydration and clearing; counting of the density of loops per a mm2 and the depth of their disposition in the intestinal wall with an ocular-micrometer. It was shown that formation of the lymph capillaries and their network in cats, dogs and man began from the end of the intrauterine period, was completed in new-borns and became sufficiently developed in young age. The structure of the lymph capillary networks is closely connected with the development of the muscle layer of the small intestine. Formation of the lymph lacunas begins after birth. With age the lymph capillary network becomes looser, the loops break and their size enlarges.     

Ultrastructural changes in the microcirculatory bed and filtration-reabsorption barrier of the kidney during temporary ischemia after unilateral nephrectomy

Ultrastructure of cellular elements of the microcirculatory bed and filtration-reabsorption barrier has been studied in 150 mature white rats, in which vascular fasciculus of the left kidney has been compressed for 30 min, 1-2 h with a subsequent restoration of the blood stream in the organ undergone ischemia on the 3rd, 7th, 14th, 30th, 60th, 180th, 360th days under conditions of the preliminarily right kidney nephrectomy. On the 3rd day after ischemia of the remained kidney for 30 min, structural components of the walls of the glomerular arterioles and those of the filtration-reabsorption barrier undergo certain ultrastructural changes, that with time elapsed (7, 14 days) gradually pass away, and amount of cells with hypertrophic processes increases. Ischemia for 1 h in the remained kidney with subsequent restoration of the blood stream on the 3rd, 7th days produces in the structures mentioned more pronounced destructive changes. During subsequent compensatory hypertrophy (the 30th, 60th days) of the remained kidney after its ischemia, in the microcirculatory bed elements and in the convoluted canal epitheliocytes intracellular regenerative and hyperplastic processes develop. However, ischemia for 2 h in the remained kidney produces severe destructive-necrotic phenomena in ultrastructure of the microcirculatory bed and of the filtration-reabsorption barrier.     

Identification of vascular endothelial cells in murine omentum using the lectin, Dolichos biflorus agglutinin: possible applications in the study of angiogenesis

Summary The purpose of this study was to determine whether the plant lectin,Dolichos biflorus agglutinin (DBA), can be used to recognize capillary endothelial cells and their processes during angiogenesis. By means of a peroxidase conjugate of DBA, blood vessels were visualized in whole mounts and ultrathin sections of mouse omentum. A part of this mesentery normally comprises an avascular membrane that is approximately 30 µm in thickness. Changes in the vascular plexus bordering this membrane were induced by intraperitoneal injection of irradiated Landschutz cells. Vascular endothelial cells were precisely and intensely stained, and vasculogenic processes were reliably distinguished from those of other cells. This technique permitted observation of the structure and distribution of capillary sprouts, and their relationship to each other and to pre-existing blood vessels. It was discovered that filiform projections extend from sprout apices. These projections may fuse allowing adjacent sprouts to form a new capillary loop.     

Functional organization of cerebral microvasculature in a marsupial, the northern quoll (Dasyurus hallucatus)

Capillaries within the central nervous system (CNS) of eutherian mammals form meshworks with numerous anastomoses, whereas capillaries in the CNS of marsupials consist entirely of hairpin-like loops, without anastomotic interconnections. Counter-current blood flow in capillary loops may have been important in the evolutionary development of a cerebral vascular supply. However, loops are not found in eutherian mammals, perhaps because of a limited benefit to the diffusive conductance of gases.     

Microvasculature of the epididymis in the boar

Summary Microvasculature of the epididymis was investigated by scanning electron microscopy of vascular corrosion casts. The basic structure of blood supply to the boar epididymis consists of two superimposed vascular networks. Capillaries surrounding the epididymal duct constitute the inner level. They form polygonal meshes around the efferent ductules whereas circular capillaries strongly predominate in the subsequent region of the caput epididymidis. This annulate feature is progressively lost from corpus to cauda, where the capillary network once again has a polygonal appearance. The outer network is composed of feeding and draining vessels. Intertubular arteries pass between the loops of the epididymal duct and give rise to longitudinally oriented vessels attributable to only one adjacent duct segment. They feed the capillary network via circular ramifications debouching in different sectors of its circumference. The sparse veins draining the capillaries encircling the efferent ductules give way to a gradually increasing number of confluent veins up to the cauda.     

Mechanisms of changes in blood flow distribution between organs in hens during ontogenesis

Anatomical and histological investigations of large arteries feeding head, extremities and chorioallantoic membrane were carried out in 11-, 14-, and 18-day old chicken embryos and in 1- and 40-day old Shaver chickens. The numerical relationships between an arterial diameter and a body mass; a vessel length, its external diameter and a wall thickness, were determined. Our data demonstrate that walls of large arteries in the anterior and the posterior parts of the chicken embryo body are different in quantity, composition, and maturity of their tissue components, determining the lumen size and hemodynamic conditions in the blood bed. The vessel growth velocity have been estimated. Ontogenic widening of gastrocnemius and pectoralis muscle capillary beds and of their supplying trunks, was compared. Calculations using the data on organ portions of cardiac output in chicken embryos show the maintenance of similar liner blood flow velocities in different large arteries suring ontogenesis.     

Development of neuron-capillary interrelationships in the nuclei of the anterior portion of the human hypothalamus during ontogenesis

Three periods in the formation of the spatial arrangement of the neuronal nuclei have been stated: 1) from the prenatal period, infancy including--pronounced decrease in the density of the neuronal cells arrangement; 2) from the childhood up to adolescence--relative stabilization in the hypothalamic cellular composition; 3) mature and old age--secondary decrease in the dencity of the neuronal cells arrangement. Certain peculiarities in the nuclear capillary composition and in their neuronal-capillary relationships have been revealed: during the prenatal ontogenesis, the dencity of the neuronal cells arrangement decreases and their size increases that is followed by decrease in their capillary loops. In postnatal ontogenesis no proportional relationship between the dencity of neuronal cells arrangement and that of capillary network in the nuclei of the anterior hypothalamus was noted.     

Reactivity of the microcirculation bed of the small intestine mesentery in experimental dehydration in rats

The state of mesenteric microcirculatory bed has been studied in male rats 3, 6 and 12 days after the beginning of alimentary dehydration. It has been revealed that vascular, intravascular and extravascular changes were of particular importance. Spastic reactions of arterioles and precapillary arterioles, the activation of arteriolo-venular shunting and the reduction in capillary circulation accompanied by diminution of all microvascular diameters were among the most marked vascular phenomena. The intravascular changes were represented by decreased blood flow rate, erythrocyte aggregation and leucocyte adhesion. The extravascular phenomena were characterized by the appearance of local hemorrhages.     

Blood vessels in different systems of limb traction (experimental study)

In the experiments performed in 108 dogs, structure of the vascular bed, elongated by means of Ilizarov's apparatus in the extremity pelvic segment, has been studied, as well as the hemostatic system under various regimens of distraction. Under a spare regimen reorientation of the microcirculatory bed links and its neural apparatus according to the lines of tension and distension forces are revealed, as well as new formation and growth of capillaries, nerve fibers and terminals. In the vessels of the muscular type, at the level of the osseous regenerate, the following changes are described: distractive rearrangement and intercalated growth (such as activation of biosynthetic processes in endothelium, adventitium and smooth muscle (SMC) cells), intensive proliferation and longitudinal reorientation of the activated SMC in the middle tunic, in the larger arteries a powerful longitudinal muscular layer is formed between the endothelium and the internal elastic membrane. The tendency for hypercoagulation, that exists at that time, is compensated by antithrombogenic and fibrinolitic blood activity. Under an elevated rate of the distraction or under an unstable fixation of the bone fragments in the apparatus, hypercoagulation is not compensated till the end of the experiment, and in the vessels, simultaneously with the distractive rearrangement, thrombosis, recalibration and obliteration are observed. The data observed and those of the literature, demonstrate that vascular adaptation to a dosed distraction is performed by means of certain rearrangements in the walls and of intercalated growth influenced by the effect of the distension forces. These phenomenon make the base of the mechanisms developing in the organism during its evolution and ontogenesis.     

Morphofunctional characteristics of microcirculation in the skin of girls 5-17 years of age

In 261 girls year-to-year morphofunctional transformations of spatial composition of the skin microcirculatory bed have been studied at rest and after a dynamic local load. By means of biomicroscopy main regularities in development of the skin capillary network have been revealed in the nail torus in the postnatal ontogenesis. Formation of the microvessels reactivity during various age periods and maturation of mechanisms of the compensatory-adaptive reactions are connected with formation of the definitive composition of the microcirculatory bed, that in girls corresponds to 11-12 years. Qualitative transformations in the skin capillary network bring certain quantitative changes in the structural microcirculatory parameters--increasing diameter of microvessels and increasing density of functioning capillaries.     

The formation of the microcirculatory bed of the neuromuscular systems of the tongue in human prenatal ontogeny]

A complex of adequate neurohistological and injection methods with use of mathematical analysis of the data obtained has been performed to study prenatal and early postnatal periods of ontogenesis of the microcirculatory bed of the human tongue neuromuscular systems. Certain changes of the degree in organization and structural-functional integration have been revealed; they demonstrate periodicity of the morphological changes of the vasculo-neural complex of the extra- and intrafusal part of the muscular tissue. In the neuromuscular spindles the microvascular network of capillaries is formed, their volumetric part changes in the process of development in greater degree than the microvascular bed of the extrafusal muscular fibers. In formation of the microcirculatory vascular bed of the neuromuscular spindles not only capillaries, getting into them together with nervous fibers, but also microvessels of the surrounding muscle tissue participate. This determines a higher level of the vascularization degree of the intrafusal muscle fibers.