How chicken embryo survives after half of shell is sealed?

The goal of this study was to explore the development of the gas transport systems in chick embryos after half of the shell surface is closed on incubation day 11. By the end of day 3 of the experiment (incubation day 14), the vascular reduction in the chorioallantois under the covered zone is fully compensated by the vessel dilatation and growth in the intact half. In parallel, the oxygen capacity of blood elevates and hematopoiesis increases: the indices of hematocrit, hemoglobin, and erythrocyte count increase by half. The development of the left ventricular myocardium accelerates through the myocyte hyperplasia and their more mature ultrastructure. The obtained data indicate that hypoxia accelerates the embryonic development and leads to earlier and faster differentiation of the gas transport systems. However, the efficiency of antihypoxic responses is limited by the upper bound of capillary density in the chorionic respiratory network. After 1 week of the experiment (incubation day 18), the total vascular volume in the chorioallantois is halved relative to control, while the arterial walls substantially thicken in the open part, which increases the peripheral resistance. Coronary sclerosis and dystrophy of cardiomyocytes developed in the left ventricle. These general hemodynamic abnormalities are accompanied by a notable embryonic growth inhibition. Thus, the structural compensation of the gas transport systems in the experiment becomes exhausted and cannot provide for increasing metabolic demands of the growing embryo.     

Development of the cerebrospinal fluid in chick embryos. Physicochemical properties.

The development of the physicochemical properties of the cerebrospinal fluid (CSF) was studied in chick embryos from the 9th day of incubation up to hatching. Some of these properties were compared with the corresponding blood or blood plasma properties. During the second half of incubation the CSF pressure rose from 13.2 plus or minus 0.18 mm H2O in 9-day-old embryos to 80.7 plus or minus 0.48 mm H2O just prior to hatching. The critical stages of this development were the 13th to 15th and the 19th to 21st day of incubation. In 13- and 15-day-old embryos, CSF pressure fell sharply after the intracerebral injection of ouabain, but in 19-day embryos it was unaffected. Except for the 15th and 19th incubation day, the CSF pH was always lower than the plasma pH. From the 11th day of incubation up to hatching, the CSF pH fell from 7.36 plus or minus 0.002 to 7.2 plus or minus 0.005. On the 11th and 13th day, specific CSF resistance was higher than plasma resistance, whereas from the 17th incubation day it was significantly lower than the plasma value. During the second half of incubation, specific CSF resistance fell from 1.059 times 10(6) to 0.824 times 10(6) omega mm.m(-1). A difference between the D.C. potential of the venous blood and the CSF appeared for the first time in 15-day-old embryos, the CSF being negative in relation to the blood. By the end of the incubation period this potential difference rose to 10.82 times 0.07 mv.     

Disorders in the development of the crystalline lens in chick embryos following exposure to insulin]

Inection of insulin into the chicken egg-white in dosage of 4 i. u. during the 1st - 14th days of incubation results in degenerative changes in the lens. Injection of insulin during the 1st day of incubation (before the beginning of eye differentiation) fails to prevent development of the eye vesicle and determination of the lens. The morphogenesis of the lens goes normally up to the 10-13th days of incubation. From this moment abrupt degenerative alterations make their appearance as well as destruction of the lens fibres. When the lens is affected by insulin the destruction is observed on the following day. The mechanism of insulin effects upon the lens seems to be as follows: Exogeneous insulin remains in the embryo tissues for along time. When the tissues are preparing to accept endogeneous insulin and become susceptible to it (the 10th-11th days of incubation) exogeneous insulin begins its pathological influence on the lens fibres. After the 13th-14th days of incubation endogeneous insulin comes into the blood. Against the background of exogeneous insulin it results in excessive increase of concentration of insulin in the embryo tissues and great degenerative changes in the lens.     

The development of the neurons of the glossopharyngeal (IX) and vagal (X) sensory ganglia in chick embryos

The timetable of cell generation, neuronal death and neuron numbers in the fused proximal glossopharyngeal (IX) and vagal (X) ganglion and distal IX and X ganglia were studied in normal and nerve growth factor (NGF) treated chick embryos. 3H-thymidine was injected between the 3rd and 7th days of incubation and embryos sacrificed on the 11th day. Neurons in the distal IX and X ganglia were generated between the 2nd and 5th days of incubation, the peak mitotic activity occurring on the 4th and 3rd days, respectively. Neurons of the proximal IX and X ganglion were generated between the 4th and 7th days, with maximum neuron generation on the 5th day of incubation. Counts of neurons in the 3 ganglia between the 5th and 18th days of incubation showed a maximum of 22,000 on the 8th day in the proximal IX and X ganglion and this decreased to 12,000 by the 13th day. In the distal IX ganglion, the neuron number decreased by 44% from 4,500 on the 6th day to 2,500 by the 11th day. A similar decrease of 43% was found in the distal X ganglion, the neuron number falling from 11,500 on the 7th day to 6,500 by the 11th day of incubation. Neuronal cell death in these ganglia extended from the 5th to the 12th day of incubation, maximum cell death occurring at or after the cessation of mitotic activity. NGF administration from the 5th to the 11th day of incubation did not have a measurable effect on the neurons of proximal IX and X and distal IX ganglia, but increased neuronal survival by 30% in the distal X ganglion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of thyroxine on mitochondrial morphology and uptake of 35S in embryonic chicken livers

Ultrastructural analyses of reactions of mitochondria in hepatocytes of chicken embryos to low levels of exogenous thyroxine (T4) reveal that such reactions (overall swelling accompanied by disruption of crest geometry) first take place at about 10 days of incubation, T4 having been administered on the 6th day. Physically altered mitochondria may be seen after 11-12 days of incubation but are no longer evident by 13 days. Correlated with the initial evidence of T4 effects on mitochondria at 10 days of incubation is a spurt in hepatocyte proliferation. The time correlation observed between T4 induced mitochondrial changes in morphology and abrupt increases in rates of cell proliferation, suggests that liver nuclear receptors for thyroxine are unavailable prior to 9-10 days of incubation. Golgi complexes within the hepatocytes appear to be especially active in the production of electron-opaque vesicles from at least the 8th day of incubation to 11-12 days. Uptake of 35S (probably into chondroitin sulphates) was found to be fifteen times greater on the 8th day of incubation than at 15 days. This correlates with the period of heightened activity of the Golgi complex. In livers exposed to T4 on the 6th day, uptake of 35S was higher on the 9th and 10th days of incubation as compared to controls.     

Various aspects of organogenesis of the colon in Gallus domesticus: morphologic observation

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.     

Nucleoside phosphatase (ATPase) activity in myocardial cells of rat embryos. An electron-microscopic study.

Timed pregnancies were obtained in Sprague-Dawley rats, and cardiac tissues from embryos of days 10, 11, 12, 13, 14 and from newborn rats were used for the cytochemical localization of ATPase activity utilizing a lead phosphate precipitation procedure. Following incubation with ATP as the substrate, granular deposits of reaction product are discernible on the cell membranes of the embryonic myocardium. There is a noticeable decrease in the intensity of reaction product as visualized in the electron micrographs from the 10th day of gestation to the 14th day. No granular reaction product is recognizable in myofibrils, mitochondria or other organelles in the cytoplasm. It appears that there is a selective deposition of the reaction product on the cell membranes or structures derived from it. The intense ATPase activity seen on 10th and 11th days seems to be correlated with the initial appearance of myofilaments and fibrils in the myocardial cells.     

Induction of feather malformations in chick embryos by cadmium: protection by zinc

Various doses of cadmium chloride were injected to chick embryos between the seventh and 14th day of incubation. Doses over 15 micrograms/egg produced high mortality and, when injected between the tenth and 11th day, widespread curling of the feathers in the surviving embryos. A different type of malformation, consisting of hemorrhagic atrophy of the distal part of the feathers, was observed in the embryos injected with similar doses during the 12th day. No feather malformations were observed in embryos injected before the ninth or after the 12th day of incubation. The simultaneous injection of an equimolar amount of zinc sulfate prevented the feather malformations.     

The motor activity of the chick embryo and amnion during embryogenesis

Studies have been made on the motor activity of amnion and chick embryo from the 5th to the 14th day of development. Between the 5th and the 8th day of embryogenesis, when embryonic movements are rather poor, amnion contractions are mainly observed, their frequency being maximum to the 7th day. On further development (8-14 days), with the increase in the mass of the limbs which account for embryonic movements (body extremities), the increase in the intensity of their motor activity is paralleled by the decrease in the frequency of amnion contractions. Therefore, during the intensive growth and development of mainly frontal part of the embryo, the deficiency of motor activity of rather undeveloped body and extremities is presumably compensated by temporal motor activity of the amnion. Between the 8th and the 10th day, synchronous movements of embryo and amnion are observed. Possible mechanisms of synchronization are discussed.     

Ontogenetical development of the chick and duck subcommissural organ. An immunocytochemical study

The ontogenetical development of the subcommissural organ (SCO) was investigated in chick embryos collected daily from the 1st to the 21st day in incubation. Some duck embryos, and adult chickens and ducks were also studied. Immunocytochemistry using an anti-Reissner's fiber (RF) serum as the primary antibody was the principal method used. In the chick embryos the events occurring at different days of incubation were: day 3 morphologically undifferentiated cells in the dorsal diencephalon displayed immunoreactive material (IRM); days 4 to 6 immunoreactive cells proliferated, formed a multilayered structure and developed processes which traversed the growing posterior commissure and ended at the brain surface; day 7 blood vessels penetrated the SCO, scarce hypendymal cells appeared, the first signs of ventricular release of IRM were noticed, appearance of IRM bound to cells of the floor of the Sylvius aqueduct; day 7 to 10 the number of apical granules and amount of extracellular IRM increased progressively; day 11 RF was observed along the Sylvian aqueduct, day 12 RF was present in the lumbar spinal cord; day 13 IRM on the aqueductal floor disappeared; days 10 to 21 hypendymal cells proliferated, developed processes and migrated dorsally, ependymal processes elongated and their endings covered the external limiting membrane. In adult specimens the ependymal cells lacked basal processes and the external membrane was contacted by hypendymal cells. the duck SCO appears to follow a similar pattern of development.     

Regeneration of the parathyroid glands after partial resection

By means of morphometrical methods, as well as by the method of volumetric reconstruction of the organs in 33 rats during 1-30 days regeneration of parathyroid glands have been studied after a simultaneous resection of the whole left and a half of the right gland. Total calcium content in blood serum in the experimental animals decreases on the 1st-2d day and normalizes by the 3d day. Regeneration of the remained part of the gland is realized at the expense of increasing mitotic activity and hypertrophy of parathyrocytes along the whole organ from the 3d up to the 13th day. There are no signs of the glandular parenchyma growth from the wound surface. On the 3d-5th day dividing parathyrocytes predominate in the half of the gland that adjoins the wound. This promotes a predominant longitudinal growth of the gland remnant and restoration of the organ's ellipsoid form on the 20th-30th day. The main pattern of the parathyroid gland restoration after its partial resection is regenerative hypertrophy.     

Interaction of beta-carboline with chick embryo spontaneous motility.

The effect of beta-carboline (beta-CCE) on spontaneous motility and its development was studied in chick embryos between the 11th and 19th day of incubation. 1. Acutely administered beta-CCE (7.5 mg/kg e.w.) already induced significant activation of motility in 11-day-old embryos. From the 17th day of incubation activation acquired a paroxysmal character. 2. In spinal embryos (decapitated on the second day of incubation) there was no such activating effect, demonstrating that it is associated with supraspinal components of the CNS. 3. In chronic administration from the fourth day of incubation (1.55 +/- 0.24 mg/kg e.w./24h), beta-CCE led to reduced development of spontaneous motility. The effect was concentrated in the period between the fourth and eighth day of incubation. The chronic administration of beta-CCE augmented the activating effect of metrazol and weakened GABA-inhibition of spontaneous motility. 4. On the basis of their findings, the authors express the hypothesis that the benzodiazepine beta-CCE-sensitive component of the complex GABA receptor evidently already functions from the beginning of the second half of incubation of chick embryos.     

The development of the tongue in the chick embryo: observation under a scanning electron microscope

The morphological features of the chick embryo tongue from the 8th day of incubation till hatching and during the early post incubation period have been investigated by means of Scanning Electron Microscope. At the SEM, it is possible to observe that already at the 8th day of incubation, the body and the root are separated by a low smooth-surfaced ridge. In the following days this ridge develops, giving rise to the so-called lingual spines, whose significance is still uncertain. As concerns the evolutive pattern of the superficial layer of the epithelium, in the first days of the considered incubation period the cells appear dome-shaped and have microvilli on their apical surface; afterwards they tend to become more flattened, and the microvilli are replaced by a thick net of microplicae. In the last days of incubation and after hatching desquamative phenomena become evident. The above described evolutive process can be regarded as a common feature of the whole dorsal lingual surface; only few regional differences are to be noted, such as the earlier development of the microplicae on the apex and borders of the tongue. In particular, the microplicae observed at the apex of the tongue show a typical aspect and arrangement; they run regularly parallel to each other. On the lingual dorsal surface taste bud-like structures have never been observed.     

Acoustic and somatosensory evoked responses in the brain hemispheres of chick embryos.

The author explored the auditory projection in the brain hemispheres of 16- to 21-day-old chick embryos, using biaural stimulation, and the somatosensory projection, using electrical stimulation of the contralateral sciatic nerve. The first auditory evoked responses appeared on the surface of the hemisphere at the beginning of the 18th day of incubation and were localized in its mediolateral part. Up to hatching, the latent period of the surface response shortened from 76.3 msec to 28.9 msec and its amplitude augmented from 10.6 muV to 36.2 muV. If the electrode was plunged into the tissue, the evoked responses with the optimum latent period and amplitude parameters were recorded at a depth of 2-2.5 mm (latent period 20.2 msec, amplitude 40-45 muV). The maximum surface somatosensory responses were found in the medial occipital quadrant of the contralateral hemisphere. They developed from the second half of the 17th day of incubation. Up to the end of incubation the mean latent period shortened from 58.3 msec to 21.6 msec and the mean amplitude increased from 11.8 muV to 28.7 muV. What was at first a simple negative wave developed into a positive-negative complex by the end of incubation. Evoked responses at a depth of about 3.5 mm from the surface of the hemisphere had the optimum parameters (latent period 18.4 msec, amplitude 30.2 muV).     

Histochemistry of mucosubstances in the gallbladder epithelium of the chick embryo

Summary Mucosubstances of epithelial cells of the chick embryo gallbladder were investigated by histochemical methods from days 12–21 of incubation (stages 38–46). On incubation day 14, only neutral mucins were detected; on day 15, neutral and sulfated mucosubstances were observed in the epithelial cells that invaginate the underlying mesenchyme. In the same sites, at day 16 of incubation, neutral, carboxylated and sulfated mucins were seen. From the 17th day of incubation until hatching, neutral, carboxylated and sulfated mucosubstances were present in the surface cells and in the cells lining the epithelial invaginations. During this period, the chemical characteristics of the secretory material are similar to those observed by Yamada and Hoshino (1972) in the fowl.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

扬子鳄胚胎中脑视叶的组织发生

观察了16例不同时间扬子鳄胚胎中脑视叶的组织发生过程。胚胎孵育第6d,三个脑泡明显;孵育第9～10d,中脑泡可分细胞层和边缘层或纤维层,中脑水管未形成;孵育第18d,视叶隆起于中脑背侧,中脑水管形成,视叶分三层;孵育第24d,视叶分5层;孵育第34d,视叶分化为6层;孵育第51d,视叶分化为8层,与初生扬子鳄中脑视叶分层相同。     

Some basic chemical components of the cerebrospinal fluid in developing chick embryos.

The development of the chloride ion, glucose and total protein concentration was investigated in the cerebrospinal fluid of 11- to 21-day-old chick embryos and compared with their development in the blood plasma. Developmental changes in the chloride concentration in the plasma and CSF were very small, but it was always higher in the CSF than in the plasma. The plasma/CSF ratio fell during development, from 0.906 in 11-day-old embryos to 0.778 at the end of incubation. The CSF glucose concentration fell up to the 19th day of incubation, but a significant increase was recorded shortly before hatching. The plasma glucose concentration rose throughout the whole of the investigated period of embryogenesis. Up to the 19th day the P/CSF ratio rose from 1.59 to 4.05 and in 21-day-old embryos fell to 2.47. The developmental increase in the plasma total protein concentration was accompanied by the reverse process in the CSF. During the second half of incubation the P/CSF ratio rose from 1.88 to 7.9 Calculation of total osmolarity from the Na+, K+, Ca2+, Cl- and glucose concentration showed permanent hyperosmolarity of the CSF compared with the plasma. The P/CSF ratio was maintained within limits of 0.94 to 0.98.     

Choline acetyl transferase activity in chick embryo neuroretinas during development in ovo and in monolayer cultures

The specific activity of the enzyme choline acetyl transferase (CAT) in chick neuroretinas was investigated during in ovo development and in monolayer cultures. The enzyme activity was barely detectable on the 6th day of incubation but increased markedly between the 7th and 11th days. The activity increased sharply between the 15th and 17th days and then slowly until hatching. When cell suspensions from 6- to 7-day neuroretinas were cultured as monolayers, CAT specific activity increased rapidly. After 4–5 days in culture, the activity of the enzyme was identical to that found in the neuroretina on the 11th day of incubation. Cells from 9-day neuroretinas also differentiate in monolayer cultures, but with a more irregular pattern. These data show that cholinergic neurons from chick embryo neuroretina differentiate in monolayer cultures without a lag and at the same rate as in vivo.     

Mechanisms in the development of retinotectal projections in the chick embryo studied by surgical deflection of the retinal pathway

Retinotopic analysis of the pathways of normal and aberrant retinal axons within the tectum of developing chick embryos was performed by selective labeling of retinal axons with a fluorescent dye, rhodamine-B isothiocyanate. To produce aberrant retinal axons, the presumptive optic chiasma was surgically disorganized at the 3rd day of incubation. At the 11th and 13th days of incubation, more than half of the operated embryos exhibited several aberrant retinal axons which reached ectopic parts of the tectum. The pathways of these aberrant axons within the tectum depended on the position of their initial invasion into the tectum at the diencephalotectal junction, and not on their position of origin within the retina. The aberrant retinal axons did not show any sign of correction of their pathways toward their normal sites of innervation within the tectum. As development proceeded, elimination of the aberrant retinal axons occurred. By the 16th day of incubation, almost all operated embryos lacked aberrant retinal axons and although the total number of axons often appeared reduced, a nearly normal topography of retinotectal projections was established. These findings indicate that the initial invasion of the retinal axons into the tectum is conducted predominantly by nonspecific mechanisms and, thereafter, a selective maintenance of appropriate retinal axons occurs.     

Histochemistry of mucosubstances in the gallbladder epithelium of the chick embryo

Mucosubstances of epithelial cells of the chick embryo gallbladder were investigated by histochemical methods from days 12-21 of incubation (stages 38-46). On incubation day 14, only neutral mucins were detected; on day 15, neutral and sulfated mucosubstances were observed in the epithelial cells that invaginate the underlying mesenchyme. In the same sites, at day 16 of incubation, neutral, carboxylated and sulfated mucins were seen. From the 17th day of incubation until hatching, neutral, carboxylated and sulfated mucosubstances were present in the surface cells and in the cells lining the epithelial invaginations. During this period, the chemical characteristics of the secretory material are similar to those observed by Yamada and Hoshino (1972) in the fowl.