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The Embryonic Development of the Equine Heart* 总被引:2,自引:0,他引:2
Equine cardiogenesis was studied in embryos of approximately 21 to 49 days of gestation, with particular attention to the partitioning of the ventricular outflow channel. Timing of several morphogenetic events associated with this partitioning was recorded in Table 1. Present investigation indicated that partitioning of the ventricular outflow channel into the pulmonary trunk and aorta was already completed at about 36th to 38th day of gestation. Results of this study may aid in better understanding of the congenital malformations, especially those associated with great vessels of the equine heart. 相似文献
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The blood supply to the equine pituitary gland, with special attention to its portal system, was studied by the aid of vascular injections and histological serial sections. The primary capillary plexus of the median eminence was supplied by the rostroventral and rostrodorsal infundibular arteries, which were branches of the internal carotid arteries and the ramus communicans caudalis, respectively. The neural lobe was supplied by the caudal infundibular arteries, which originated from the arteria intercarotica caudalis. Dorsal and ventral groups of the portal vessels were described. Their regional distribution into the sinusoidal capillaries of the pars distalis was discussed. Results of this investigation indicated that the portal vessels were the sole supply to the equine pars distalis. No direct arterial supply to this part of the adenohypophysis was observed. 相似文献
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Elina Didrihsone Konstantins Dubencovs Mara Grube Karlis Shvirksts Anastasija Suleiko Arturs Suleiko Juris Vanags 《Marine drugs》2022,20(1)
Crypthecodinium cohnii is a marine heterotrophic dinoflagellate that can accumulate high amounts of omega-3 polyunsaturated fatty acids (PUFAs), and thus has the potential to replace conventional PUFAs production with eco-friendlier technology. So far, C. cohnii cultivation has been mainly carried out with the use of yeast extract (YE) as a nitrogen source. In the present study, alternative carbon and nitrogen sources were studied: the extraction ethanol (EE), remaining after lipid extraction, as a carbon source, and dinoflagellate extract (DE) from recycled algae biomass C. cohnii as a source of carbon, nitrogen, and vitamins. In mediums with glucose and DE, the highest specific biomass growth rate reached a maximum of 1.012 h−1, while the biomass yield from substrate reached 0.601 g·g−1. EE as the carbon source, in comparison to pure ethanol, showed good results in terms of stimulating the biomass growth rate (an 18.5% increase in specific biomass growth rate was observed). DE supplement to the EE-based mediums promoted both the biomass growth (the specific growth rate reached 0.701 h−1) and yield from the substrate (0.234 g·g−1). The FTIR spectroscopy data showed that mediums supplemented with EE or DE promoted the accumulation of PUFAs/docosahexaenoic acid (DHA), when compared to mediums containing glucose and commercial YE. 相似文献
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The equine dorsal sinus system of the dura mater develops from the dural venous plexuses. In early development, venous blood from these plexuses is drained into the primary head vein, which together with the stem of the caudal dural plexus joins the primitive internal jugular vein. After involution of the primary head vein new channels, the transverse and sigmoid sinuses, develop which empty into the internal jugular vein. The temporal sinus develops secondarily and coexists with the sigmoid sinus. After regression of the sigmoid sinus and internal jugular vein, the temporal sinus represents the sole channel in the equine fetuses, by which venous blood from the brain is drained through the emissary vein of the retroarticular foramen into the external jugular system. 相似文献
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The development of the venous drainage from the equine hypophysis cerebri was investigated in embryos and fetuses ca. 22nd to 270th day of gestation. The early venous drainage was represented by the right and left retrohypophysial veins which were tributaries of the primary head veins. In later development an anastomosis was formed between the contralateral retrohypophysial veins. This anastomosis was named the retrohypophysial sinus which was identical with the caudal intercavernous sinus of the postnatal animals. The development of the rostral intercavernous sinus was not observed. The right and left cavernous sinuses developed secondarily from the retrohypophysial sinus. The venous drainage was directed rostrolaterad into the ophthalmic veins. In addition to the rostrolateral route, a caudoventral route, represented by the right and left ventral petrosal sinuses, developed from the retrohypophysial sinus relatively late in the fetal period. Both the rostrolateral and caudoventral routes joined eventually the external jugular system basically resembling postnatal conditions. 相似文献
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