Examples of chorionic membrane in the following topics:
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- It is located between Heuser's membrane and the trophoblast.
- The extra-embryonic coelom (or chorionic cavity) is a portion of the conceptus consisting of a cavity between Heuser's membrane and the trophoblast.
- The extra-embryonic coelomic cavity is also called the chorionic cavity—it is enclosed by the chorionic plate.
- The chorion is one of the membranes that exist during pregnancy between the developing fetus and the mother.
- It consists of an extra-embryonic mesoderm and two layers of trophoblast and surrounds the embryo and other membranes.
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- However, the eggs of amniotes contain three additional extra-embryonic membranes: the chorion, amnion, and allantois.
- While the inner amniotic membrane surrounds the embryo itself, the chorion surrounds the embryo and yolk sac.
- The chorion facilitates exchange of oxygen and carbon dioxide between the embryo and the egg's external environment.
- In mammals, membranes that are homologous to the extra-embryonic membranes in eggs are present in the placenta.
- The key features of an amniotic egg are the chorion, amnion, and allantois.
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- Rudimentary blood begins to move through the main embryonic blood vessels, connecting to the yolk sac and the chorionic membrane of the placenta.
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- They will eventually form the placenta and embryonic membranes.
- The chorion undergoes rapid proliferation and forms numerous processes.
- The chorionic villi, which invade and destroy the uterine decidua and at the same time absorb from it nutritive materials for the growth of the embryo.
- Until about the end of the second month of pregnancy the villi cover the entire chorion, and are almost uniform in size, but after this they develop unequally.
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- In the placenta, chorionic villi develop to maximize surface-area contact with the maternal blood for nutrient and gas exchange.
- Chorionic villi sprout from the chorion after their rapid proliferation in order to give a maximum area of contact with the maternal blood.
- During the primary stage (the end of fourth week), the chorionic villi are small, nonvascular, and contain only the trophoblast.
- Chorionic villi are vital in pregnancy from a histomorphologic perspective and are, by definition, products of conception.
- Image illustrating the placenta and chorionic villi.
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- It is situated between the amnion and the chorion and may lie on or at a varying distance from the placenta.
- In the meantime Heuser's membrane, located on the opposite pole of the developing vesicle, starts its upward proliferation and meets the hypoblast.
- The yolk sac is a membranous sac attached to the embryo that provides nourishment in the form of yolk.
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- The syncytiotrophoblast then implants the blastocyst into the endometrium of the uterus by forming finger-like projections into the uterine wall called chorionic villi.
- The chorionic villi grow outwards until they come into contact with the maternal blood supply.
- The creation of chorionic villi is assisted by hydrolytic enzymes that erode the uterine epithelium.
- Human chorionic gonadotropin is the hormone that is detected by pregnancy tests, as it is found in the maternal bloodstream and urine.
- During implantation, extensions of the trophoblast, the syncytiotrophoblasts, embed within the endometrium and form chorionic villi.
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- Respiratory problems are common, specifically the respiratory distress syndrome (RDS or IRDS), which was previously called hyaline membrane disease.
- The presence of this glycoprotein in the cervical or vaginal secretions indicates that the border between the chorion and deciduas has been disrupted.
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- ., human chorionic gonadotropin (hCG).
- The first of these markers to be discovered, human chorionic gonadotropin (hCG), is produced by the trophoblast cells of the fertilized ovum (blastocyst).
- Most chemical tests for pregnancy look for the presence of the beta subunit of hCG or human chorionic gonadotropin in the blood or urine. hCG can be detected in urine or blood after implantation, which occurs six to 12 days after fertilization.
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- Outside the amniotic ectoderm is a thin layer of mesoderm (continuous with that of the somatopleure), which is connected by the body stalk with the mesodermal lining of the chorion.
- This fluid increases in quantity, causing the amnion to expand and ultimately to adhere to the inner surface of the chorion so that the extra-embryonic part of the coelom is obliterated.