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What carries fetal blood to the placenta?
The umbilical vein carries oxygenated blood from the fetus to the placenta for nutrient and oxygen exchange.
How the structure of the placenta is related to its function?
The structure of the placenta is related to its functions because its functions is to support the embryo/foetus in ways such as providing it with nourishment, and oxygen which explains the relevance of the placenta to its function of supporting the growing individual.
What is the organ where substances pass through the mother's blood and the fetus's blood?
The organ where substances pass between the mother's blood and the fetus's blood is the placenta. It facilitates the exchange of nutrients, gases, and waste products while keeping the two blood supplies separate. This vital structure also produces hormones that support pregnancy and fetal development. The placenta acts as a barrier to certain substances, helping to protect the fetus.
What structure carries oxygen rich blood away from the heart?
Arteries always carry blood from the heart. In this case, the artery is the aorta.
The vessel that carries blood between arterioles and small vessels called venules?
The vessel that carries blood between arterioles and small vessels is called capillaries. Capillaries are the smallest blood vessels in the body where the exchange of nutrients, oxygen, and waste products occurs between the blood and tissues.
What carries fetal blood to the placenta?
The umbilical vein carries oxygenated blood from the fetus to the placenta for nutrient and oxygen exchange.
What carries oxygen away from the placenta?
The umbilical vein carries oxygenated blood away from the placenta and delivers it to the fetus. Oxygenated blood is essential for the baby's growth and development during pregnancy.
Does an umbilical artery carry oxygen?
No, Umbilical arteries take deoxygenated blood from the fetus to the placenta, it is the umbilical vein carries the oxygenated blood from the placenta to the futus.
Is the tube that carries blood oxygen and nutrients from the placenta to the developing child.?
umbilical cord
How the structure of the placenta is related to its function?
The structure of the placenta is related to its functions because its functions is to support the embryo/foetus in ways such as providing it with nourishment, and oxygen which explains the relevance of the placenta to its function of supporting the growing individual.
Where does the exchange of respiratory gases take place between a mother's blood and the blood of her fetus?
Placenta
How does the structure of the placenta prevent the mothers blood from mixing with the blood of the developing embryo?
The structure of the placenta includes fetal capillaries and maternal blood spaces separated by a thin membrane. This membrane allows for the exchange of nutrients and wastes between the mother and the developing embryo without their blood mixing. The exchange occurs through diffusion and active transport mechanisms.
desscribe the structure of the placenta on how it helps it to carry its function?
The placenta is an essential part of pregnancy, serving as a vital connection between mother and baby. It is a complex organ that forms during early pregnancy and is responsible for supplying nutrients and oxygen to the growing fetus, as well as removing waste products from the developing baby's bloodstream. In this blog post, we will discuss the structure of the placenta and how it helps to carry out its crucial functions. The placenta is an organ that develops in the uterus during pregnancy and is attached to the wall of the uterus. The placenta is made up of two parts: the maternal placenta and the fetal placenta. The maternal placenta is composed of the lining of the uterus, while the fetal placenta is made up of the developing baby's tissues. The two parts of the placenta are connected by blood vessels that allow for the exchange of nutrients and waste products between the mother and baby. The structure of the placenta is complex and well-adapted to its function. It has a rich blood supply made up of two sets of blood vessels, the umbilical arteries and veins. The umbilical arteries carry deoxygenated blood from the fetus to the placenta, while the umbilical vein carries oxygenated blood back to the fetus. The placenta also contains a network of small blood vessels called villi. These villi are finger-like projections that extend from the fetal side of the placenta into the maternal blood supply. The villi help to increase the surface area of the placenta, allowing for more efficient exchange of nutrients and waste products. The placenta is also covered in a thin membrane called the chorion. The chorion is the outermost fetal membrane and plays an important role in the development of the placenta. It helps to keep the fetus safe from harmful substances and infections while allowing for the exchange of nutrients and waste products. The placenta is a highly specialized organ that is essential for the healthy development of the fetus. Its unique structure allows for the efficient exchange of nutrients and waste products between mother and baby. The placenta also serves as a protective barrier, keeping harmful substances and infections from reaching the developing fetus. The placenta is a crucial organ that plays an important role during pregnancy. Its complex structure and specialized functions ensure the healthy development of the fetus. Understanding the structure of the placenta can help us appreciate the complexity of human development and the incredible abilities of the human body.
What is the structure that connects the circulation of the fetus and the mother but blocks the passage of blood cells?
The placenta
What is the thick structure of blood vessels and tissues that grows and supports the amniotic sac?
placenta
A structure in the leg of a human is found to carry oxygen-rich red blood cells. What else is most likely true about this structure?
It carries blood toward the heart.
What is most likely true about a structure that carries oxygen poor blood in the arm?
it carries blood toward the heart >apex<
