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Placenta - What Is It and How It Works

Placenta Definition

The placenta is an organ which is responsible for nourishing and protecting a fetus during pregnancy. It is unique in that it is a temporary organ; it grows alongside the fetus during pregnancy, and then is expelled along with the fetus at birth. The placenta is also sometimes called “afterbirth,” as it is expelled through the vagina after the fetus has been delivered.

The placenta performs myriad functions to support fetal development, including facilitating blood flow, gas exchange, waste elimination, and serving as a protective barrier for the fetus against any infections the mother experiences during pregnancy.

The placenta is unique in that it is an organ which arises from the tissue of two genetically distinct organisms; part of the placenta develops from the tissue of the mother’s uterine wall, while another part develops from the fetus’ own tissue. After the blastocyst which will develop into the fetus makes contact with the uterine wall, blastocyst and maternal tissue grow together to form a single, cooperating organ that links the two together.

Mammals who give birth to live, fully-developed young, rather than laying eggs or carrying underdeveloped offspring in pouches, are often called “placental mammals.” The evolution of the placenta is one of the primary characteristics shared by all mammals except for marsupials and egg-laying mammals such as the platypus.

Some marsupials – close cousins to placental mammals like cats, dogs, and humans – have a primitive placenta in which blood vessels grow throughout the protective membranes surrounding the embryo. It is possible that placentas as we know them may have evolved from similar primitive structures in found the common ancestor of marsupials and placental mammals.

Pregnancies in which the placenta does not develop properly typically miscarry. This can occur either because of problems with the development of maternal uterine tissue, or because of problems with development of the fetal placental tissue. Fetuses which suffer from chromosomal problems may not be able to form a proper placenta and may miscarry, most often in the first trimester.

Many animals and some human cultures make a practice of eating the placenta after it is delivered. Scientists are divided on whether this is a good idea for humans. Some say it may contain valuable nutrients and even hormonal components that can be of assistance to the mother after pregnancy; others say that this practice may carry a risk of spreading infectious diseases, and that no benefits to eating the placenta have been proven in humans.

Function of Placenta

The placenta acts as a lifeline between the mother and fetus, ensuring that the fetus gets what it needs from the mother’s body to survive. At the same time, it acts as a protective barrier, shielding the fetus from some maternal infections. The functions of the placenta include:

• Allows gas exchange so the fetus gets enough oxygen
• Helps the fetus get sufficient nutrition
• Helps regulate the fetus’ body temperature
• Removes waste from the fetus for processing by the mother’s body
• Filters out some microbes that could cause infection
• Transfers antibodies from the mother to the fetus, conferring some immune protection
• Produces hormones that keep the mother’s body primed to support pregnancy

The placenta, then, essentially serves the function of several organ systems for the fetus, since the fetus is unable to eat, breathe, or eliminate waste itself while it is inside the womb!

Unfortunately, the placenta is not fool-proof as an infection barrier, and some fetuses do become infected with diseases contracted by their mother. Toxins of sufficiently small molecular size can also pass through.

That’s one reason why pregnant women are advised to avoid all possible sources of disease and toxins – diseases and toxins which may not be dangerous at all to adult women may be devastating to a developing fetus.

How Does the Placenta Work

When it is delivered, the placenta looks like a flat, round organ that is suffused with thick blood vessels. The fetus’ umbilical cord attaches to one flat surface, while the reverse surface grows out of the mother’s uterus during pregnancy.

The placenta works mainly by allowing substances to be exchanged between maternal and fetal blood. This allows the fetus to obtain nutrients, oxygen, antibodies, and other vital substances without having to share the mother’s blood supply directly.

This is vital because fetuses do not always have the same blood type as their mother, and direct mixing of the bloodstreams could cause the mother’s immune system to attack the fetal blood supply. Even with the placenta separating the two, problems are occasionally caused by maternal antibodies attacking fetal blood supplies. Some women receive vaccines or other treatments to stop that form happening.

The diagram below shows how the fetal blood vessels infiltrate the placenta. It also shows how the mother’s arteries permeate the placenta. The placental tissue in between the two acts as a sort of filtration system, preventing most cells from passing through the barrier while allowing substances such as nutrients, antibodies, and gases to do so:

Eating the Placenta

In recent years, the topic of placenta-eating has been in the news a great deal. Many celebrities have contracted with companies that promise to turn their placentas into pills or food, and touted it as a move that has great health benefits. But many doctors have cautioned that there’s no evidence that placenta-eating confers real health benefits, and that eating your placenta may actually make your baby’s health worse.

In nature, animals often eat their placentas. There’s good reason for this: in nature food is often scarce, and the placenta is rich in protein, iron, and other nutrients that can be difficult to procure in the wild. That means that placenta-eating is often worth the risk for animal moms who just gave birth, and now need to provide nutritious milk for their young.

However, for humans, the risk of disease may outweigh any benefits of placenta-eating. Because the placenta serves as a filter to prevent harmful bacteria and viruses from reaching the baby, it can contain bacteria from infections the mother had during pregnancy.

Even if these pathogens aren’t harmful to the mother – some viruses and bacteria hardly bother adults – they can still be passed on to the newborn baby through breast milk, if the mother consumes an infected placenta. Cases have been recorded of babies becoming sick with bacterial infections which were later traced to their mother’s placenta supplements.

For that reason, many doctors counsel that the placenta is just like any other human tissue – it should not be eaten by humans, because doing so could spread disease.

Because the placenta does not qualify as a medication, health food and birthing companies that promise a “healthy experience” if you pay them to prepare your placenta are often not subject to the same regulations for safety and effectiveness as medications are.

In conclusion, just because some famous moms have done it doesn’t mean it’s a scientifically supported idea!

Quiz

1. Why are mammals such as dogs, cats, and humans called “placental mammals?”
A. Because the placenta is the evolutionary adaptation we all share, while monotremes, marsupials, and non-mammals do not.
B. Because all placental mammals have placentas, while only some non-mammals have placentas.
C. Both of the above.

Answer to Question #1

A is correct. Only placental mammals have fully developed placentas, while non-mammals and older mammal lineages such as monotremes and marsupials do not.

2. Which of the following is true of the placental filtration system?
A. It is able to filter out all diseases and toxins, protecting the fetus.
B. It allows nutrients and oxygen to pass through, nourishing the fetus.
C. It is able to filter out some diseases and toxins, but not all of them.
D. Both B and C.

Answer to Question #2

D is correct. The placenta allows nutrients, oxygen, and other beneficial substances to pass from the mother to the fetus. It screens out some bacteria and toxins, but is unfortunately not able to screen out all of them. That’s why pregnant women are counseled to avoid potential sources of toxins and disease.

3. Which of the following is NOT true of placental anatomy?
A. It contains many blood vessels from both the mother and fetus.
B. It is composed of both maternal and fetal tissue.
C. It allows the mother’s blood to flow into the fetus, nourishing it.
D. None of the above.

Answer to Question #3

C is correct. The placenta separates the maternal and fetal blood supplies, to prevent the mother’s immune system from attacking fetal blood cells. However, it does allow some substances such as nutrients, gases, and antibodies to be exchanged.

References

• Slater, D. (2017, April 03). The Myth Of The Placental Barrier. Retrieved July 08, 2017, from https://www.fitpregnancy.com/pregnancy/pregnancy-health/myth-placental-barrier
• 10.2 Development of the placental villi. (n.d.). Retrieved July 08, 2017, from http://www.embryology.ch/anglais/fplacenta/villosite01.html
• Should I Eat My Placenta? (n.d.). Retrieved July 08, 2017, from http://www. webmd.com/baby/should-i-eat-my-placenta

10 amazing facts about the placenta

Home "News" 10 amazing facts about the placenta

10.10.2020

Liat Ben -Senior, MBA MSC

Placenta - this is a rescue circle between mother and her child, the organ in which the connection between them is first established. Scientists consider the placenta the least studied human organ, but one of the most important organs of the body. It affects the health of a woman and her baby during and even after pregnancy. In honor of the incredible properties of the placenta, we list 10 amazing facts about it. nine0003

Emma Jean Photography

1. Small but powerful - the parachute-shaped placenta is a highly specialized organ that helps support your baby's development. The middle placenta is 23 cm across, about 3 cm thick and usually weighs 500-600 grams. The blood of mother and baby passes through the placenta but never mixes. At term, about 500 ml of mother's blood passes through the placenta every minute. This alone is amazing (and also explains why pregnancy is so exhausting). nine0022
   
2. One organ, many functions - Your developing baby does not eat or breathe and relies solely on its mother for nutrients and oxygen. The placenta acts like a baby's lungs, supplying oxygen and removing carbon dioxide. It also acts like a baby's kidneys, filtering waste products from the bloodstream.


3. The placenta is not a maternal organ - In fact, the placenta develops from a fertilized egg, which means that, like a child, it is genetically half from mom and half from dad. The placenta begins to form as soon as a fertilized egg implants in the uterine wall, about 6-7 days after conception, and continues to grow with your baby to meet her growing needs. nine0022
   
4. The placenta is also a gland - The placenta acts like a gland, releasing hormones during pregnancy that are important in supporting your growing baby and preparing your body for motherhood.


5. The placenta is an immune mediator - The placenta helps the mother's and baby's immune systems to talk to each other without fighting. During pregnancy, the placenta prevents the mother's body from perceiving the child as foreign and from attacking it. During the 3rd trimester, the placenta allows mom's antibodies to pass to the baby, giving your baby a booster immune system, and this protection lasts up to 6 months after birth. nine0022
   
6. Identical twins can share a placenta - Fraternal twins develop from two separate fertilized eggs and will always have two placentas. But the number of placentas in identical twins is determined by whether the fertilized egg splits before or after the formation of the placenta.


7. Your baby's stem cells are coming to you - baby's stem cells can cross the placenta and seem to target areas where the mother has been damaged. Even years later, small amounts of cells from previous pregnancies can be found in the mother's skin, organs, and bone marrow. This phenomenon is called "microchimerism of the fetus and mother." nine0022
   
8. The only disposable organ - the placenta will re-develop with each pregnancy to support your baby's growth. After completing its mission, the placenta comes out after the baby is born, which is why it is called the "afterbirth".


9. The placenta prepares your body for breastfeeding - The placenta produces a hormone that inhibits the production of breast milk. After the placenta is delivered, the mother's body receives a signal that it is time to produce milk. nine0022
   
10. The placenta can help us fight cancer - The placenta has the unique ability to grow and enter the mother's body without being attacked by the immune system. This ability to evade the immune system is highly regulated, and the placenta knows how to stop intrusion before harming the mother. The researchers hope that a better understanding of how the placenta works will help us fight cancers that elude the immune system.

The placenta is not only a wonderful organ during pregnancy, but for life. If you choose to donate or save placental stem cells, they will not be disposed of as biological waste.

Liat Ben-Senior holds an MBA and MSc in Human Genetics from the Sackler School of Medicine of Tel-Aviv University, Israel. She has over 15 years of experience in Marketing and Digital Marketing in the field of Biotech and Life Sciences. Her scientific background includes immunology and molecular biology research, both in academia as well as industry. Her management background includes business development and commercialization of early stage medical devices, cellular, and small molecule therapies. For over a decade, Liat worked with CReATe Cord Blood Bank as Business Manager. At CReATe, Liat focused on educating expectant parents and health care professionals about the cord blood banking options available in the Canadian market. Starting in 2020, Liat is the Marketing Manager at Anova Fertility & Reproductive Health. Liat strongly believes in empowering expectant parents so they can make an informed decision. nine0003

Maternity hospital №7, Novosibirsk - What is the placenta?

Anna Valentinovna Yakimova, obstetrician-gynecologist, MD talks about the placenta and placental insufficiency.

Picture from the site http://s7ya7.zdorovo-zivi.ru

Placenta. The name of the organ comes from lat. placenta - cake, cake, pancake. This is an extra-embryonic organ, consisting of villi, thanks to which the fetus is nourished, respired, and waste products are removed from its blood. There are free and fixing (anchor) villi. The placenta is formed in the place where the embryo was implanted, arises as a result of the connection of the chorion - extraembryonic tissue with a thickened uterine mucosa (decidual tissue). Despite the fact that the blood of the mother and fetus does not mix, as they are separated by the placental barrier, the fetus receives all the necessary nutrients and oxygen from the mother's blood. In addition, the placenta produces hormones that ensure the preservation of pregnancy. The placenta has two surfaces. The surface that faces the fetus is called the fetal. It is covered with a smooth shell - the amnion, through which large vessels shine through. The one that is attached to the wall of the uterus is called maternal. nine0003

The main structural unit of the placenta is cotelidone. Cotyledon of the placenta is conditionally comparable to a tree. Each cotyledon is formed by a stem villus, from which, like branches of a tree, villi of the second and third order extend, containing vessels. The central part of the cotyledon forms a cavity, which is surrounded by many villi. Between the cotyledons there is a space - mejvirus, which on the maternal side is limited by partitions (septa) extending from the mucous membrane of the uterus. Most of the placental villi are freely immersed in the intervillous space (free villi) and are bathed in maternal blood. The spiral arteries, which are small branches of the arteries that supply the uterus, open into the intervillous space and supply oxygen-rich blood to the intervillous space. Due to the pressure difference, which is higher in the mother's arterial bed compared to the intervillous space, oxygenated blood from the mouths of the spiral arteries is directed through the center of the cotyledon to the villi, washes them, reaches the chorionic plate and returns to the maternal circulation through the venous orifices through the separating septa. . In this case, the blood flow of the mother and fetus are separated from each other. Those. maternal and fetal blood does not mix. Thus, the concept of the placental barrier appears: the blood of the mother of the fetus does not mix, because they are separated by the wall of the villus, loose connective tissue inside the villus and the wall of the vessel that is inside the villus, and in which the blood of the fetus circulates. nine0003

At the end of pregnancy, the placenta is a soft disk 15-18 cm in diameter, 2-4 cm thick in the central part, weighing about 500-600 g. their capillaries - 12 m2. The placenta, membranes, and umbilical cord together form the afterbirth, which is expelled from the uterus after the baby is born.

Normally, the placenta is attached to the uterine cavity on its anterior or posterior surface, sometimes in the fundus. If the placenta is attached in the lower part of the uterine cavity, close to the internal opening of the cervix - the internal pharynx, then its blood supply is often insufficient and the fetus may suffer from lack of oxygen and nutrients - a phenomenon called placental insufficiency occurs. nine0003

Placental insufficiency is a violation of all or some of the functions of the placenta, ultimately leading to oxygen starvation (hypoxia), fetal growth retardation or death and / or early termination of pregnancy.

Placental insufficiency may occur early in pregnancy due to impaired placental formation, for example, if the spiral arteries that supply blood to the villi do not lose the ability to narrow their lumen in response to exposure to vasoconstrictor substances. It is possible that there is a violation of the development of blood vessels inside the villi, the vessels can form in the central part of the villus, and not close to its wall, then the transfer of nutrients from the mother's blood to the fetal blood and the flow of metabolic products back will be difficult. The process of development of the placenta (in particular, vascular formation) occurs to a greater extent in the first and second trimesters of pregnancy, ending at about 30-32 weeks. After this period, involutive processes predominate ("aging", immuring the villi with fibrinoid). Along with the processes of involution in the placenta during pregnancy, young villi develop, more often avascular, which, however, only partially compensate for the function of mature villi containing vessels that have “fallen out” of the circulation. nine0003

In another scenario, placental insufficiency occurs at a later date, as a result of damage to the placenta in inflammatory processes, diabetes in a pregnant woman, or high blood pressure, when blood flow to the uterus is disturbed, which can also occur with increased maternal blood clotting . It is believed that it is the violation of the uteroplacental circulation that plays the main role in the formation of the intrauterine growth retardation syndrome. Before the advent of Doppler ultrasound research methods in obstetric practice, there were no non-invasive methods for studying blood flow in the mother-placenta-fetus system. To date, Doppler is the most preferred instrumental method that provides useful information in relation to the detection of blood flow disorders and the determination of pregnancy management tactics for placental insufficiency. If there are symptoms of placental insufficiency - a mismatch in the height of the uterine fundus, signs of a threat of early termination of pregnancy, rapid or slow fetal heart rate (normal: 120-160 beats per minute), an altered amount of amniotic fluid - it is necessary to conduct an ultrasound examination, Doppler blood flow in the vessels of the uterus, umbilical cord and fetus, and in the third trimester - cardiotocography. The earliest sign of placental dysfunction is a decrease in its production of hormones and proteins, therefore, in pregnant women with a known risk of placental dysfunction (for example, if she has a chronic inflammatory process or often / constantly increased blood pressure, etc. ), you can examine the level placental lactogen, progesterone, unconjugated estriol in the blood. And on the basis of the data obtained, predict the further development of pregnancy and take preventive measures. nine0003

Can placental insufficiency be treated? The answer to this question is ambiguous. It is possible to influence the development of the placenta when it is incomplete, improving the conditions for development - by eliminating, for example, the inflammatory process, normalizing blood pressure, lowering the tone of the uterus, and normalizing blood clotting. You can influence the metabolism in the cells of the placenta - by doing this, for example, by introducing drugs into the body of a pregnant woman that help improve the utilization of glucose by cells. It is possible to influence the tone of the vessels, reduce the permeability of the wall and, in this way, the swelling of the tissues decreases and the penetration of oxygen into them improves. But we must understand that we do not cure placental insufficiency, we are only trying to influence the compensatory mechanisms that exist in the placenta, if this succeeds, the manifestations of placental insufficiency disappear.

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