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The '''placenta''' is an ephemeral (temporary) organ present in [[female]] [[Placentalia|placental]] [[vertebrates]] during [[gestation]] ([[pregnancy]]), but a placenta has evolved independently also in other animals as well, for instance scorpions and velvet worms.
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{{BioPsy}}
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{{PsyPerspective}}
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{{Infobox Embryology |
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Name = Placenta |
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Latin = |
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GraySubject = |
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GrayPage = |
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Image = Placenta.jpg |
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Caption = Placenta |
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Image2 = |
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Caption2 = |
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System = |
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CarnegieStage = |
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Days = |
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Precursor = [[decidua basalis]], [[chorion frondosum]] |
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GivesRiseTo = |
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MeshName = |
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MeshNumber = |
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DorlandsPre = p_22 |
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DorlandsSuf = 12643330 |
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}}
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The placenta is an [[ephemeral]] [[organ (anatomy)|organ]] present in [[Placentalia|placental]] [[vertebrates]]. The term '''placenta''' comes from the Latin for ''cake'', from [[Greek language|Greek]] ''plakoenta'', accusative of ''plakoeis'' - ''πλακοείς'', "flat"<ref>[http://www.perseus.tufts.edu/cgi-bin/ptext?doc=Perseus%3Atext%3A1999.04.0057%3Aentry%3D%2383445 Henry George Liddell, Robert Scott, "A Greek-English Lexicon", at Perseus]</ref><ref>[http://www.etymonline.com/index.php?search=placenta&searchmode=none Online Etymology Dictionary]</ref>, referring to its appearance in humans. [[Protheria]]l (egg-laying) and [[metatheria]]l (marsupial) mammals do not produce a placenta (false, marsupials have a choriovitelline placenta)
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The placenta develops from the same sperm and egg cells that form the fetus, and functions as a foetomaternal organ with two components, the foetal part (Chorion frondosum), and the maternal part (Decidua basalis).
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==Structure==
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In humans, the placenta averages 22 cm (9 in.) in length and 2-2.5 cm (0.8-1 in.) in thickness. It typically weighs approximately 500 grams (1 lb). It has a dark reddish/blue or maroon color. It connects to the fetus by an [[umbilical cord]] of approximately 55-60 cm (22-24 in.) in length that contains two arteries and one vein.<ref>[http://www.aafp.org/afp/980301ap/yetter.html Examination of the placenta]</ref> The umbilical cord inserts into the chorionic plate. Vessels branch out over the surface of the placenta and further divide to form a network covered by a thin layer of cells. This results in the formation of villous tree structures. On the maternal side, these villous tree structures are grouped into lobules called cotelydons. In humans the placenta usually has a disc shape but different mammalian species have widely varying shapes.<ref>http://www.vivo.colostate.edu/hbooks/pathphys/reprod/placenta/structure.html Placental Structure and Classification</ref>
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==Development==
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The placenta begins to develop upon implantation of the [[blastocyst]] into the maternal endometrium. The outer layer of the blastocyst becomes the trophoblast which forms the outer layer of the placenta. This outer layer is divided into two further layers; the underlying cytotrophoblast layer and the overlying syncytiotrophoblast layer. The syncytiotrophoblast is a multinucleate continuous cell layer which covers the surface of the placenta. It forms as a result of differentiation and fusion of the underlying cytotrophoblast cells, a process which continues throughout placental development. The syncytiotrophoblast (otherwise known as syncytium), thereby contributes to the barrier function of the placenta.
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The placenta grows throughout pregnancy. Development of the maternal blood supply to the placenta is suggested to be complete by the end of the first [[trimester]] of pregnancy (approximately 12-13 weeks).
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==Placental circulation==
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===Maternal placental circulation===
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In preparation for implantation, the uterine endometrium undergoes 'decidualisation'. Spiral arteries in the decidua are remodelled so that they become less convoluted and their diameter is increased. This increases maternal blood flow to the placenta and also decreases resistance so that shear stress is reduced. The relatively high pressure as the maternal blood enters the [[intervillous space]] through these spiral arteries bathes the [[villi]] in blood. An exchange of gases takes place. As the pressure decreases, the deoxygenated blood flows back through the endometrial veins.
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Maternal blood flow is approx 400 ml/min at term.
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===Fetoplacental circulation===
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Deoxygenated fetal blood passes through umbilical arteries to the placenta. At the junction of umbilical cord and placenta, the umbilical arteries branch radially to form chorionic arteries. Chorionic arteries also branch before they enter into the villi. In the villi, they form an extensive arteriocapillary venous system, bringing the fetal blood extremely close to the maternal blood; but no intermingling of fetal and maternal blood occurs ("placental barrier"<ref>[http://www.embryology.ch/anglais/fplacenta/circulplac01.html#placentaire Placental blood circulation<!-- Bot generated title -->]</ref>).
   
 
==Functions==
 
==Functions==
===Filtration and transfer===
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===Nutrition===
The placenta receives [[nutrients]], [[oxygen]], [[antibodies]] and [[hormones]] from the mother's [[blood]] and passes out waste. It forms a barrier, the placental barrier, which filters out some substances which could harm the fetus. Many substances are not filtered out, however, including [[alcohol]] and some chemicals associated with smoking [[cigarettes]]. Several types of [[virus|viruses]], such as Human [[Cytomegalovirus]], may also cross this barrier; this often leads to various degrees of birth defects in the infant.
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The perfusion of the intervillous spaces of the placenta with maternal blood allows the transfer of nutrients and oxygen from the mother to the fetus and the transfer of waste products and carbon dioxide back from the fetus to the mother.
   
 
===Metabolic and endocrine activity===
 
===Metabolic and endocrine activity===
In addition to the transfer of gases and nutrients, the placenta also has [[metabolic]] and [[Endocrine system|endocrine]] activity. It produces, amongst other [[hormones]], [[progesterone]], which is important in maintaining the pregnancy; [[somatomammotropin]] (also known as placental lactogen), which acts to increase the amount of glucose and lipids in the maternal blood; [[Estrogen|oestrogen]]; [[relaxin]], and human chorionic gonadotrophin [[HCG]]. This results in increased transfer of these nutrients to the fetus and is also the main cause of the increased blood sugar levels seen in pregnancy.
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In addition to the transfer of gases and nutrients, the placenta also has [[metabolic]] and [[Endocrine system|endocrine]] activity. It produces, among other [[hormones]], [[progesterone]], which is important in maintaining the pregnancy; [[somatomammotropin]] (also known as placental lactogen), which acts to increase the amount of glucose and lipids in the maternal blood; [[estrogen]]; [[relaxin]], and beta human chorionic gonadotrophin ([[human chorionic gonadotrophin|beta-hCG]]). This results in increased transfer of these nutrients to the fetus and is also the main cause of the increased blood sugar levels seen in pregnancy. This hormone (beta-hCG) ensures that progesterone and oestrogen are secreted; progesterone and oestrogen thicken and maintain the uterine lining as well as inhibit the production and release of more eggs. However after about 2 months the placenta takes on the role of producing progesterone and therefore beta-hCG is no longer needed. Beta-hCG is excreted in urine and this is what pregnancy tests detect. It also produces insulin-like growth factors (IGFs).
   
==After delivery==
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===Cloaking from immune system of mother===
When the fetus is delivered, the placenta is delivered afterwards (and for this reason is often called the '''afterbirth'''). After delivery of the placenta the umbilical cord is usually clamped and severed or may be left attached to fall off naturally which is referred to as a [[Lotus Birth]]. In most mammalian species, the mother bites through the cord and consumes the placenta, primarily for the benefit of [[prostaglandin]] on the uterus after birth. This is known as [[Placentophagy]]. The site of the former umbilical cord attachment in the center of the front of the [[abdomen]] is known as the [[umbilicus]], navel, or belly-button.
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To hide itself from attack by the mother's immune system, the placenta secretes [[Neurokinin B]] containing [[phosphocholine]] molecules. This is the same mechanism used by [[parasitic]] [[nematode]]s to avoid detection by the immune system of their [[host (biology)|host]].<ref>{{cite web|title=Placenta 'fools body's defences'|url=http://news.bbc.co.uk/1/hi/health/7081298.stm|date=2007-11-10|publisher=BBC News}}</ref>
   
<!-- dirty way to present two images in a floating thumbnail frame -->
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==Birth==
<div class="thumb tright">
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When the fetus is born, its placenta begins a physiological separation for spontaneous expulsion afterwards (and for this reason is also called the '''afterbirth'''). In humans, the [[umbilical cord]] is routinely clamped and severed prior to the delivery of the placenta, often within seconds or minutes of birth, a medical protocol known as 'active management of third stage' which has been called into question by advocates of natural birth and 'passive management of third stage'<ref>http:www.sarahjbuckley.com/articles/leaving-well-alone.htm</ref> The site of the former umbilical cord attachment in the center of the front of the [[abdomen]] is known as the [[umbilicus]], navel, or belly-button.
<div style="width:202px;">
 
[[Image:Human_placenta_baby_side.jpg|200px]]<br>
 
[[Image:Human_placenta_uterine_side.jpg|200px]]
 
<div class="thumbcaption">
 
''Top:'' Human placenta shown a few minutes after birth. The side shown faces the baby with the [[umbilical cord]] top right. The white fringe surrounding the bottom is the remnants of the [[amniotic sac]]. ''Bottom:'' A different placenta displays side that connects to the [[uterus|uterine]] wall..
 
</div>
 
</div>
 
</div>
 
   
== Species variation==
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Modern obstetric practice has decreased maternal death rates enormously. The addition of active management of the third stage of labor is a major contributor towards this. It involves giving [[oxytocin]] via IM injection, followed by cord traction to assist in delivering the placenta. Premature cord traction can pull the placenta before it has naturally detached from the uterine wall, resulting in hemorrhage. The [[British Medical Journal|BMJ]] summarized the Cochrane group metanalysis (2000) of the benefits of active third stage as follows:
All [[mammal]]s other than monotremes and (most) marsupials utilize placentas in reproduction, and are known as placental mammals. Also, some species of snakes utilize placentas.
 
   
The shape and exchanging surfaces of placental mammals varies according to species.
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<blockquote>
*[[Ruminants]] have cotyledonary placenta that is really many small placentas where the fetus' cotyledons interface with the dams' caruncle forming a placentome.
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"One systematic review found that active management of the third stage of labour, consisting of controlled cord traction, early cord clamping plus drainage, and a prophylactic oxytocic agent, reduced postpartum haemorrhage of 500 or 1000 mL or greater and related morbidities including mean blood loss, postpartum haemoglobin less than 9 g/dL, blood transfusion, need for supplemental iron postpartum, and length of third stage of labour. Although active management increased adverse effects such as nausea, vomiting, and headache, one RCT identified by the review found that women were less likely to be dissatisfied when their third stage of labour was actively managed."[http://clinicalevidence.bmj.com/ceweb/conditions/pac/1410/1410_I1.jsp]
*[[Carnivores]] have a zonary placenta.
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</blockquote>
*[[Odd-toed Ungulate|Perissodactyles]] have a micro-cotyledonary that grossly ressembles diffuse placentas.
 
*[[Primates]] have discoid placentas.
 
   
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Risks of retained placenta include hemorrhage and infection. If the placenta fails to deliver in 30 minutes in a hospital environment, manual extraction may be required if heavy ongoing bleeding occurs, and very rarely a [[curettage]] is necessary to ensure that no remnants of the placenta remain (in rare conditions with very adherent placenta (placenta accreta)). However, in birth centers and attended home birth environments, it is common for licensed care providers to wait for the placenta's birth up to 2 hours in some instances.
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===Non-humans===
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{{Expand|date=April 2008}}
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In most mammalian species, the mother bites through the cord and consumes the placenta, primarily for the benefit of [[prostaglandin]] on the uterus after birth. This is known as [[placentophagy]]. However, it has been observed in zoology that chimpanzees, with which humans share 99% of genetic material, apply themselves to nurturing their offspring, and keep the fetus, cord, and placenta intact until the cord dries and detaches the next day.
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[[Image:Human placenta both sides.jpg|200px|thumb|right|''Top:'' Human placenta shown a few minutes after birth. The side shown faces the baby with the [[umbilical cord]] top right. The white fringe surrounding the bottom is the remnants of the [[amniotic sac]]. ''Bottom:'' A different placenta displays side that connects to the [[uterus|uterine]] wall.]]
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The placena exists in most mammals and some reptiles. It is probably polyphyletic.
   
 
== Pathology ==
 
== Pathology ==
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See:
 
* [[Placenta accreta]]
 
* [[Placenta accreta]]
 
* [[Placenta praevia]]
 
* [[Placenta praevia]]
 
* [[Placental abruption]]
 
* [[Placental abruption]]
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== Cultural practices and beliefs ==
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The placenta often plays an important role in various human [[culture]]s, with many societies conducting rituals regarding its disposal. In the [[Western world]], the placenta is most often [[incinerate]]d.<ref name="bbc">{{cite news | url =http://news.bbc.co.uk/1/hi/magazine/4918290.stm | title = Why eat a placenta? | date = [[2006-04-18]] | work = BBC | accessdate = 2008-01-08 }}</ref>
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Some cultures [[Burial|bury]] the placenta for various reasons. The [[Māori]] of [[New Zealand]] traditionally bury the placenta from a newborn child to emphasize the relationship between humans and the earth.<ref>Metge, Joan. 2005. "Working in/Playing with three languages: English, Te Reo Maori, and Maori Bod Language." In ''Sites'' N.S vol. 2, No 2:83-90.</ref> Similarly, the [[Navajo]] bury the placenta and umbilical cord at a specially-chosen site,<ref>{{cite web | url = http://sciencecareers.sciencemag.org/career_development/previous_issues/articles/3360/bridging_the_cultural_divide_in_medicine/ | title = Bridging the Cultural Divide in Medicine | first = Edna | last = Francisco | date = [[2004-12-03]] | work = Minority Scientists Network | accessdate = 2008-01-07 }}</ref> particularly if the baby dies during birth.<ref>{{cite web | url = http://www.jstor.org/view/0095182x/ap040015/04a00080/0 | title = Changes in Navajo Mortuary Practices and Beliefs | first = Mary | last = Shepardson | work = American Indian Quarterly | publisher = University of Nebraska Press | year = 1978 | accessdate = 2008-01-07 }}</ref> In [[Cambodia]] and [[Costa Rica]], burial of the placenta is believed to protect and ensure the health of the baby and the mother.<ref name="mothering">{{cite web | url = http://www.mothering.com/articles/pregnancy_birth/birth_preparation/amazing_placenta_side.html | title = Placenta Rituals and Folklore from around the World | first = Sarah J. | last = Buckley | work = Mothering | accessdate = 2008-01-07 }}</ref> If a mother dies in childbirth, the [[Aymara]] of [[Bolivia]] bury the placenta in a secret place so that the mother's spirit will not return to claim her baby's life.<ref>{{cite web | url = http://www.jhu.edu/~jhumag/0605web/ruminate.html | title = The Love Offer | first = Ann | last = Davenport | work = Johns Hopkins Magazine | month = June | year = 2005 | accessdate = 2008-01-07 }}</ref>
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[[Image:Placenta ad in Hong Kong.jpg|200px|thumb|right|An ad in Hong Kong markets beauty products made with human placenta.]]
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The placenta is believed by some communities to have power over the lives of the baby or its parents. The [[Kwakiutl]] of [[British Columbia]] bury girls' placentas to give the girl skill in digging clams, and expose boys' placentas to [[raven]]s to encourage future [[prophet]]ic visions. In [[Turkey]], the proper disposal of the placenta and umbilical cord is believed to promote devoutness in the child later in life. In [[Ukraine]], [[Transylvania]], and [[Japan]], interaction with a disposed placenta is thought to influence the parents' future fertility. The [[ancient Egypt]]ians believed that the placenta was imbued with magical powers.<ref name="mothering"/> In fact, the placenta of the pharaoh was placed on a pole and carried into battle. This is history's first flag. <http://www.psychohistory.com/htm/eln04f_footnotestrauma.html>
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Several cultures believe the placenta to be or have been alive, often a relative of the baby. [[Nepal]]ese think of the placenta as a friend of the baby's; Malaysian [[Orang Asli]] regard it as the baby's older sibling. The [[Ibo]] of [[Nigeria]] consider the placenta the deceased twin of the baby, and conduct full funeral rites for it.<ref name="mothering"/> Native [[Hawaiian]]s believe that the placenta is a part of the baby, and traditionally plant it with a tree which can then grow alongside the child.<ref name="bbc"/>
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In some cultures, the placenta is eaten, a practice known as [[placentophagy]]. In some eastern cultures, such as [[China]] and [[Hong Kong]], the placenta is thought to be healthy and is used in medicine and various health products.<ref>{{cite web|url=http://www.gentlebirth.org/archives/eatplcnt.html|title=Medicinal Uses of the Placenta|last=Falcao|first=Ronnie |accessdate=2008-11-25}}</ref>
   
 
==Additional images==
 
==Additional images==
 
<gallery>
 
<gallery>
Image:Gray30.png|Fetus of about eight weeks, enclosed in the amnion. Magnified a little over two diameters.
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Image:Gray30.png|Fetus of about 8 weeks, enclosed in the amnion. Magnified a little over two diameters.
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Image:Cord & Placenta.jpg| Picture of freshly delivered placenta and umbillical cord wrapped around Kelly clamps
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Image:Human placenta.jpg| Fresh human placenta
 
</gallery>
 
</gallery>
   
{{cookbook|Placenta}}
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==See also==
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*[[Embryo]]
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*[[Partuition]]
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*[[Perinatal psychology]]
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*[[Uterus]]
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== References ==
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{{reflist}}
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  +
   
==References==
 
<references/>
 
* [http://www.bartleby.com/65/ma/marsupial.html marsupial at bartleby.com]
 
* [http://www.knowyoursto.com/marsupialia/marsupials.html About Marsupials at knowyoursto.com]
 
   
 
==External links==
 
==External links==
* {{BUHistology|19901loa}}
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{{Commonscat|Placenta}}
* {{IowaHistologyInteractive|161}}
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* Additional Human placenta photography [http://www.pattiramos.com/Placenta.html]
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* [http://www.bartleby.com/65/ma/marsupial.html ''Marsupial'' at Bartleby.com]
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* [http://www.knowyoursto.com/marsupialia/marsupials.html ''About Marsupials'' at KnowYourSTO.com]
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* [http://www.humpath.com/article.php3?id_article=2888 ''Fetus'' at humpath.com]
   
 
{{Embryology}}
 
{{Embryology}}
 
{{endocrine_system}}
 
{{endocrine_system}}
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[[Category:Developmental biology]]
 
[[Category:Developmental biology]]
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Latest revision as of 13:32, February 8, 2009

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Embryology: Placenta
Placenta
[[Image:|250px|center|]]
Latin '
Gray's subject #
System
Carnegie stage [1]
Days
Precursor decidua basalis, chorion frondosum
Gives rise to
MeSH [2]
Dorlands/Elsevier p_22/12643330

The placenta is an ephemeral organ present in placental vertebrates. The term placenta comes from the Latin for cake, from Greek plakoenta, accusative of plakoeis - πλακοείς, "flat"[1][2], referring to its appearance in humans. Protherial (egg-laying) and metatherial (marsupial) mammals do not produce a placenta (false, marsupials have a choriovitelline placenta) The placenta develops from the same sperm and egg cells that form the fetus, and functions as a foetomaternal organ with two components, the foetal part (Chorion frondosum), and the maternal part (Decidua basalis).

StructureEdit

In humans, the placenta averages 22 cm (9 in.) in length and 2-2.5 cm (0.8-1 in.) in thickness. It typically weighs approximately 500 grams (1 lb). It has a dark reddish/blue or maroon color. It connects to the fetus by an umbilical cord of approximately 55-60 cm (22-24 in.) in length that contains two arteries and one vein.[3] The umbilical cord inserts into the chorionic plate. Vessels branch out over the surface of the placenta and further divide to form a network covered by a thin layer of cells. This results in the formation of villous tree structures. On the maternal side, these villous tree structures are grouped into lobules called cotelydons. In humans the placenta usually has a disc shape but different mammalian species have widely varying shapes.[4]

DevelopmentEdit

The placenta begins to develop upon implantation of the blastocyst into the maternal endometrium. The outer layer of the blastocyst becomes the trophoblast which forms the outer layer of the placenta. This outer layer is divided into two further layers; the underlying cytotrophoblast layer and the overlying syncytiotrophoblast layer. The syncytiotrophoblast is a multinucleate continuous cell layer which covers the surface of the placenta. It forms as a result of differentiation and fusion of the underlying cytotrophoblast cells, a process which continues throughout placental development. The syncytiotrophoblast (otherwise known as syncytium), thereby contributes to the barrier function of the placenta.

The placenta grows throughout pregnancy. Development of the maternal blood supply to the placenta is suggested to be complete by the end of the first trimester of pregnancy (approximately 12-13 weeks).

Placental circulationEdit

Maternal placental circulationEdit

In preparation for implantation, the uterine endometrium undergoes 'decidualisation'. Spiral arteries in the decidua are remodelled so that they become less convoluted and their diameter is increased. This increases maternal blood flow to the placenta and also decreases resistance so that shear stress is reduced. The relatively high pressure as the maternal blood enters the intervillous space through these spiral arteries bathes the villi in blood. An exchange of gases takes place. As the pressure decreases, the deoxygenated blood flows back through the endometrial veins.

Maternal blood flow is approx 400 ml/min at term.

Fetoplacental circulationEdit

Deoxygenated fetal blood passes through umbilical arteries to the placenta. At the junction of umbilical cord and placenta, the umbilical arteries branch radially to form chorionic arteries. Chorionic arteries also branch before they enter into the villi. In the villi, they form an extensive arteriocapillary venous system, bringing the fetal blood extremely close to the maternal blood; but no intermingling of fetal and maternal blood occurs ("placental barrier"[5]).

FunctionsEdit

NutritionEdit

The perfusion of the intervillous spaces of the placenta with maternal blood allows the transfer of nutrients and oxygen from the mother to the fetus and the transfer of waste products and carbon dioxide back from the fetus to the mother.

Metabolic and endocrine activityEdit

In addition to the transfer of gases and nutrients, the placenta also has metabolic and endocrine activity. It produces, among other hormones, progesterone, which is important in maintaining the pregnancy; somatomammotropin (also known as placental lactogen), which acts to increase the amount of glucose and lipids in the maternal blood; estrogen; relaxin, and beta human chorionic gonadotrophin (beta-hCG). This results in increased transfer of these nutrients to the fetus and is also the main cause of the increased blood sugar levels seen in pregnancy. This hormone (beta-hCG) ensures that progesterone and oestrogen are secreted; progesterone and oestrogen thicken and maintain the uterine lining as well as inhibit the production and release of more eggs. However after about 2 months the placenta takes on the role of producing progesterone and therefore beta-hCG is no longer needed. Beta-hCG is excreted in urine and this is what pregnancy tests detect. It also produces insulin-like growth factors (IGFs).

Cloaking from immune system of motherEdit

To hide itself from attack by the mother's immune system, the placenta secretes Neurokinin B containing phosphocholine molecules. This is the same mechanism used by parasitic nematodes to avoid detection by the immune system of their host.[6]

BirthEdit

When the fetus is born, its placenta begins a physiological separation for spontaneous expulsion afterwards (and for this reason is also called the afterbirth). In humans, the umbilical cord is routinely clamped and severed prior to the delivery of the placenta, often within seconds or minutes of birth, a medical protocol known as 'active management of third stage' which has been called into question by advocates of natural birth and 'passive management of third stage'[7] The site of the former umbilical cord attachment in the center of the front of the abdomen is known as the umbilicus, navel, or belly-button.

Modern obstetric practice has decreased maternal death rates enormously. The addition of active management of the third stage of labor is a major contributor towards this. It involves giving oxytocin via IM injection, followed by cord traction to assist in delivering the placenta. Premature cord traction can pull the placenta before it has naturally detached from the uterine wall, resulting in hemorrhage. The BMJ summarized the Cochrane group metanalysis (2000) of the benefits of active third stage as follows:

"One systematic review found that active management of the third stage of labour, consisting of controlled cord traction, early cord clamping plus drainage, and a prophylactic oxytocic agent, reduced postpartum haemorrhage of 500 or 1000 mL or greater and related morbidities including mean blood loss, postpartum haemoglobin less than 9 g/dL, blood transfusion, need for supplemental iron postpartum, and length of third stage of labour. Although active management increased adverse effects such as nausea, vomiting, and headache, one RCT identified by the review found that women were less likely to be dissatisfied when their third stage of labour was actively managed."[3]

Risks of retained placenta include hemorrhage and infection. If the placenta fails to deliver in 30 minutes in a hospital environment, manual extraction may be required if heavy ongoing bleeding occurs, and very rarely a curettage is necessary to ensure that no remnants of the placenta remain (in rare conditions with very adherent placenta (placenta accreta)). However, in birth centers and attended home birth environments, it is common for licensed care providers to wait for the placenta's birth up to 2 hours in some instances.

Non-humansEdit

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In most mammalian species, the mother bites through the cord and consumes the placenta, primarily for the benefit of prostaglandin on the uterus after birth. This is known as placentophagy. However, it has been observed in zoology that chimpanzees, with which humans share 99% of genetic material, apply themselves to nurturing their offspring, and keep the fetus, cord, and placenta intact until the cord dries and detaches the next day.

File:Human placenta both sides.jpg

The placena exists in most mammals and some reptiles. It is probably polyphyletic.

Pathology Edit

See:

Cultural practices and beliefs Edit

The placenta often plays an important role in various human cultures, with many societies conducting rituals regarding its disposal. In the Western world, the placenta is most often incinerated.[8]

Some cultures bury the placenta for various reasons. The Māori of New Zealand traditionally bury the placenta from a newborn child to emphasize the relationship between humans and the earth.[9] Similarly, the Navajo bury the placenta and umbilical cord at a specially-chosen site,[10] particularly if the baby dies during birth.[11] In Cambodia and Costa Rica, burial of the placenta is believed to protect and ensure the health of the baby and the mother.[12] If a mother dies in childbirth, the Aymara of Bolivia bury the placenta in a secret place so that the mother's spirit will not return to claim her baby's life.[13]

File:Placenta ad in Hong Kong.jpg

The placenta is believed by some communities to have power over the lives of the baby or its parents. The Kwakiutl of British Columbia bury girls' placentas to give the girl skill in digging clams, and expose boys' placentas to ravens to encourage future prophetic visions. In Turkey, the proper disposal of the placenta and umbilical cord is believed to promote devoutness in the child later in life. In Ukraine, Transylvania, and Japan, interaction with a disposed placenta is thought to influence the parents' future fertility. The ancient Egyptians believed that the placenta was imbued with magical powers.[12] In fact, the placenta of the pharaoh was placed on a pole and carried into battle. This is history's first flag. <http://www.psychohistory.com/htm/eln04f_footnotestrauma.html>

Several cultures believe the placenta to be or have been alive, often a relative of the baby. Nepalese think of the placenta as a friend of the baby's; Malaysian Orang Asli regard it as the baby's older sibling. The Ibo of Nigeria consider the placenta the deceased twin of the baby, and conduct full funeral rites for it.[12] Native Hawaiians believe that the placenta is a part of the baby, and traditionally plant it with a tree which can then grow alongside the child.[8]

In some cultures, the placenta is eaten, a practice known as placentophagy. In some eastern cultures, such as China and Hong Kong, the placenta is thought to be healthy and is used in medicine and various health products.[14]

Additional imagesEdit

See alsoEdit


References Edit

  1. Henry George Liddell, Robert Scott, "A Greek-English Lexicon", at Perseus
  2. Online Etymology Dictionary
  3. Examination of the placenta
  4. http://www.vivo.colostate.edu/hbooks/pathphys/reprod/placenta/structure.html Placental Structure and Classification
  5. Placental blood circulation
  6. Placenta 'fools body's defences'. BBC News.
  7. http:www.sarahjbuckley.com/articles/leaving-well-alone.htm
  8. 8.0 8.1 includeonly>"Why eat a placenta?", BBC, 2006-04-18. Retrieved on 2008-01-08.
  9. Metge, Joan. 2005. "Working in/Playing with three languages: English, Te Reo Maori, and Maori Bod Language." In Sites N.S vol. 2, No 2:83-90.
  10. Francisco, Edna Bridging the Cultural Divide in Medicine. Minority Scientists Network. URL accessed on 2008-01-07.
  11. Shepardson, Mary (1978). Changes in Navajo Mortuary Practices and Beliefs. American Indian Quarterly. University of Nebraska Press. URL accessed on 2008-01-07.
  12. 12.0 12.1 12.2 Buckley, Sarah J. Placenta Rituals and Folklore from around the World. Mothering. URL accessed on 2008-01-07.
  13. Davenport, Ann (2005). The Love Offer. Johns Hopkins Magazine. URL accessed on 2008-01-07.
  14. Falcao, Ronnie Medicinal Uses of the Placenta. URL accessed on 2008-11-25.



External linksEdit

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Mammalian development of embryo and development and fetus (some dates are approximate - see Carnegie stages) - edit

Week 1: Zygote | Morula | Blastula/Blastomere/Blastosphere | Archenteron/Primitive streak | Blastopore | Allantois | Trophoblast (Cytotrophoblast | Syncytiotrophoblast | Gestational sac)

Week 2: Yolk sac | Vitelline duct | Bilaminar disc

Week 3: Hensen's node | Gastrula/Gastrulation | Trilaminar embryo Branchial arch (1st) | Branchial pouch | Meckel's cartilage | Somite/Somitomere | Germ layer (Ectoderm, Endoderm, Mesoderm, Chordamesoderm, Paraxial mesoderm, Intermediate mesoderm, Lateral plate mesoderm)

Histogenesis and Organogenesis

Circulatory system: Primitive atrium | Primitive ventricle | Bulbus cordis | Truncus arteriosus | Ostium primum | Foramen ovale | Ductus venosus | Ductus arteriosus | Aortic arches | Septum primum | Septum secundum | Cardinal veins

Nervous system: Neural development/Neurulation | Neurula | Neural folds | Neural groove | Neural tube | Neural crest | Neuromere (Rhombomere) | Notochord | Optic vesicles | Optic stalk | Optic cup

Digestive system: Foregut | Midgut | Hindgut | Proctodeum | Rathke's pouch | Septum transversum

Urinary/Reproductive system: Urogenital folds | Urethral groove | Urogenital sinus | Kidney development (Pronephros | Mesonephros | Ureteric bud | Metanephric blastema) | Fetal genital development (Wolffian duct | Müllerian duct | Gubernaculum | Labioscrotal folds)

Glands: Thyroglossal duct

Uterine support: Placenta | Umbilical cord (Umbilical artery, Umbilical vein, Wharton's jelly) | Amniotic sac (Amnion, Chorion)

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