Transcript 20-Plcenta
Fetal membrane and placenta • Decidua: • After the implantation of the embryo, the uterine endometrium is called the decidua. The stramal cells enlrge,become vacuolated and lipids.This change in the stromal cells is called the decidua reaction. • The decidua is divided into three parts according to the association with the embryo: Decidua basalis: deep to the embryo Decidua capsulris: over the embryo Decidua paritalis: the left part of decidua Decidua capsulris Decidua paritalis Decidua basalis Fetal membrane: • • • • • Chorion Amnion Yolk sac allantois Unbiliad cord Lacuna syncytiotrophoblast cytotrophoblast Extraembryonic mesoderm • Chorion: Formation of chorion:The cytotrophoblast differentiates internally into a layer of primary mesoderm. Trophoblast and primary mesoderm together form the chorion.They give off numerous process called villi or chorionic villi.These villi are surrounded by maternal blood . • The chorionic villi are first formed all over the trophoblast and grow into the surrounding decidua.those related to the decidua capsularis are transitory. After some time they degenerate.This part of the chorion becomes smooth and is called the chorion laevae. • In contrast,decidua undergo considerable development. Along with the tissues of the decidua basalis these villi form a discshaped mass which is called the placenta. The part of the chorion that helps form the placenta is called the chorion frondosum. Amnion Connecting stilk Germ disc Yolk sac chorion Amnion Connecting stilk Yolk sac Extraembryonic cavity Extraembryonic cavity Amniotic cavity Umbilical cord Yolk sac Amniotic cavity Umbilical cord amnion Chorion laevae • All elements (syncytium, cytotrophoblast and mesoderm) take part in forming chorionic villi.Three stages in formation of chorionic villi are seen: A primary villus:cytotrophoblast and is covered by the cells of syncytiotrophoblast. • A secondary villus:primary mesoderm and is covered successively by cyto-and syncytiotrophoblasts. • A tertiary villus contains in the center the foetal blood vessels which are surrounded successively from within outwards by primary mesoderm, cyto and syncytiotrophoblasts. capillary Intervilli space Cell shell decidua Syncytiotrophoblast Connective tissue capillary cytotiotrophoblast • From each tertiary stem villus numerous branching villi project into the intervillous space. the intervillous space is converted into a sponge-like network of villous type of labyrinthine structure and is filled with maternal blood. • THE AMNIOTIC CAVITY • A fluid-filled amniotic cavity appears in the second week of development between the germ disc and the trophoblast. • The roof of the cavity: a layer of flattened cells, the amnioblast, which lines the inner aspect of the cytotrophoblast. • The floor of the cavity:the tall columnar cells of the epiblast of the germ disc. Aminiotic cavity Epiblast Hypioblast Connecting stalk 二胚层的羊膜 三胚层的胎膜 • With the extension of the extra-embryonic coelom the outer surfaces of the amniotic cavity and the yolk sac are covered with a layer of primary mesoderm, which is continuous with the primary mesoderm of the chorion at the caudal end of the germ disc through the connecting stalk. • The formation of the embryonic folds allows the amniotic cavity to surround the outer surface of the cylindrical embryo. As a result the amnio-ectodermal junction converges towards the ventral surface of the embryo to form the umbilical cord • The amniotic cavity gradually increases in size at the expense of the extra-embryonic coelom, and eventually the amnion and chorion leave are fused. Finally the extra- embryonic coelom is completely obliterated, except a small part which is contained in the proximal part of the umbilical cord up to the 10th week of intra-uterine life. Amnion Connecting stilk Germ disc Yolk sac chorion Amnion Connecting stalk Yolk sac Extraembryonic cavity Extraembryonic cavity Amniotic cavity Umbilical cord Yolk sac Amniotic cavity Umbilical cord amnion Chorion laevae • The Amniotic Fluid • The amniotic fluid, also called liquor amnii, is clear and watery, containing about 2% solids which include inorganic salts, urea, proteins and a trace of sugar. The source of the fluid still remains unsettled-it may be foetal from the amniotic cells, maternal or both. • Functions of the liquor amnii• 1.It acts as a protective cushion for the embryo against shock, blows or pressure. The embryo is suspended by the umbilical cord and literally swims in the fluid. • 2.The fluid maintains a uniform pressure for the proper growth and differentiation of the delicate tissues of the embryo. • 3.It allows foetal movements and maintains a constant environmental temperature. • 4.During parturition, the amniotic sac forms a hydrostatic wedge and helps to dilate the cervical canal. • Abnormalities of the liquor amnii• 1.Hydramnios This is a condition when the volume of the amniotic fluid exceeds two litres. • 2.Oligamnios- In this condition the fluid is scanty in amount. • Yolk sac Primary Yolk sac secondary yolk sac Aminiotic cavity Epiblast Hypioblast allantois Primitive female sex cell Yolk sac • .Vitello-intestinal duct –It communicates the mid gut with extra-embryonic part of the yolk sac (umbilical vesicle). In the later part of foetal life the duct disappears. On rare occasions, the proximal part of the duct persists as the Meckel’s diverticulum which is attached to the antimesenteric border of the ileum. allantois • Allanto-enteric diverticulum or allantois: • Associated with the formation of the cloacal membrane, a tubular endodermal outgrowth known as allanto-enteric diverticulum or allantois arises from the dorsi-caudal end of the yolk sac extends into the primary mesoderm of the connecting stalk. • Probably in man the allantois helps to vascularise the chorion and its villi with the allantoic or umbilical blood vessels. • The distal part of the diverticulum is fibrosed to form the urachus and the proximal part incorporates with the apex of the urinary bladder. • If the lumen of the diverticulum persists entirely after the falling off of the cord, a urinary fistula takes place at the umbilicus. • Placenta • Human placenta is a discoid, chorio- deciduate organ which connects the foetus with the uterine wall of the mother. It is a structure where maternal and foetal tissues come in direct contact without rejection, suggesting immunological acceptance of the foetal graft by the mother. • Gross Anatomy- At full term the placenta is disc like, and presents after separation from the uterine wall foetal and maternal surfaces, and peripheral margi • Foetal surface is smooth, covered by amnion and presents the attachment of the umbilical cord close to its center. Beneath the amnion umbilical vessels radiate from the cord. • Maternal surface is rough and irregular, and is mapped out into 15-30 polygonal areas known as the cotyledons which are limited by fissures. Each fissure is occupied by a placental septum. • Peripheral margin is continuous with the foetal membrane which consists from outside inwards of fused deciduas parietalis and capsularis, chorion laeve and amnion. Measurements –At full term the placenta presents the following measurements: • Diameter - • Thickness - 3cm.(at the center). • Weight 15 to 20 cm. - 500gms. Structure of the placenta • By the beginning of the fourth month, the placenta has two components: • (a) a fetal portion, formed by the chorion frondosum • (b) a maternal portion, formed by the decidua basalis • Placenta is developed from two sources- foetal part from chorion frondosum and maternal part from deciduas basalis. • The placenta consists of chorionic plate on the foetal side, basal plate on the maternal side, stem villi extending between the plates, and intervillous space between the stem villi filled with the maternal blood. • On the fetal side, the placenta is bordered by the chorion plate; On the fetal side, the placenta is bordered by the decidua basalis of which the decidual plate is most intimately incorporated into the placenta. • Chorionic plate: • (1)Villi: Fixed stem villi: cytotrophoblast emerges through the syncytium of each villus,and attached to the decidua Free stem villi: can not contact with the decidua,just float in the blood of the intervillus space. • (2)Intervillous sapce:surrounding the villi filled in the maternal blood. • The basal plate is perforated by the spiral branches of uterine arteries and veins; eventually the intervillous space is filled with maternal blood. The portions of the basal plate in between the stem villi project into the intervillous space as placental septa. Numerous placental septa project from the basal plate into the intervillous space but they fail to reach the chorionic plate. • Placental circulation: • Maternal blood in the intervillous space• Foetal Blood in the villi of the Placenta • The placental barrier consists of tissues which intervene between foetal blood in the chorionic villi and maternal blood in the intervillous space. Through this barrier exchange of gaseous and metabolic products takes place between the foetus and the mother. • the barrier consists of the following four layers from foetus to mother-endothelium of foetal capillaries resting on a basement membrane, a core of primary mesodermal cells, a basement membrane upon which rest cytotrophoblast and syncytiotrophoblast. • Functions of the PlacentaMain function of placenta are exchange of metabolic and gaseous products between maternal and fetal bloodstream and production of hormones • • 1)Placenta acts in the exchange of gaseous and metabolic products between the maternal and foetal blood streams across the placental barrier. • a)Oxygen intake and Carbon dioxide output• Intake of glucose, fatty acids, sodium, potassium, chloride and water in the foetal blood; Excretion of urea, • uric acid and creatinine from the foetal to the maternal blood. • Hormone production: progesterone estrogenic human chorionic gonadotropin(HCG) 胎盘横切面