Section Links

• developmental processes
• development of body systems
• week 1
• week 2
• week 3
• weeks 4-8
• weeks 9-40
• teratogens
• problems with development

The Placenta

The placenta acts as the interface between the fetus and mother. It is referred to as a fetomaternal organ as it is composed of tissues from both beings.

 

During the embryonic period, the adnexa includes the amnion, chorion, umbilical vesicle (yolk sac) allantois, and connecting stalk.

 

The chorion

The placenta develops in a highly dynamic process. It appears first as the chorionic sac in week two, which surrounds the embryo and consists of two layers - an outer ectoderm (trophoblast) layer and inner mesoderm. The trophoblast, composed of cytotrophoblast and syncytiotrophoblast, is responsible for implantation and invasion into the endometrium during the first week.

 

Chorionic Villi

Primary chorionic villi appear at the end of the second week from cytotrophoblasts, and mesenchyme begins to invade early in the third week to form secondary villi. Some mesenchymal cells soon differentiate into capillaries and blood vessels, creating tertiary villi. Arteriocapillary networks form and connect to the embryonic circulation through the connecting stalk and chorion. By the end of the third week, embryonic blood is carrying oxygen and nutrients to the embryo.

 

At the same time, cytotrophoblasts of the chorionic villi proliferate and form the cytotrophoblastic shell around the synthiotropblast, gradually forming the bridge between the chorion and the endometrium. Stem chorionic villi attach to maternal tissues, and from these branch chorionic villi grow and provide the main exchange of material.

 

Chorionic Villus, in cross section

The Decidua

The decidua is the component of the endometrium that falls away from the uterus after birth. THere are three regions:

• decidua basalis: contributed by the mother
• decidua capsularis: surrounds chorion
• decidua parietalis: covers remainder of endometrium

 

Intervillous Space

Intervillous space, present between the chorionic villi and decidua basalis, is a large blood-filled space. Maternal aretries and veins penetrate the cytotrophoblastic shell.

 

Amniochorionic Membrane

As the amniotic sac enlarges faster than the chorionic sac, they soon fuse to produce the amniochorionic membrane. It in turns adheres to the decidua capsularis and, following the capsular disappearance, becomes fused with the decidua parietalis.

 

Amnion and Amniotic Fluid

The amnionic sac develops from extra-embryonic ectoderm, being attached to the margins of the embryonic disc. Following embryonic folding, its junciton with the embryo occurs on the ventral surface. As it expands, it gradually takes over the chorionic cavity and the epithelial covering of the umbilical cord.

 

The volume of amniotic fluid increases slowly, from 30 ml at 10 weeks to almost 1000 ml by 37 weeks. Large amounts of fluid are absorbed by the mother, but the fetus also swallows up to 400 ml of fluid per day, absorbing it and returning the fluid to the mother through the umbilical cord. Stenosis or atresia of the gut can lead to hydramnios, or a high volume of amniotic fluid.

 

Amniotic fluid performs various functions:

• acts as barrier to infection
• cushions embryo
• permits normal lung development
• enables the fetus to develop and move freely
• maintains fluid and electrolyte homeostasis

 

Amniotic fluid can be examined. High levels of AFP suggest severe neural tube defect, while low levels are suggestive of chromosomal aberrations such as Down syndrome.

 

Amniotic fluid contains stem cells capable of differentiation into each stem cell lineage. (Coppi et al, 2007)

 

 

Placental Transport

Infectious agents

• CMV
• rubella
• coxasackie virus
• varicella
• measles
• polio
• Treponema pallidum
• Toxoplasma gondii

 

 

Mature Placenta

 

 

baby side (top) and mother side (bottom)