Embryology: from Fertilization to Gastrulation, Animation
Summary
TLDRThe script outlines human prenatal development in three key stages: pre-embryonic, embryonic, and fetal. It details fertilization in the ampulla of the fallopian tube, leading to the formation of a morula and blastocyst. The script explains the development of the embryo from a two-layered disc to the formation of three germ layers through gastrulation, setting up the foundation for all organ systems. It also describes the role of embryonic membranes in nourishment and protection, highlighting the critical role of HCG and progesterone in maintaining pregnancy.
Takeaways
- 🌱 Human prenatal development is divided into three stages: pre-embryonic, embryonic, and fetal development.
- 📍 Fertilization typically occurs in the ampulla of the fallopian tube, marking the beginning of the pre-embryonic stage.
- 🚀 The fertilized egg, known as the conceptus, undergoes mitotic cell divisions, forming blastomeres without increasing in volume, a process called cleavage.
- 🌕 After approximately 3 days, the conceptus, now a morula with about 16 cells, reaches the uterus, where cells are totipotent and can differentiate into all cell types.
- 🍎 The morula continues to divide and consume nutrients from the egg cytoplasm and 'uterine milk' secreted by the endometrium.
- 🌀 When the conceptus reaches about 100 cells, it forms a blastocyst with an inner cell mass (embryoblast) and an outer shell (trophoblast), which will develop into the placenta.
- 🔑 The trophoblast secretes an enzyme that allows the blastocyst to 'hatch' and implant itself into the uterine wall.
- 🤰 The blastocyst's attachment to the endometrium triggers the production of human chorionic gonadotropin (hCG), which maintains the corpus luteum and progesterone levels essential for pregnancy.
- 🌀 Around the middle of the second week, the embryoblast forms a bilaminar embryonic disc with the hypoblast and epiblast, establishing the dorsal/ventral axis of the embryo.
- 🌱 By the end of the second week, the embryo forms the yolk sac and amnion, which provide nutrients and gas exchange for the developing embryo.
- 🔄 In the third week, the embryo undergoes gastrulation, transforming into three germ layers (endoderm, mesoderm, and ectoderm), which will give rise to different organs and tissues.
- 🛡️ The amnion surrounds the embryo by week 4, filled with amniotic fluid that protects the embryo and allows for movement without adhesion of body parts.
Q & A
What are the three stages of human prenatal development mentioned in the script?
-The three stages of human prenatal development are pre-embryonic, embryonic, and fetal development.
Where does fertilization typically occur in the female reproductive system?
-Fertilization usually occurs in the ampulla of the fallopian tube.
What is the term used for the fertilized egg during its initial stage of development?
-The fertilized egg is referred to as the conceptus during its initial stage of development.
What is the process called where the conceptus undergoes several mitotic cell divisions without growing in volume?
-This process is known as cleavage.
What is the name of the structure that contains about 16 cells and is formed after about 3 days of the conceptus traveling towards the uterus?
-The structure is called a morula.
What is the term for the pluripotent inner cell mass of the blastocyst that is destined to become the embryo?
-The term is embryoblast.
What does the trophoblast become later in the development process?
-The trophoblast later becomes the chorion, which is the fetal portion of the placenta.
What hormone does the syncytiotrophoblast secrete to maintain the pregnancy?
-The hormone secreted is named 'human chorionic gonadotropin', or HCG.
What is the function of the yolk sac during the early weeks of embryonic development?
-The yolk sac provides nutrients absorbed from the trophoblast and facilitates gas exchange for the embryo before the placenta takes over these functions at week 4. It is also the first site of embryonic blood cell production.
What is the process called that transforms the two-layered embryonic disc into three germ layers?
-The process is called gastrulation.
What are the four embryonic membranes mentioned in the script?
-The four embryonic membranes are the yolk sac, amnion, allantois, and chorion.
Outlines
🚀 Human Prenatal Development Overview
This paragraph outlines the three stages of human prenatal development: pre-embryonic, embryonic, and fetal. It begins with fertilization in the ampulla of the fallopian tube, where the conceptus undergoes cleavage, dividing into blastomeres without increasing in volume. The conceptus, now a morula, enters the uterus and continues to divide, eventually forming a blastocyst with an inner cell mass (embryoblast) and an outer shell (trophoblast). The trophoblast will develop into the chorion, part of the placenta, and secretes an enzyme to enable implantation into the endometrium. The endometrium responds by enveloping the blastocyst, and the syncytiotrophoblast produces HCG to maintain progesterone levels, essential for pregnancy. The paragraph also describes the formation of the yolk sac and amnion, the latter providing protection and allowing movement for the developing embryo.
Mindmap
Keywords
💡Pre-embryonic stage
💡Fertilization
💡Conceptus
💡Cleavage
💡Morula
💡Totipotency
💡Blastocyst
💡Trophoblast
💡Human Chorionic Gonadotropin (hCG)
💡Gastrulation
💡Germ Layers
💡Amnion
Highlights
Human prenatal development is divided into three stages: pre-embryonic, embryonic, and fetal development.
Fertilization typically occurs in the ampulla of the fallopian tube.
The fertilized egg, known as the conceptus, travels towards the uterus while undergoing mitotic cell divisions called cleavage.
After about 3 days, the conceptus, now a morula with 16 cells, arrives in the uterus.
Morula cells are totipotent, capable of differentiating into all embryonic and extra-embryonic cell types.
The morula continues to divide, consuming nutrients from the egg cytoplasm and 'uterine milk' from the endometrium.
When the morula reaches about 100 cells, it forms a blastocyst with an inner cell mass (embryoblast) and an outer shell (trophoblast).
The trophoblast later develops into the chorion, part of the placenta, and secretes an enzyme to enable implantation.
At the end of the first week, the blastocyst attaches to the endometrium, forming the syncytiotrophoblast which derives nutrition from it.
The syncytiotrophoblast secretes human chorionic gonadotropin (HCG) to maintain progesterone production for pregnancy support.
Progesterone stimulates the growth of nutrient-rich decidual cells to nourish the early embryo.
By the middle of week 2, the embryoblast forms a two-layered embryonic disc with a cavity on either side, setting the dorsal/ventral axis.
By the end of the second week, the embryonic disc forms the yolk sac and amnion, providing nutrients and gas exchange for the embryo.
The yolk sac is also the first site of embryonic blood cell production before the liver takes over.
In week 3, the embryonic disc transforms into three germ layers through gastrulation, committing cells to specific cell types.
Gastrulation is initiated by the emergence of the primitive streak on the epiblast surface, setting the cranial/caudal axis.
The primitive node at the cranial end of the primitive streak produces signaling factors controlling cell movements.
The three germ layers - endoderm, mesoderm, and ectoderm - differentiate to form various organs and tissues.
By the end of the embryonic period, all organ systems are present in primitive form, though most are not yet fully functional.
The yolk sac gives rise to the allantois, a primitive urinary bladder and part of the umbilical cord.
The amnion surrounds the embryo by week 4, filled with amniotic fluid for protection and allowing free fetal movement.
The yolk sac, amnion, allantois, and chorion are the four embryonic membranes essential for embryonic development.
Transcripts
Human prenatal development can be divided into 3 stages: pre-embryonic,
embryonic, and fetal development. Fertilization usually occurs in the
ampulla of fallopian tube. The fertilized egg, referred to as the conceptus at this stage,
immediately travels toward the uterus. During the journey,
it undergoes several mitotic cell divisions, producing daughter cells, called blastomeres.
This process is known as cleavage, because the cells divide without growing in volume.
After about 3 days, the conceptus arrives in the uterus:
it now contains about 16 cells and is called a morula. Cells of the morula are totipotent,
they are capable of differentiating into all cell types, both embryonic and extra-embryonic.
The morula continues to divide while floating freely in the uterus for several more days.
During this time, it consumes nutrients stored in the egg cytoplasm, and “uterine
milk” secreted by the endometrium. When there are about 100 cells,
the cells start to arrange themselves around a fluid-filled cavity, forming a blastocyst.
The blastocyst consists of a pluripotent inner cell mass, called the embryoblast,
destined to be the embryo; and an outer shell, called the trophoblast, which nourishes the
embryo. The trophoblast later becomes the chorion - the fetal portion of the placenta.
The trophoblast secretes an enzyme that dissolves the membrane surrounding the conceptus, enabling
it to “hatch”, ready to be implanted. At the end of the first week,
the blastocyst becomes attached to the endometrium. At the site of contact,
superficial cells of the trophoblast fuse together to form the syncytiotrophoblast, which grows into
the endometrium and derives nutrition from it. The endometrium responds by growing over
and eventually enveloping the blastocyst. The syncytiotrophoblast secretes the hormone
named “human chorionic gonadotropin”, HCG, to instruct the corpus luteum to continue the
production of progesterone. Progesterone is the hormone that maintains pregnancy.
Among its many functions, progesterone stimulates the growth of nutrient-rich
decidual cells to feed the early embryo. Around the middle of week 2, the embryoblast
starts to form a two-layered embryonic disc - hypoblast and epiblast, at the mid-plane
of blastocyst, with a cavity on either side. This bilaminar disc sets the dorsal/ventral axis of the
embryo, with the epiblast being the dorsal side. By the end of second week, the 2 layers grow
around the cavity on their respective side and form the yolk sac and amnion, respectively.
The yolk sac provides nutrients absorbed from the trophoblast, as well as gas exchange for
the embryo during weeks 2 and 3, before the placenta takes over these functions at week
4. It is also the first site of embryonic blood cell production, before the liver.
In week 3, the two-layered disc transforms into 3 germ layers,
through the process of gastrulation, during which the cells lose their pluripotency and become
committed to a smaller number of cell types. Gastrulation begins with the emergence of the
primitive streak on epiblast surface. This event sets the cranial/caudal,
or head/tail axis, of the embryo. A so-called primitive node at the cranial
end of primitive streak produces signaling factors that control the movements of cells.
Epiblast cells migrate toward and through the primitive streak into the embryo. The
first set of cells displaces the hypoblast and forms the endoderm. The second set of cells
fills in the space between the endoderm and epiblast, creating the mesoderm. The
remaining epiblast cells form the ectoderm. Each of the 3 germ layers differentiates to
become different organs and tissues. All organ systems are present in their primitive form by the
end of the embryonic period, but most of them are not yet functional, or only partially functional.
The yolk sac gives rise to the allantois, a primitive urinary
bladder and part of the umbilical cord. The amnion grows to surround the embryo
by week 4. It is filled with amniotic fluid which protects the embryo from trauma and temperature
fluctuations. The fluid also allows the fetus to move freely and prevents adhesion of body parts.
The yolk sac, amnion, allantois and chorion are the 4 embryonic membranes.
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