Embryology: Implantation to Gastrulation

Question 1

Leukemia Inhibitory Factor (LIF)

Answer 1

Needed for blastocyst to implant to endometrial lining, mutations cause infertility

Question 2

Blastocyst and endometrium must recognize and interface with each other in order for implantation (in order to stick)

Answer 2

Use glycolipids and glycoproteins

Question 3

Spotting or Implantation Bleeding

Answer 3

Results from blastocyst implanting itself into vascular endometrium with syncytiotrophoblasts

Question 4

General function of trophoblast

Answer 4

To connect to mother’s blood supply and become placenta

Trophoblast –> Cytotrophoblast and syncytiotrophoblast

Question 5

General function of embryoblast

Answer 5

To develop into embryo and supporting structures

Embryoblast –> Hypoblast and Epiblast (everything comes from epiblast)

Question 6

Week 2 Characteristics of Embryogenesis

Answer 6

1. Bilaminar Embryonic Disc (Epiblast/Hypoblast)
2. Formation of 2 layers in embryo (Epi/Hypoblast)
3. Formation of 2 layers in trophoblast (Cyto/Syncytiotrophoblast)
4. Formation of 2 cavities above and below bilaminar disk (amniotic sac and yolk sac)

Question 7

Epiblast differentiation

Answer 7

Epiblast –> Amnion and Amniotic Sac (cavity)

Question 8

Hypoblast differentiation

Answer 8

Hypoblast –> Yolk sac, yolk sac cavity

Question 9

What is HCG, where does it come from?

Answer 9

HCG = Human Chorionic Gonadotrophin, secreted from syncytiotrophoblast.

Function is to tell ovary to secrete hormones to maintain pregnancy, rate limiting step.

This is what pregnancy tests are looking for

Question 10

Once placenta is setup, embryo is exposed to mom’s diet and ingestion

Answer 10

Doesn’t occur until after week 2, dependent on ovum material until then.

Question 11

Teratogen susceptibility

Answer 11

1. If happens during week 1-2 = prenatal death
2. If happens during week 3-8, major morphological abnormalities
3. After week 8 = CNS defects

Most susceptible during weeks 3-8

Question 12

Embryo development stages

Answer 12

Week 3: CNS, heart
Week 4-5: eye, heart, limbs
Week 6: ears, teeth
Week 7: palate
Week 8: ear, palate, genitalia

Question 13

Extraembryonic (XE) Mesoderm

Answer 13

1. Derived from epiblast
2. Envelops embryoblast structures
3. Develops into somatic XE mesoderm and splanchnic XE mesoderm
4. Functions as mechanical and trophic support

Question 14

XE Mesoderm mechanism

Answer 14

1. XE mesoderm forms
2. XE coelom begins as splits in XE mesoderm (then becomes cavity)
3. Cavity is called chorionic cavity, connecting stalk becomes umbilical cord

Question 15

Week 3 characteristics

Answer 15

3 layers of trophoblast: syncytiotrophoblast, cytotrophoblast, XE mesoderm

3 cavities: amnion, yolk sac, chorion

Question 16

Splanchnic XE mesoderm vs. Somatic XE mesoderm

Answer 16

Splanchnic covers the yolk sac/embryo

Somatic covers the entire structure including the chorionic cavity

Question 17

Chorionic villus

Answer 17

Becomes placenta, is location for chorionic villus sampling (CVS) to test for genetic defects and diseases

Question 18

Gastrulation

Answer 18

Beginning of morphogenesis (development of body forms)

Question 19

3 primary germ layers

Answer 19

1. Endoderm (hypoblast)
2. Mesoderm (migrating cells from epiblast)
3. Ectoderm (epiblast)

Question 20

Purpose of germ layers

Answer 20

Give rise to all organs and tissues of the adult

Question 21

Primitive Streak

Answer 21

1. Marks beginning of gastrulation
2. Determines axis of embryonic development
3. Has a mouth (buccopharyngeal) and tail end
4. Elongates from tail to mouth –> pit/node

Question 22

Formation and incomplete separation of 2 primitive streaks can result in conjoined twins

Answer 22

Other way is incomplete division of inner cell mass (embryoblast)

Question 23

Primitive streak elongates with cells added to caudal end

Answer 23

Cells migrate to the center of the embryo

Question 24

Mesenchyme

Answer 24

Most primitive connective tissue, results from epiblast cells migrating to become mesoderm

Question 25

Trilaminar embryonic disk

Answer 25

Endoderm, mesoderm, ectoderm

Also notochord development

Question 26

Ectoderm

Answer 26

Becomes skin, CNS

Question 27

Mesoderm

Answer 27

GI tract, intestinal lining

Question 28

Teratomas

Answer 28

Have pieces from all germ layers

Question 29

Most common congenital germ cell tumor

Answer 29

Sacrococcygeal Teratoma (SCT)

Predominantly in females. Can intervene in utero and excise.

Question 30

Germ layer defects

Answer 30

Caudal dysplasia, caudal regression syndrome

Results in underdevelopment to lower limbs, fish tail appearance

Question 31

Major occurrences in week 3

Answer 31

1. Appearance of primitive streak
2. Differentiation of 3 primary germ layers
3. Development of notochord

Question 32

Notochord

Answer 32

1. Acts as axis for embryo development
2. Foundation for vertebral column
3. Develops future CNS (neural tube)