Embryo - Early Development

Question 1

*How to calculate the date for delivery from the last menstrual cycle?

Answer 1

Gestation period:

• 280 days from 1st day of last menstruation
• 266 days from time of fertilization

Caluclation of Expected Date of Delivery:

• Nagele Rule
  
  • 1st day of LMP: 10/20/2017
  • Subtract 3 months: 7/20/2017
  • Add 1 year + 7 days: 7/27/2017

Question 2

*What are the phases & results of fertilization?

Answer 2

Results of fertilization:

1. Restoration of diploid number (46) of chromosomes
   
   • 23 from mom/23 from dad
2. Determination of the chromosomal sex of the embryo
   
   • XX = female
   • XY = male
3. Variation of the species
   
   • new combination of chromosomes
4. Initiation of cleavage
   
   • mitotic division of the zygote into blastomeres

Question 3

*What is the process of the cleavage of the zygote & formation of the blastocyst?

Answer 3

Sperm & secondary oocyte —> Pronuclei —> Morula —> Blastocyst

Process

1. Day 1:
   
   • Mitotic divsion –> blastomere (2 cell stage)
     
     • polar body + zona pellucida
     • Until 8 cells = totipotent
2. Day 3:
   
   • Morula is formed (12-16 cells) aka Blastula
   • Reaches uterus
3. Day 5:
   
   • Morula become Blastocyst
4. Day 5-6:
   
   • Zona pellucide disappears
   • implantation begins

Early Blastocyst

• Inner cell mass (embryoblast)
  
  • involved w/ embryogenesis
• Outer cell mass (trophoblast)
  
  • involved w/ implanation
• Blastocyst cavity

NOTE: Only Blastocyst can be implanted!!!

Question 4

*What is the process of implantation of the blastocyst?

Answer 4

Events in Week 1:

1. Ovulation
2. Fertilization
3. Cleavage
4. Morulation
5. Blastocyst formation
6. Implanation

Implanation:

• Inner cell mass = Embryoblast
• Outer cell mass = Trophoblast
  
  1. ​​Cytotrophoblast = mitotically active;
     
     • does not invate maternal tissue
  2. Syncytiotrophoblast = expanding mass;
     
     • invasive to maternal tissue & will form placental villi

Process:

• Zona pellucida disappears
• Blastocyst gets attached to uterine endometrium

Question 5

What are the two layers formed by the trophoblast?

Answer 5

1. Cytotrophoblast (Inner)
   
   • mitotically active
   • does not invade maternal tissue
2. Syncytiotrophoblast (Outer)
   
   • expanding mass
   • invasive & forms placental villi

Question 6

What are the two layers formed by the embryoblast?

Answer 6

1. Hypoblast
   
   • Single layer of cells towards the blastocyst cavity
   • Cuboidal
   • Roof of primary yolk sac (exocoelomic cavity)
2. Epiblast
   
   • Layer towards the trophoblast
   • Columnar
   • Floor of amniotic cavity

Formation of Amniotic cavity

• Amniogenic cells from the epiblast line the trophoblast to enclose the amniotic cavity

Formation of Primary Yolk Sac

• A layer of cells derived from the hypoblast line the trophoblast to enclose the primary yolk sac

Question 7

What causes Implanation?

Answer 7

Basics:

• Syncytiotrophoblast secretes:
  
  • Proteolytic enzymes - erode mom’s endometrium
  • Human corionic gonadotrophin (hCG) - maintains the corpus luteum
    
    • Base of pregnancy test
• Penetration defect in the surface of epitheloum = closed by fibrin coagulum

Normal site of implantation:

• posterior wall of body of uterus
• close to fundus in the compact layer of endometrium
  
  • starts 5th-6th day & completed 10-12 day (after fertilization)

Question 8

Notochord Formation

Answer 8

Basics:

• Where?
  
  • At primative node
    
    • cephalic end of primitive streak
• How?
  
  • Invaginating epiblast cells
    
    • prenotochordal cells
• What?
  
  • cylindrical rode shaped structure by the primitive node
    
    • lies between ectodermal & endodermal layers of embryonic disc
  • extends from primitive node —> prechordal plate
    
    • forms basis for vertebral column
    • induces overlying ectoderm
    • forms neuroectoderm & neural plate
      
      • ie: brain/spine
  • Disappears leaving some remnants
    
    • nucleus pulposus of the IV discs
    • abnormal persistence = malignant tumor
      
      • chordoma

Notochordal process

• grows foward from the primitive node btw the ectodermal & endodermal layers of the embryonic disc to reach the prechordal plate

Result: CNS

Notes:

• Cephalic = relatin to head
• Caudal = at or near tail/posterior
• Cranial = relating to the skull

Question 9

What do HCG Values mean?

Answer 9

• Low HCG
  
  • spontaneous abortion
  • ectopic pregnancy
• Elevated HCG
  
  • multiple pregnancies
  • hydatiform mole
    
    • benign overgrowth of villi
  • choriocarcinoma

Question 10

What is the Bilaminar Disc?

Answer 10

Basics:

1. Layer of ectoderm - formed via amniotic cavity
   
   • epiblast
2. Layer of endoderm - formed via roof of primary yolk sac
   
   • hypoblast
   • prechordal plate = site of future mouth
3. Layer of mesoderm - formed via extraembryonic mesoderm
   
   • space btw trophoblast externally & amnion / yolk sac internally

Bilaminar (Embryonic) Disc:

• plate between amnion & primary yolk sac

Question 11

What happens the Second Week of Development?

Answer 11

Basics:

• Completion of implanation
• Formation of bilaminar disc

“Week of 2s”

• Trophoblast –> 2 layers
  
  • cytotrophoblast & syncytiotroophoblast
• Embryoblast –> 2 layers
  
  • epi & hypo
• Extraembryonic mesoderm –> 2 layers & 2 cavities
  
  • Amniotic & yolk sac
  • Splanchnopleuric & Somatopleuric EEM

Question 12

How do we form the Chorionic Cavity & Chorion?

Answer 12

Formation of Chorionic Cavity

• Cleft appears in extra-embryonic coelom
  
  • chorionic cavity formed by fusion of clefts
  • 3rd cavity
• Primary yolk sac shrinks
  
  • due to enlargement of chorionic cavity
• Extraembryonic coelon / Chorionic cavity splits EEM
  
  • Somatic (lines inner cytotrophoblast & outer amnion) & splanchnic (covers yolk sac) layers
  • formation of organs around yolk sac

Formation of Chorion:

• Syncytiotrophoblast
• Cytotrophoblast
• Somatopleuric layer

Connecting Stalk:

• Suspends the amnion, yolk sac, and embryonic disc in the chorionic cavity
• primordium of the umbilical cord

Question 13

How is the Secondary Yolk Sac formed?

Answer 13

• Definitive or secondary yolk sac = formed as the extraembryonic coelom increases in size
• Primary yolk sac = smaller (remnant)

Cavities so far:

1. Amniotic Cavity
   
   • eventually surrounds embryo after folding
2. Secondary Yolk Sac
   
   • formerly primary yolk sac
   • formerly exocoelomic cavity
3. Chorionic Cavity
   
   • formerly EXTRAembryonic coelom

Question 14

What is the purpose of an Amniocentesis?

Answer 14

• Used for:
  
  1. cell culture
  2. karyotyping
  3. DNA analysis
  4. estimation of enzymes
  5. alfafetoprotein levels

Question 15

What is Gastrulation?

Answer 15

Basics:

• Epiblast & Hypoblast –> Ectoderm/Mesoderm/Endoderm

Note:

• Arguably the most important part of embryogenesis!

Process:

1. Formation of “primitive streak” on surface of epiblast
   
   • becomes a narrow groove
   • induces formation of secondary (intraembryonic) mesoderm
   • causes gastrulation
   • allows us to distinguish:
     
     • dorsal/ventral
     • head/tail
     • left/right
2. Cells of epiblast migrate towards primative streak
   
   • primitive streak + primitive node appear in the ectodermal layer of bilaminar disc
   • primitive node –> formation of notocord
3. Epiblast cells invaginate beneath the epiblast at primative node
   
   • spread out in between epiblast & hypoblast
4. Some cells displace hypoblast, forming endoderm
   
   • others lie in between the epiblast, forming mesoderm
   • remianing in epiblast, form ectoderm

Question 16

What is the Primitive streak?

Answer 16

Basics:

• Primitive streak = induces formation of 2ndary (intraembryonic) mesoderm
  
  • causes gastrulation
• Primative node = induces formation of the notocord

Both Streak & Node:

• Appear in the ectodermal layer of the bilaminar disc

Question 17

Early Embryonic Flow Chart of Events

Answer 17

Question 18

What 2 Types of Folding does an Embryo Undergo?

Answer 18

Basics:

1. Lateral Folding
   
   • Disc –> Cylinder
2. Cephalocaudal Folding
   
   • Cylinder –> Cylinder w/ end foldings
     
     • Head/Tail

• Folding + Flexion = result in amniotic cavity completely surrounding the developing embryo

Embryonic Folding:

End of 3rd Week:

• Flat embryonic disc –> cylindrical
  
  • head fold
    
    • doral part of yolk sac = fore gut
  • tail fold
    
    • dorsal part of yolk sac = hind gut
  • 2 lateral folds
    
    • dorsal part of yolk sac = mid gut
• Growth of neural tube
  
  • –> head/tail folds
• Growth of somites
  
  • –> lateral folds
• Margin of the 4 folds = primitive umbilical opening

Notes:

• Mid gut = continuous w/ ventral part of the yolk sac
  
  • yolk stalk, vitelline duct or vitellointestinal duct
  • yok stalk disappears

Question 19

What is Gastroschisis?

Answer 19

Gastroschisis

• Failure of lateral folds to fuse
  
  • loops of intestines herniate into amniotic cavity

Question 20

What is Ectopia Cordis?

Answer 20

Ectopia Cordis

• Failure of lateral folds to fuse
  
  • Heart = partly or completely exposed

Question 21

What are the 2 types of Spina bifida?

Answer 21

Basics:

• defect in fusion of vertebral arches
  
  • vertebral canal = open
• tufts of hair may be present
• no neurological deficiencies

Occulta

• No budlge over the bony defect
• Tuft of hair may be present

W/ Meningocele

• Budlge over defect
• Contains meninges & CSF in the subarachnoid space

Question 22

How does Notochord Formation occur?

Answer 22

Basics:

• Where: Primative Node
  
  • cephalic end of the primative streak
• How: Invagination of epiblast cells

Process:

• grows forwards from the primitive node
• between the ectodermal & endodermal layers of the embryonic disc
  
  • stops at prechordal plate

Notochord:

• Shape:
  
  • Cylindrical rod shaped structure
    
    • induced by Primitive Node
• Location:
  
  • btw ectodermal & endodermal layers of embryonic disc
  • extends from primitive node to prechordal plate
• Forms basis for the vertebral column
  
  • Induces overlying ectoderm to form the:
    
    • Neuroectoderm & Neural Plate
• Destiny:
  
  • disappears
  • remnant = nucleus pulposus of IVD
  • abnormal persistance = chordoma
    
    • malignant tumor

Question 23

How does the Formation of the Neural Fold Occur?

Answer 23

Neurulation (formation of neural tube)

• Notocord + paraxial mesoderm = induce overlying ectoderm on dorsal aspect of embryonic disc
  
  • lateral margins of neural plate = elevate
    
    • form neural folds
• Ectoderm becomes continuous again across the dorsal surface
• Clusters of neural crest cells - migrate dorsolaterally