Embryology

Question 1

How long is in-utero human development?

Answer 1

9 months (38-40 weeks) 
split into 3 trimesters

Question 2

What is the name given to the first three weeks of in-utero development?

Answer 2

First trimester is called conceptus/embryo

Question 3

What is the name given to the second trimester (weeks 3-8)?

Answer 3

The embryonic period

Question 4

What is the name given to weeks 9-40 (third trimester) of in-utero development?

Answer 4

Foetal period

Question 5

Describe the first trimester/conceptus

Answer 5

The embryo forms when mitosis of a fertilised egg begins, so even at the 2 cell stage it is technically classed as an embryo

Question 6

What happens during the embryonic period?

Answer 6

Where differentiation starts to happen, cells start establish their future function and organ systems are established.

Question 7

Why is the embryonic period crucial?

Answer 7

The potential for abnormalities or malformation is much higher. Embryo is most vulnerable to environmental agents such as viruses and tetarogens (any agent or factor that causes an abnormality following foetal exposure during pregnancy).

Question 8

Define embryogenesis

Answer 8

The formation and development of an embryo.

Question 9

What is gametogenesis?

Answer 9

Formation of a gamete- ova and sperm

Question 10

What is a gamete?

Answer 10

Gametes are sex cells. A gamete is a cell with a compliment of 23 chromosomes (half a typical somatic cell).

Question 11

Gametogenesis consists of mitosis and meiosis. Define these two processes and state what they lead to.

Answer 11

Mitosis- division of one cell into two identical cells

meiosis- division of a cell into two cells with half the genetic component and half the no.of chromosomes of the original cell.

Leads to genetic variation

Question 12

Define oogenesis

Answer 12

Formation of female gametes

Question 13

When does oogenesis start and finish?

Answer 13

Starts in development of the embryo- primordial germ cells originate in the yolk sac of the embryo.

Ends in menopause

Question 14

What starts to happen to some primary oocytes by week 28-30 as they develop in the embryo?

Answer 14

Some cells have begun dying after week 20.

Primary oocytes begin meiosis but arrest in prophase until puberty.

Question 15

When is reproductive life span determined?

Answer 15

In fetal life

Question 16

Define spermatogenesis

Answer 16

Formation of male gametes- spermatozoa

Question 17

When does spermatogenesis first occur?

Answer 17

At puberty and continues throughout life.

• each cycle takes approx. 64-74days

Question 18

What is the production rate of sperm?

Answer 18

Approx. 6.5 million sperm per gram of testicular tissue/day

This decreases with age

Question 19

What is the genetic outcome of oogenesis?

Answer 19

22+X

Question 20

What are the possible genetic outcomes of spermatogenesis?

Answer 20

22+X or 22+Y

Question 21

What is trisomy 21?

Answer 21

An additional copy of chromosome 21.

Question 22

What is the typical cause of trisomy 21?

Answer 22

nondisjunction

Question 23

Where does most nondisjunction occur?

Answer 23

75% of nondisjunction cases occur during oocyte formation

Question 24

What does trisomy 21 lead to?

Answer 24

Down syndrome

Question 25

Describe in detail the 4 stages of fertilization

Answer 25

1. sperm binds in a human specific interaction with the zona pellucida glycoprotein (ZP3)
2. Acrosomal enzymes released from the sperm head; the sperm digests its way into the egg.
3. Egg and sperm plasma membrane fuse and sperm contents enter the egg
4. sperm entry triggers:

• completion of meisos 2
• release of cortical granules by oocyte

Question 26

How does the release of cortical granules help to prevent polyspermy?

Answer 26

Renders the zona pellucida impermeable to others

Question 27

What is the zona pellucida? Describe it

Answer 27

• An extracellular matrix
• Transparent layer surrounding the oocytee
• specialized
• thought to be formed by oocyte secretions
• contains a no. of glycoproteins

Question 28

What are some of the roles of the Zona Pellucida?

Answer 28

• protection during growth
• helping binding of sperm
• preventing polyspermy
• assists with blastocyst development
• helps prevent ectopic pregnancy

Question 29

Where does fertilization typically occur?

Answer 29

In the ampulla of the uterine tube

Question 30

What is cleavage?

Answer 30

The first cell divisions after fertilization.

Question 31

After fertilization, the zygote undergoes a series of __________ divisions which subdivide the fertilised egg into many smaller daughter cells called _____________ .

Answer 31

• mitotic
• blastomeres

Question 32

What are blastomeres thought to be up to the 8 cell stage?

Answer 32

Totipotent

Question 33

What does it mean if a cell is totipotent?

Answer 33

Capable of forming or becoming all of the different types of cells in the body as well as becoming embryonic and placental cells.

Question 34

Why are pluripotent cells different to totipotent?

Answer 34

Pluripotent can become any type of cell except for embryonic or placental cells.

Question 35

Define mosaicism

Answer 35

Individuals with two or more cell lines with different chromosome compliments

Question 36

Define mitotic nondijunction and state when it can occur

Answer 36

When chromosomes fail to separate equally

Can occur in early division of the zygote from mitosis I

Question 37

What is the cause of mosaicism?

Answer 37

Error in mitosis

Question 38

What is a morula?

Answer 38

16 + blastomeres

Question 39

During cleavage, the overall size of the zygote __________ increase so the cells are getting _________ as they divide.

Answer 39

• doesn’t
• smaller

Question 40

Describe compaction of the morula

Answer 40

• cells confined within the zona pellucida
• maximise available space by coming into closer contact with eachother and begin to form cell junctions
• outer cells (in contact with the zona pellucida) form extensive gap junctions
• fluid enters through ZP

Question 41

what is the trophoblast of the blastocyst?

Answer 41

The embryonic part of the placenta

Question 42

What is the inner cell mass in the blastocyst?

Answer 42

Embryo proper (embryoblast) also amnion and yolk sac.

Question 43

What does the trophoblast eventually become?

Answer 43

The foetal or embryonic part of the placenta

Question 44

What does the inner cell mass do?

Answer 44

Moves to one poll and forms the embryo itself

Question 45

When is the blastocyst fully formed and ready to move to the uterus for implantation?

Answer 45

By days 4-5

Question 46

Describe the process at round about day 5 known as blastocyst hatching

Answer 46

• Blastocyst hatches from the xona pellucida
• There is a series of associated contractions supported by enzymes dissolving the ZP
• Allows increased growth and allows blastocyst to access nutrient secretion from the uterus

Question 47

Why is blastocyst hatching important?

Answer 47

Allows the embryo to interact directly with the endometrial lining of the uterus for implantation.

Question 48

Where and when does implantation typically occur?

Answer 48

• Typically by day 6
• on the posterior or anterior uterine wall

Question 49

When does the process of implantation begin?

Answer 49

When the trophoblast attaches to the endometrial epithelium, usually on the posterior wall but sometimes the anterior.

It needs to invade the endometrial, epithelial and connective tissue to implant.

Question 50

Why is the corpus luteum important? What does it do?

Answer 50

• Structure important in the maintenance of a uterine environment that allows implantation and pregnancy. It does this by releasing a no. of pregnancy related hormones, the primary being progesterone
• Every time a woman ovulates a corpus luteum develops
• presence of progesterone is critical in the maintenance of the lining of the endometrium

Question 51

What is formed at day 7.5?

Answer 51

Bilaminar embryo

Question 52

Formation of the bilaminar embryo is an active process driven by ______________.

Answer 52

trophoblast

Question 53

What does the trophoblast divide into?

Answer 53

• Cytotrophoblast
• Syncytiotrophoblast

Question 54

Define cyto

Answer 54

cell-made up of individual cells

cytotrophioblast is a single cell layer

Question 55

Define syncytium

Answer 55

A single, multinucleated cell

syncytiotrophoblast is a much more extensive, invasive layer which invades into the endometrium to help implantation.

Question 56

What happens during formation of the bilaminar embryo?

Answer 56

The embryo organises itself into 2 layers

• epiblast and hypoblast

Amniotic cavity begins to form

Question 57

What is the epiblast?

Answer 57

The dorsal surface of the embryo which forms the majority of the embryo.

The amnniotic cavity forms the epiblast layer.

Question 58

What is the hypoblast?

Answer 58

The hypoblast is the ventral surface of the embryo

Question 59

In which layer does the amniotix cavity form?

Answer 59

Epiblast layer

Question 60

What does the syncytiotrophoblast do?

Answer 60

Produces Human chorionic gonadotropin (hCG)

Question 61

Why is hCG important?

Answer 61

• Basis for pregnancy tests
• stimulates the corpus luteum which makes it vital for progesterone production.

Question 62

On day 9 of the bilaminar embryo which two cavities are formed from the epiblast and the hypoblast?

Answer 62

Epiblast- amniotic cavity

hypoblast- primative yolk sack

Question 63

What else happens on day 9 of the bilaminar embryo besides the formation of two cavities?

Answer 63

• Implantation is complete and closure by fibrin coagulum.

(made a slight defect in the wall of the uterine cavity to implant. Little defect is essentially plugged by fibrin coagulum (a blood clot))

• Vacuoles appear in the syncytiotrophoblast and unite to form lacunae

Question 64

What do lacunae do?

Answer 64

Communicate with some of the small blood vessels in the uterine wall allowing nutrition to be provided to the embryo by maternal blood.

Question 65

What happens on day 12 of the bilaminar embryo?

Answer 65

• establishment of the uroplacental circulation
• maternal blood flows into lacunae to diffuse to the embryoblast
• extraembryonic mesoderm develops and eventually degenerates
• forming the chorionic cavity

Question 66

What happens on day 13 of the bilaminar embryo?

Answer 66

• Further development of the chorionic cavity and presence of connecting stalk (eventually umbilical cord)
• second wave of hypoblast cells migrate to form the definitive (secondary) yolk sac.

Question 67

Describe the connecting stalk

Answer 67

• from the embryo to the cytotrophoblast
• made up of extra-embryonic mesoderm
• forerunner to the umbilical cord

Question 68

Describe what happens with the implanted embryo

Answer 68

• uteroplacental circulation forms as syncytiotrophoblast extends and contacts maternal blood supply.
• the amniotic cavity is present above the bilaminar embryonic disc and the definitive yolk sac below.
• the chorionic cavity has developed and encircles the entire embryo.

Question 69

What is an ectopic pregnancy?

Answer 69

Where implantation occurs in a location outside of the uterus.

Question 70

Why are ectopic pregnancies dangerous and potentially life threatening?

Answer 70

Danger of rupture and haemorrhage, even leading to maternal death.

Question 71

What are the 3 abnormal sites where ectopic pregnancy may occur?

Answer 71

• ovary
• uterine tube (various locations)
• peritoneum

Question 72

What is the potentially dangerous condition called if you get an implantation lower towards the cervix (internal os)?

Answer 72

Placenta previa

Question 73

What happens at the beginning of week 3?

Answer 73

Primative streak appears in midline at caudal end of epiblast.

Question 74

What two structures are at the cranial end of the primative streak?

Answer 74

• Primative pit
• Primative node

Question 75

What is gastrulation?

Answer 75

Movement of epiblast cells through the primative streak to form the three primary germ layers.

Question 76

What is established by the presence of the primative streak?

Answer 76

The body axes

Question 77

During gastrulation what are hypoblast cells replaced by?

Answer 77

Definitive endoderm

Question 78

What happens during gastrulation at day 16- what do the hypoblast and epiblast become?

Answer 78

• Cells migrate through the primative streak between the epiblast and the definitive endoderm.
• Epiblast becomes the ectoderm
• Hypoblast becomes the endoderm
• To develop a third layer the ectoderm cells start to move and migrate.
• 2 germ layers become 3 (trilaminar embryo)

Question 79

When does gastrulation begin?

Answer 79

Day 15

Question 80

What happens as the mesoderm is formed by the migration of epiblast cells through the primative streak?

Answer 80

Mesoderm spreads out laterally from the streak in all directions to lie between the endoderm and ectoderm except for in 2 specific locations- the oropharyngeal membrane (temporary seal for the oral cavity) and the cloacal membrane. At these locations the original ectoderm and endoderm remain in contact.

Question 81

What is the fate of the ectoderm?

Answer 81

Epidermis of skin

• hair, nails, associated glands

Nervous system

• brain, spinal cord, peripheral nerves

Question 82

Describe the location and structure of the notochord

Answer 82

• Little midline structure
• forms early in the trilaminar embryo
• initally ventral ectoderm and then ventral to the neural plate and neural tube
• required for pattern and differentiation of surrounding tissue
• secretes patterning signal called SHH.
• Secreted protein binds to target cell and activates a signalling pathway which helps tissues develop.

Question 83

What is the fate of the mesoderm?

Answer 83

Becomes divided into 3 regions either side of the notochord.

Question 84

What are the 3 regions the mesoderm divides into?

Answer 84

• Paraxial mesoderm
• intermediate mesoderm
• lateral plate mesoderm
  
  • somatic layer
  • visceral layer

Question 85

What is the fate of the paraxial mesoderm?

Answer 85

• Axial skeleton
• Voluntary (skeletal) muscle
• Parts of dermis (back)

Question 86

What is the fate of the intermediate mesoderm?

Answer 86

Urogenital systems

• kidney and ureter
• gonads and associated structures

Question 87

What is the fate of the somatic part of the lateral plate mesoderm?

Answer 87

• Most of the dermis
• Lining of body wall
• Parts of limbs

Question 88

What is the fate of the visceral part of the lateral plate mesoderm?

Answer 88

• Cardiovascular system
• mesothelial covering of organs
• smooth muscle

Question 89

What is the fate of the endoderm?

Answer 89

• Lining of the gut tube
• lining of the respiratory tract
• lining of the bladder and urethra