L10-11. Embryology

Question 1

Describe the formation of the single cell that forms the human. What is the term for this cell?

Answer 1

ZYGOTE

The sperm and ova meet at the most distal part of the fallopian tube in a process called FERTILISATION.

This forms the zygote which moves into the uterus bounding along the ciliated wall of the fallopian tube.

Question 2

Describe the process between the zygote and the cavitated blastocyst

Answer 2

The zygote undergoes numerous divisions:
1 division per 24 hrs initially and accelerating with time

By 3 days = 16 cells the embryo is known as the MORULA
By 4 days = The BLASTOCYST forms and begins to look asymmetric (cells take on different shapes) as cavitation forms (hole is called the blastocoele)

Question 3

What is a congenital disorder?

What are the two major types?

Answer 3

A disorder that exists at birth or before birth

1. Structural Deformities
2. Functional disorders

Question 4

What are some causes of congenital abnormalities?

Answer 4

Genes
Chromosomes
Intrauterine environment
Teratogen exposure
Metabolic requirements

Question 5

Describe the structure of the blastocyst?

Answer 5

It has 2 cell types:
Outer ring layer = TROPHOBLAST = forms the extraembyronic structures (including the placenta)
INNER CELL MASS = holds the future embryo

Question 6

When does the blastocyst implant into the uterine wall? Describe this process

Answer 6

At around day 5-10

It sinks into the wall and is enveloped by the uterine epithelium forming the interface between the mother (waste and nutrient transport)

Question 7

Describe what happens to the inner cell mass as it implants into the uterine wall

Answer 7

It begins to compact (cells get closer together) and also cells begin to DIFFERENTIATE

they differentiate into a two layered structure called the epiblast on top and the hypoblast below

Question 8

What is the primitive streak and where and how is it formed?

Answer 8

It is formed just after the differentiation of the two inner cell mass layers at the centre of the embryo (dividing the embryo in half in the saggital plane.

It is formed by cells of the epiblast migrating towards the centre and into one another forming a small bump

Question 9

Describe the process of gastrulation

Answer 9

When the cells of the epiblast migrate to form the primitive streak, these cells eventually push against each other and burrow into the hypoblast and in between the two layers.

This forms a third layer in between the bilaminar disc.

As the cells migrate, they differentiate further and there is the formation of the 3 germ layers

Question 10

What are the three germ layers?

Answer 10

Ectoderm
Mesoderm
Endoderm

Each layer gives rise to distinct lineages of tissues in the adult body

Question 11

What is neurulation? What is the first structure to form to begin this process?

Answer 11

It is the formation of neural elements in early embryogenesis.

The first structure to appear is the NOTOCHORD - by the further differentiation of the cells in the centre of the mesoderm = a core just under the primitive streak

Question 12

What is the purpose and fate of the notochord?

Answer 12

Its main purpose is in differentiation (doesn’t have much role or function in the adult except in some formation of the IV discs)

In embryogenesis: the notochord is important to organise the embryo into left, right, top and bottom

Question 13

What occurs as a consequence of the formation of the notochord?

Answer 13

The notochord induces a change/differentiation in the ectodermal cells just above it (causes a ‘thickening’ of sorts) leading to the formation of a NEURAL PLATE

Question 14

What happens to the neural plate cells of the ectoderm?

Answer 14

They dive in and burrow into the mesoderm and form a ting like structure called the neural tube along the length of the embryo

Question 15

The neural tube zips up on itself to form a closed tube. As it does so what happens to some of the cells of the ectoderm?

Answer 15

They break off in the process and fly out into the mesoderm and away from the neural tube (acts like a fourth germ layer).

They are known as the neural crest cells and they form and differentiate into their own tissues.

Question 16

What does the neural tube go on to eventually form?

Answer 16

The brain and the spinal chord

Question 17

What are some derivatives of the neural crest?

Answer 17

Dorsal root ganglia
Sympathetic and parasympathetic ganglia
Enteric ganglia
Schwann cells
Melanocytes (pigment cells of the skin)
Dentine (central part of the teeth)
The MUSCLE, CARTILAGE and BONE of the SKULL, JAW, FACE and PHARYNX

Question 18

Describe the origin and formation of the face

Answer 18

As the neural tube closes (from the top to bottom) the neural crest cells migrate from the back of the head to across the lateral sites to meet each other in the anterior midline.

Question 19

Describe neural crest defects: cleft lip and palate

Answer 19

Occurs in 1:1000 live births

Migration of cells is very difficult (long distant migration that requires very tightly regulated signalling)

If something goes wrong then the cells are unable to meet in the midline and form an incomplete face

Question 20

What are some derivatives of the mesodermal layer?

Answer 20

Dermis (not epidermis)
Muscles
Skeleton
Urogenital Tract
Heart and blood vessels
Wall of the gut and respiratory tract
Haemopoetic tissue (blood)
Pleura, pericardium and peritoneum

Question 21

What is the difference between the terms mesoderm and mesenchyme?

Answer 21

Mesoderm describe from which germ layer tissues are derived.

Mesenchymal refers to the shape and behaviour of cells - loose and independently moving, free with no attachments to its neighbouring cells (which is opposite to epithelial which means connected to one another)

Mesoderm cells often form mesenchymal tissue but they are not mutually exclusive terms

Question 22

What are the three zones of the mesoderm?

Answer 22

They are distinct zones and they also behave differently to one another:

1. Paraxial (medial) - close to midline
2. Intermediate - narrow zones
3. Lateral - on the edges

Question 23

What structures arise from the paraxial mesoderm?

Answer 23

Dermis of the skin
Axial skeleton
Axial limb and muscles

Question 24

What structures arise from the intermediate mesoderm?

Answer 24

Urogenital System

Question 25

What structures arise from the paraxial mesoderm?

Answer 25

Ventrolateral body wall
Limb skeleton
Visceral pleura, peritoneum and pericardium
Blood vessels and blood forming tissue
Heart
Wall of the gut and respiratory tube

Question 26

What forms in the flat sheet of paraxial mesoderm on either side of the neural tube?

Answer 26

Bumps or swellings of cells called SOMITOMERES that appear progressively down the length of the mesoderm (from rostral to caudal end)

Question 27

What happens at the 20 somitomere stage?

Answer 27

The 8th pair of somitomeres becomes larger and cells that make it up differentiate to the point that the somitomere separates itself for form a SOMITE

Once this occurs there is progressive replacement of the somitomeres into somites in the caudal direction

Question 28

What is the importance of this somite formation only occuring from the 8th pair of somitomeres onwards?

Answer 28

Somitomeres form the head whilst the somitomeres (somites) from the 8th onwards form the neck and body (vertebral column)

Question 29

There is a further differentiation of the somites into the three layers. Describe this zone formation

Answer 29

The somite splits in two: sclerotome medially and the dermomyotome laterally

The dermomyotome then splits into two zones: dermatome laterally and myotome medially (that separates it from the sclerotome)

Question 30

What do each of the zones of the somite give rise to?

Answer 30

Sclerotome: axial skeleton (bone and cartilage)

Myotome: axial muscles from medial, appendicular (arm and leg) muscles and body wall musculature from the lateral

Dermotome: dermis of the skin

Question 31

Describe limb development

Answer 31

Limbs grow out in a process similar to budding, they extend out from a bump of the myotome.

As cells bud out, the outer layer of surrounding ectoderm is pulled along with it (nervous structures)

Question 32

What is the limb field?

Answer 32

A patch of mesoderm that has the capacity to form the limb.
It is SELF CONTAINED (highly specialised patch) meaning that transplantation of this whole patch of cells onto another embryo can cause a whole limb to arise from it. - removal of the free limb patch can be compensated for by surrounding tissue (peribrachial tissue) - removal of this means no compensation.

Question 33

What happens as the limb starts to grow in terms of signalling processes?

Answer 33

The ectoderm begins to take over sending signals upwards to form the skin and downwards into the mesoderm - becomes the controlling factor

Question 34

Describe digit development

Answer 34

The feet and hands start as flat, symmetrical discs

Digits are sculpted into this disc by a process of apoptosis to free out the finger

Question 35

What is a consequence of dysfunction of the programmed apoptosis in digit development?

Answer 35

Webbing of syndactyl (fused fingers)

Question 36

Describe limb abnormalities

Answer 36

Occur in 1:500 live births
Can be due to genetic problems or due to mechanical problems (eg. the limb protrudes out onto the wall of the uterus or the uterine wall impacts the ectoderm which is the control and thus control becomes haphazard).
Thalidomide drug

Question 37

What are the derivatives of the endoderm?

Answer 37

Epithelial tissues:

GIT, RT, Tonsils, thyroid and parathyroid, Thymus, liver and pancreas

Question 38

What is important about the relationship between the endoderm and mesoderm?

Answer 38

Often mesoderm is required to complete the tissues of the endoderm: very intermingled mixtures of tissue

Question 39

Describe the formation of the coelum

Answer 39

The lateral mesoderm splits into two parts: the somatic which pairs with the ectoderm and the splanchnic which pairs with the endoderm.

The lateral sides of the embryo pinch in towards the centre and brings together the two sides of the splanchnic mesoderm to meet at the centre. When they meet they form a ‘purse string’ action that closes off most of the gut tube from the yolk sac below.

The two somatic mesoderm sides also move towards the centre and as they converge into the centre the splachnic cells meet the somatic cells and form the coelum (a cavity around the gut)

Question 40

Prior to three weeks, does the gut tube have any openings? (with the exception of communication with the extraembryonic coelum/yolk sack?)

Answer 40

No - there is no moth or anus yet at this stage

Question 41

Describe the formation of the mouth

Answer 41

The oral pit = stomadeum

the oral plate separating the foregut from the somadeum breaks forming the oral cavity

Question 42

Why is the development and opening of the anus a little later in the process?

Answer 42

The anal pit = proctodeum

The anal end of the gut tube ends at a blind ending called the cloaca and the anus itself is sealed by the CLOACAL MEMBRANE (made of both endo and ectoderm).

Here the urogenital and the gut open together - there is a need to separate them first

Question 43

Describe the formation of the anus

Answer 43

Coming off the gut is another branch called the ALLANTOIS.

Between the alllantois and the hind gut is the URORECTAL SEPTUM which is a piece of mesoderm that

The cells of this septum grow and extend back eventually connecting with the cloacal membrane that is blocking the proctodeum. Thus it divides the proctodeum into the anus and the opening of the urogenital tract.

Question 44

What does the allantois give rise to?

Answer 44

The bladder and the urogenital tract

Question 45

What are the pharangeal arches?

Answer 45

Gill-looking structures on either side of the pharynx. They are never gill-like in function.

They are modified to form the jaw, blood vessels, muscles of mastication and facial movement, middle ear, eustachian tube, hyoid, larynx, pharynx and the glands.

Question 46

The pharynx is lined with endoderm and they give rise to strctures. Each structure is associated with a paryngeal pouch which sits between the pharyngeal arches. What are the distinct pouches?

Answer 46

Arch 1: eustachian tube and external ear canal
Arch 2: palatine tonsil
Arch 3: inferior parathyroid and epithelial thymus
Arch 4: superior parathyroid, thymus and postbranchial bodies

Question 47

From where embroyonically is most of the heart from?

Answer 47

The lateral (splanchnic) mesoderm

Question 48

Describe the formation of the heart

Answer 48

Initially two bilateral tubes (endocardial tubes) are formed by the splanchnic mesoderm and they are brought together in the midline.
They fuse together to form the heart

Question 49

Describe the fusion of the endocardial tubes

Answer 49

Tubes connect in the midline and fuse. This fusion involves the breakdown of connections forming a single tube.
BUT the rostal and caudal ends keep their two separations (form the inflow and outflow tracts)

Question 50

Describe the folding of the heart tube

Answer 50

It is an ASYMMETRICAL folding, the tube becomes a U shape and folds over itself forming the different chambers of the heart with coordinated fusion and breakdown of connections.

Question 51

Describe the formation of the left and right ventricles

Answer 51

The intraventricular septum grows as a stalk up towards the base of the heart and eventually closes as membranous parts of the septum

Question 52

Describe congenital heart defects

Answer 52

1:200 live births

Often of no consequence in the fetus: becomes an issue immediately after birth

Commonest 25% is ventricular septal defects: failure to divide the single ventrical into left and right

Question 53

Why does failure of the neural crest cell migration affect development of the heart?

Answer 53

The neural crest cells contribute to structures of the vessels of the heart (they migrate in) - failure of migration results in malformed atrial outflow

Question 54

At one month the gut tube consists of three major parts. What are they?

Answer 54

Foreget
Midgut
Hindgut

Question 55

What is connected to the midgut?

Answer 55

The yolk stalk that connects the midgut to the yolk sac

Question 56

Different parts of the gut are connected to (and eventually supplied by) different blood vessels, what are they?

Answer 56

Foregut: coeliac artery
Midgut: superior mesenteric artery
Hindgut: inferior mesneteric artery

These arteries continue to supply all derivatives off these part of the gut for the rest of life

Question 57

Describe the growth and development of the GIT

Answer 57

It grows as a tube along the length of the fetus.

It begins to buckle and gold in the midgut around the stalk and rotates around the axis of the yolk stalk (and SMA) making the FIRST FOLD of the gut = folds the large intestine over the small intestine

Further elongation and further folding gives rise to the classic intestinal structures

Question 58

What is meant by the ‘normal herniation’ of the GIT?

Answer 58

The gut tube grows at a very quick rate and often it does so too quickly and becomes to big for the body cavity (about week 6-7).

And so the gut pushes into the yolk stalk and spills gut and gut contents into the outside world (natural hernia)

By week 9, the body cavity grows large enough and the gut is retracted back

Question 59

What happens when failure to retract occurs?

Answer 59

Called Omphalocele
often more due to failure to seal the abdominal wall properly
1: 25 000 live births

Question 60

Describe the development of the viscera

Answer 60

The trachea, lungs, liver and pancreas appear as endoderm outpocketings that interact with the mesoderm

Question 61

What is situs invertus?

Answer 61

1:10000 live births
The body organs are arranged as a mirror image: no deficits present

Caused by cilia generating opposite (left to right) spiral currents producing opposite changes that are otherwise completely normal

Question 62

How does the embryo determine left from right?

Answer 62

Anterior-posterior axis is determined at the first cleavage of the zygote

Dorsal ventral axis is set by the blastocyst (where the inner cell mass is is the dorsal)

The left-right axis is set by the primitive groove

Question 63

Describe the development of the urogenital system

Answer 63

Formed from the intermediate mesoderm (except the bladder and urethra which are from the alliantois off the gut tube)

Question 64

Before the development of the definitive kidney, there is the development of structures to form the mesonephros (precursor to the definitive kidney) what is this process?

Answer 64

Pronephros
Forms nephrostomes and pronephric duct
Nephrostomes degenerate and the pronephric duct becomes the mesonephris duct with mesonephric tubes

Question 65

Describe the development of the definitive kidney

Answer 65

The kidney is formed by mesoderm

Mesonephros degenerates leaving the mesonephric duct which grows and buds down the base forming separate kidney and ureters.

Question 66

What is the connection made by the mesonephros and how is it different for males and females?

Answer 66

The mesonephros connects to the developing testes in males and makes the vas deferens. This disappears in females.

Question 67

Describe the development of the external genitalia

Answer 67

Initally identical
The genital tubercle is present after the cloacal has split to form the urogenital opening. The tubercle becomes the clitoris in females and this is it.

In males it becomes the glands of the penis and the shaft is made by sealing together the edges of the urogenital membrane, as it happens the urogenital opening follows to the tip

Question 68

What is Hypsopadiasis?

Answer 68

1:300 where the urogenital folds fuse incompletely to leave a urethral opening on the base of the penis instead of the tip

Question 69

When is all major organogenesis completed by?

Answer 69

The first trimester (3 months)

Question 70

When do the three germ layers appear?

Answer 70

2-3 weeks