Congenital Abnormalities 2

Question 1

What is a syndrome caused by a translocation?

Answer 1

Sex-reversal syndrome

Question 2

What are types of gene mutations that can result in a loss or gain of function?

Answer 2

1) Mutations in coding regions e.g. Apert’s syndrome (craniosynostosis), achondroplasia
2) Mutations in promoter/enhancer sequences e.g. Lieberberg syndrome, sex-reversal syndromes

Question 3

What is hypohidrotic ectodermal dysplasia?

Answer 3

• Genetic skin disease
• Affects ectodermal organs e.g. hair, sweat glands, teeth (missing hair and not properly formed teeth, reduced ability to sweat due to no sweat glands )
• In females the mammary gland is affected causing decreased milk production
• The problems with sweat glands in the baby can lead to heat intolerance as they can’t regulate their temperature
• Can’t go out in the day bc can’t thermoregulate
• Mouse models - injection of Eda protein can reduce some aspects of syndrome

Question 4

When are embryos most vulnerable to pathogens?

Answer 4

In the 1st trimester

Question 5

What pathogens are embryos vulnerable to?

Answer 5

1) Toxoplasma parasite
2) Other viruses e.g. parvovirus
3) Rubella virus
4) CMV
5) HSV
6) HIV, syphilis, zika

Question 6

What is the leading known preventable cause of mental and physical birth defects?

Answer 6

Alcohol

Question 7

What are the clinical features of fetal alcohol syndrome?

Answer 7

1) Microcephaly
2) Short palpebral features (eye openings)
3) Epicanthal folds (folds over eyelids)
4) Low nasal bridge
5) Short nose
6) Flat mid face
7) Micrognathia (small jaw)
8) Thin upper lip
9) Smooth philtrum
10) Behavioural problems?

Question 8

How many births are affected by fetal alcohol syndrome?

Answer 8

1 in 500 (50% of women of child bearing age consume alcohol) - binge drinking = 48g of alcohol (1 unit = 8g)

Question 9

How does fetal alcohol syndrome arise?

Answer 9

• Embryos can’t handle their drink as they have low fetal alcohol dehydrogenase activity
• This cause molecular, epigenetic, metabolic and cellular changes
• Brain is the last thing to develop
• If mother drinks throughout pregnancy, this affects the CNS causing behavioural problems (also happens with IV drug users)

Question 10

When do many of the fetal alcohol syndrome defects occur?

Answer 10

Within the first 6 weeks of pregnancy

Question 11

Why do neural tube defects develop?

Answer 11

Severe congenital malformations resulting from lack of/incomplete neural tube closure

Question 12

What is spina bifida occulta?

Answer 12

• “Closed” spina bifida
• Malformation of one or more vertebrae
• In most cases, it causes no problems
• Neural tube is ok just defect around it e.g. tethered spinal cord (v important to spot via MRI)

Question 13

What are the neurocutaneous signatures of spina bifida occulta?

Answer 13

• Pigmented nevus (mole)
• Hairy tuft
• Angioma
• Lipoma
• Dimple

Question 14

What is myelomeningocele?

Answer 14

• The most severe type of spina bifida
• The baby’s spinal canal remains open along several vertebrae in the back, allowing the spinal cord and protective membranes around it to push out and form a sac in the baby’s back
• Protruding meninges and spinal cord
• Defect at and below lesions

Question 15

What are the clinical features of myelomeningocele?

Answer 15

• Open lesions - bloody, undeveloped
• Lack of sensation
• Incontinence
• Unable to walk
• 10% babies die in first year
• In utero surgery required

Question 16

What defects is myelomeningocele linked to?

Answer 16

1) Hydrocephaly (build up of CSF compresses the brain)

2) Gut and genital tract defects

Question 17

What is spina bifida and what causes it?

Answer 17

• Incomplete closure of the spinal cord (split spine)
• Caudal neuropore doesn’t close
• Caused by defects in early neural development

Question 18

How is spina bifida identified?

Answer 18

Fetal abnormality US

Question 19

What is a complication of spina bifida?

Answer 19

Arnold-Chiari malformation

• The cerebellum extends into the foramen magnum
• The back of the brain is forced down through the skull into the top of the spinal canal

Question 20

How is fetal surgery done to treat spina bifida?

Answer 20

• Fetal surgery to close the neural tube before 26 weeks can reduce the severity of the defect in some cases and prevent Arnold-Chiari malformation
• Centre in UCL to do this surgery
• Otherwise surgery is carried out after birth
• Problem - mother’s are pressurised to have surgery when they may not want to have it

Question 21

Why does fetal surgery for spina bifida have to be done before 26 weeks?

Answer 21

• Toxic substances e.g. urine in the amniotic sac would cause the neural tube to degenerate
• Once it has degenerated it can’t be repaired
• Therefore the neurons would degenerate if exposed to amniotic fluid beyond 26 weeks

Question 22

What vitamin is preventative of NTDs?

Answer 22

Folic acid

Question 23

What does folic acid do?

Answer 23

• It is required for the synthesis of DNA bases esp. thymine and therefore DNA replication and cell division
• Also required for amino acid metabolism and a number of single-carbon-transfer reactions

Question 24

How does folic acid affect NTDs?

Answer 24

• Folate deficiency predisposes susceptible people

- Therefore taking folate before pregnancy decreases the risk for some individuals

Question 25

What is the recommended intake of folic acid to prevent NTDs?

Answer 25

• Women should take a daily dietary supplement of 0.4mg of folic acid when trying to conceive
• This may reduce NTD by as much as 70%

Question 26

What medication is contraindicated in pregnancy?

Answer 26

Valproic acid (Sodium valproate)

Question 27

What is valproic acid used to treat?

Answer 27

• Manic episodes associated with bipolar disorder
• Migraine prophylaxis
• Epilepsy

Question 28

Why is valproic acid contraindicated in pregnancy?

Answer 28

• Valproic acid slows the closing of the neural tube, so increases the risks of it not closing at all
• It can cause ‘minor malformations’ e.g. small fingers and toes or ‘major malformations’ e.g. spina bifida or a cleft palate

Question 29

What are problems in mesodermal development linked to?

Answer 29

Skeletal and limb patterning defects

Question 30

When is the embryo most susceptible to teratogens/teratogenesis and infectious agents?

Answer 30

During the embryonic period (3-8 weeks, peak at 5 weeks) when most organs are developing

Question 31

What are two examples of skeletal defects?

Answer 31

1) Spondylocostal dysostosis - defect in formation of somites (paraxial mesoderm)
2) Achondroplasia - defect in development of cartilage (mesoderm)

Question 32

What is used to make different digits?

Answer 32

Sonic hedgehog, morphogen gradient, zone of polarising activity (ZPA)

Question 33

What does gain of Shh anteriorly lead to?

Answer 33

Digit duplication (two sets of toes on one foot)

Question 34

What is Liebenberg syndrome?

Answer 34

Arm to leg transformation (arm looks like leg due to Pitx1 being expressed in the developing arm as well)

Question 35

How does Liebenberg syndrome happen?

Answer 35

1) In normal development, expression of the transcription factor, Pitx1 instructs the developing limb to form a leg
2) In contrast, another transcription factor, Tbx5, instructs the developing limb to become an arm
3) In these families, the transcription factor Pitx1 is expressed in both the developing arm and leg - this is due to a mutation in the promotor sequence that determines where Pitx1 is expressed
4) In this example, the mutation has resulted in Pitx1 being expressed in the wrong location (in the developing arm) in addition to its normal expression the developing leg

Question 36

What are four endodermal defects?

Answer 36

1) Lung aplasia - missing lung
2) Oesophageal atresia/fistula - problem with the division of trachea and oesophagus so baby feeds can go into the lung (can see on US)
3) Omphalocoele - gut outside body cavity, often associated with T13
4) Gastroschisis - intestines outside body, abdominal wall does not form completely
5) Midgut hernia
6) Atresia and malformation defects

Question 37

Is the liver big or small in the fetus and why?

Answer 37

The liver is very large in the fetus bc it makes most of the blood before the bone marrow develops

Question 38

What are do neural crest cells (multipotent cells) give rise to?

Answer 38

PNS, part of the heart and most of the face

Question 39

What should you think if you see a facial defect?

Answer 39

That maybe the baby has an underlying neural crest related heart defect

Question 40

What are 5 examples of defects in neural crest cell development (neural crest disorders)?

Answer 40

1) Bilateral cleft lip
2) Pierre-Robin sequence - underdevelopment of lower jaw
3) Hirschsprung’s disease
4) Neurofibromatosis - nasty child tumour
5) Neuroblastoma

Question 41

How does Hirschsprung’s disease develop?

Answer 41

• Caused by failure of the vagal neural crest to migrate into posterior regions of the gut - nerves in gut don’t form properly
• As a consequence, the bowel’s contents build up proximal to the affected region, causing it to expand
• Part of the gut (colon) is not undergoing peristalsis bc it has no enteric nervous system

Question 42

When do most birth defects arise?

Answer 42

Between 3-8 weeks of embryonic development

Question 43

What are the pre-natal risk factors for brain development?

Answer 43

1) Maternal health
2) TORCH - exposure to specific set of viruses esp. congenital rubella, measles and its complications in childhood, AIDS
3) Maternal substance misuse
4) Maternal age e.g prematurity in teenage mothers or older mother births
5) Maternal mental health
6) Environmental toxins

Question 44

What are the post-natal risk factors for brain development?

Answer 44

1) Birth complications
2) CNS infections e.g. sepsis, meningitis
3) Nutrition
4) Socio-emotional
5) Environmental toxins incl. lead exposure

Question 45

What defect can occur at the induction (dorsal) phase of brain development in weeks 3-4 and describe its features?

Answer 45

Myelomeningocele (spina bifida)

• Failure of closure of the spinal cord
• Arises from genetic or nutritional problems
• Results in motor and perceptual deficits

Question 46

What defect can occur at the induction (ventral) phase of brain development in weeks 5-6 and describe its features?

Answer 46

Holoprosencephaly

• Failure to form two hemispheres of the brain
• Failure of forebrain to divide and develop
• Associated with other midline and facial defects, trisomy 13
• Often genetic origin
• Severity varies from not being compatible with life to more mild mental retardation
• Usually incompatible with life

Question 47

What defect can occur at the proliferation phase of brain development in months 2-5 and describe its features?

Answer 47

Microencephaly

• Early cessation of cell division
• Abnormally small head
• Genetic or trauma factors e.g. infection, fetal alcohol syndrome, valproate
• Associated with low intellectual abilities/learning disabilities

Question 48

What are causes of atypical development (developmental differences can be caused by influences occurring at several time points in a child’s life)?

Answer 48

1) Antenatal exposure - teratogens, maternal drug and alcohol abuse
2) Poor maternal health
3) Child abuse/neglect
4) Genetic factors
5) Nutrition
6) Perinatal complications - prematurity, birth complications, neonatal illness (sepsis/stroke)
7) Infections
8) Unknown
9) Paternal health - need to also ask about parent who isn’t there

Question 49

Describe features of the new born

Answer 49

• All nerve cells are present but in an undeveloped state
• Growth and development occurs in an experience dependent way
• Perceptual/motor development - initially limited repertoire but rapid and orderly development

Question 50

What is amblyopia?

Answer 50

• When the anatomy of eye is normal but squint is present because of problem with eye muscles
• Information from that eye doesn’t get to the visual cortex so the visual nerve pathway can’t develop
• The brain uses information from the good eye and discards information from the lazy eye
• If it is picked up too late it will not make a difference so there is a critical period - same for hearing impairment, want to put cochlear impact in early

Question 51

What does ACE mean in child development?

Answer 51

Adverse childhood experiences

Question 52

What is anencephaly?

Answer 52

• Incomplete closure of the upper end of the neural tube (no brain)
• Brain dissolves in amniotic fluid, cranial neuropore doesn’t close

Question 53

How does the CNS develop?

Answer 53

Neural fold to neural tube (at 21-28 days) to spinal cord and brain

Question 54

What is a sacrococcygeal teratoma?

Answer 54

• Remnant of primitive streak
• All 3 cell line derivatives in one tumour, contains tissue from all 3 germ layers
• Can take such a big blood supply from the fetus that it can cause fetal heart failure
• Massive bulge/tumour on baby’s/fetus’ body

Question 55

What are neural tube defects?

Answer 55

1) Spina bifida

2) Anencephaly

Question 56

What is the most common problem causing congenital heart defects?

Answer 56

Formation of chambers

Question 57

What do we need to do to reduce the number of teratogenic pregnancies?

Answer 57

• Need to reduce the number of drugs given to women in early pregnancies unless know to be safe for a long time e.g.. not aspirin?
• No register of IVF pregnancies and what they are taking around conception

Question 58

What is DES (diethylstilbestrol)?

Answer 58

• Synthetic oestrogen given in the first trimester for anti-emetic
• Female offspring developed very early cervical and vaginal cancers in teens and early 20s