Genetics

Question 1

How is Down’s syndrome screened for?

Answer 1

• Nuchal Translucency (skin fold thickness behind neck)

- Blood serum markers in mother

Question 2

Why is the nuchal translucency increased in babies with Down’s Syndrome?

Answer 2

• indication that lymphatics are developing too slowly

=> gap is too large

Question 3

How is invasive genetic testing done whilst the foetus is in utero?

Answer 3

• need to test tissue with same genetic makeup as the baby

i. e. chorionic villus sampling of placenta OR amniocentesis

Question 4

When can chorionic villus sampling and amniocentesis take place?

Answer 4

CVS - 11.5 weeks

Amniocentesis - 15 weeks

Question 5

What is Non Invasive Prenatal Testing?

Answer 5

Taking mothers blood and testing for free foetal DNA

- this can get into mothers circulation via placenta

Question 6

What can non-invasive prenatal testing look for?

Answer 6

• sex of baby
• trisomy

OCCASIONALLY

• chromosome deletions
• single gene transfers

Question 7

What is meant by confined placental mosaicism?

Answer 7

• trophoblasts divide quickly => develop more abnormalities than cells that go on to become blastocyst
  => Placenta may have chromosome abnormalities that the baby does NOT have

Question 8

If NT, serum markers in the mothers blood and NIPT indicate a high risk of Trisomy 21, what is the percenatge risk of the baby having this condition?

Answer 8

99%+

Question 9

How do geneticists test mothers blood in NIPT and confirm a high suspicion of trisomy 21?

Answer 9

• count number of each chromosome i.e. 1,2,3 etc
• Count number of chromosome 21
  => if out of proportion to number of other chromosomes, this would indicate T21

Question 10

NIPT can also be used for what other genetic conditions?

Answer 10

T18 (Edward’s)
T13 (Patau’s)

Also Turners 45X and Kleinfelters 47XXY

Question 11

What does NIPT reduce the risk of?

Answer 11

Miscarriage due to amniocentesis

Question 12

Describe the appearance of a baby with Down’s Syndrome ?

Answer 12

• short fingers
• round face
• large tongue
• epicanthic folds

Question 13

What are the benefits of an antenatal genetic screening test?

Answer 13

• identify and treat early

- identify if other family members are at risk

Question 14

Why is there a debate surrounding screening for Down’s Syndrome in pregnancy?

Answer 14

• there is not additional benefit to treating early

- HOWEVER people do say that early termination option for mother may be a benefit to the child

Question 15

Up to what gestation can a mother choose to terminate her baby who is at risk of down’s syndrome?

Answer 15

NO LIMIT

- if risk of serious abnormality to child or to health of the mother

Question 16

WHat is anencephaly, and why is early diagnosis significant?

Answer 16

• no brain/head development
• baby MAY progress to full term (may be stillborn due to labour)
• parents need to psychologically prepare for appearance and limited survival of baby

Question 17

If a family do not wish to proceed with a termination after a difficult genetic diagnosis in their baby, what other option do they have?

Answer 17

• carry baby to term

- organ donation

Question 18

How does a baby with T18 (Edward’s) appear, and how long do babies with this condition survive?

Answer 18

• small baby with smal facial features

- life limited => many don’t survive for long after birth (virtually none within 1 year)

Question 19

Is Down’s Syndrome considered a “severe” genetic disease?

Answer 19

• Not necessarily due to variable presentation
• parents may not be equipped do deal with any of these

They can have:

• cardiovascular disease
• behaviour issues
• low IQ requiring lots of support
• multiple surgeries -> time in ICU
• increased incidence of some cancers

Question 20

If a US scan indicates a hand abnormality, what must you be aware of?

Answer 20

• is this part of another condition/syndrome?

- e.g. DiGeorge, Thrombocytopaenic Absent Radius etc

Question 21

What criteria do patients make a Termination of Pregnancy decision upon?

Answer 21

• social/religious views
• previous experience
• perception of disease

Question 22

What is NIPT eventually going to be able to analyse?

Answer 22

Chromosome Karyotype

Question 23

What invasive genetic testing is carried out on the chorionic villus sample of on an amniocentesis sample?

Answer 23

• Chromosome Microarray (1st Line)
• Single Gene changes
  => PCR
  => Next Generation Sequencing

Question 24

What is the problem with chromosome microarray?

Answer 24

Cannot pick up balanced translocations

- only identifies EXTRA or MISSING genetic material

Question 25

What can Chromosome Microarray be used to identify?

Answer 25

• Trisomy
• Foetal Abnormalities
• Unbalanced Translocations

Question 26

What is the disadvantage of PCR?

Answer 26

• you need to know where to look within 30,000 genes
• cannot sequence ENTIRE genome

e.g. if baby is thought to display Myasthenia Gravis symptoms, then this is an NMJ problem and all genes encoding for ACh can be tested

Question 27

Prenatal genetic testing allows the obstetrics team to decide on a high or low risk pathway for a baby’s delivery. TRUE/FALSE?

Answer 27

TRUE

Question 28

What is meant by a “floppy baby”?

Answer 28

• lack of head control
• low tone
• baby lying flat
• no resistance to movement
• easily moved and fall out of grasp

Question 29

Where in the nervous system can a lesion cause a floppy baby?

Answer 29

• cortex
• spinal cord
• anterior horn cells/motor neuron
• NMJ
• Muscles

Question 30

What problems in a baby’s cortex can cause a “floppy baby”?

Answer 30

• Hypoxic Ischaemic Encephalopathy
• Intracranial Haemorrhage
• Cerebral Malformation
• Chromosomal (T21, Prader-Willi)
• Congenital infection (TORCH)
• Acquired Infection
• Peroxisomal disorders
• Drugs (e.g. Benzodiazepines)

Question 31

What common congenital infections are outlined by the acronym TORCH?

Answer 31

TO - Toxoplasmosis
R - Rubella
C - CMV
H - Herpes, HIV, Hepatitis

Question 32

What damages the spinal cord and can cause a “floppy baby”?

Answer 32

• Birth trauma (Breech)

- Syringomyelia (cysts in spinal cord - often causes “mermaid” looking baby => legs stuck together)

Question 33

What conditions due to damage or lesion of the anterior horn cells can cause a baby to appear floppy

Answer 33

Spinal Muscular Atrophy

Question 34

How would you determine that the cause of “floppy baby” was central rather than peripheral?

Answer 34

• normal strength
• normal or increased reflexes
  +/- seizures, dysmorphic features or decreased alertness

Question 35

What investigations would you consider if a “floppy baby” was presented?

Answer 35

Bloods

• genetic
• metabolic
• congenital infection screen
• Creatinine Kinase (increases if muscle breakdown)

Imaging

• US
• MRI

Neuro

• EEG
• EMG (only after 6 months of age)

Question 36

What early intervention can be offered if the disease causing “floppy baby” is picked up early?

Answer 36

• Respiratory support (if breathing muscles struggling)
• Feeding Support
• Physio
• OT
• Parental Involvement

Question 37

If a family history does not highlight a dominant, recessive or X Linked pattern of genetic disease, does this mean that a baby’s condition has no genetic cause?

Answer 37

No

- May be a de novo mutation

Question 38

Why does consanguinity increase recessiveness of genetic disease?

Answer 38

• people reproducing are from same genetic lineage therefore both are more likely to be carriers

Question 39

What disorders can be offered rapid testing after a floppy baby is noticed on examination, yet no abnormalities on Chromosome Microarray?

Answer 39

• Myotonic dystrophy
• Spinal Muscular Atrophy
• Prader-Willi Syndrome

Question 40

What part of the genetic materia is sequenced using next generation sequencing?

Answer 40

• dont need to sequence whole genome
• only sequence exons (2-3%)
• beware of polymorphisms which may not actually cause disease

Question 41

Give an example of a condition which can cause floppy baby but can now be treated?

Answer 41

Spinal Muscular Atrophy

• genetic treatment is targeted at RNA to modify damaged mRNA
• NNT = 1 or 2 => VERY EFFECTIVE
• However, very expensive!