Case 14- pregnancy complications

Question 1

Neonate

Answer 1

Infant younger then 28 days

Question 2

IUGR

Answer 2

Intrauterine growth restriction, where growth slows or ceases in-utero. Different to SGA as it applies to neonates with malnutrition and is irrespective of birth weight percentile. IUGR is when growth slows or stops

Question 3

Extreme pre-term

Answer 3

<26 weeks of pregnancy

Question 4

Pre-term

Answer 4

<37 weeks of pregnancy

Question 5

Term (baby)

Answer 5

37-42 weeks of pregnancy

Question 6

Post term

Answer 6

> 42 weeks of pregnancy

Question 7

Small for gestational age (SGA)

Answer 7

Birthweight <10th centile for gestational age

Question 8

Large for gestational age (LGA)

Answer 8

Birthweight >90th centile for gestational age

Question 9

Low birthweight

Answer 9

<2500g

Question 10

Very low birthweight

Answer 10

<1500g

Question 11

Extreme low birthweight

Answer 11

<1000g

Question 12

Placental causes of IUGR

Answer 12

Placental insufficiencies, Pre-eclampsia, Placental Abruption.

Question 13

Foetal causes of IUGR

Answer 13

Multiple pregnancies, Chromosomal abnormalities (trisomy 13, 18 or 21), Major congenital abnormalities (congenital heart disease, neural tube defect, abdominal wall defects) and Rare genetic syndromes.

Question 14

Maternal causes of IUGR

Answer 14

Age, Low socio-economic status, Parity, Inter-pregnancy interval, Previous delivery of SGA / IUGR baby, Substance abuse, Medication, Pre-pregnancy BMI, Assisted reproductive technologies, Medical conditions, Infections (viral).

Question 15

Pre-term risk factors= Previous preterm birth / late miscarriage

Answer 15

Most likely risk factor for preterm baby. Future pregnancies need specialist treatment
Complication= preterm baby, stillborn or neonatal death

Question 16

Difference between preterm and miscarriage

Answer 16

Late miscarriage= 12-24 weeks

Preterm= from >24 to <37 weeks

Question 17

Pre-term risk factors= Cervical surgery

Answer 17

Overview- weakness of cervix, fetus not suspended as well, the pressure can induce early labour. Can happen at any time. Due to procedure on cervix or infection.
Complication- preterm baby / neonatal death

Question 18

Pre-term risk factors= Pre-eclampsia

Answer 18

BP >160 or >110 diastolic with proteinuria. Can cause eclamptic fit and death. Asymptomatic, cured by delivery of the placenta. Usually around 30-34 weeks.
Complications= Preterm baby, eclampsia, maternal and neonatal death, renal failure, IUGR and fetal compromise

Question 19

Pre-term risk factors multiple pregnancies

Answer 19

All multiple pregnancies are high risk and need consultant led care.
Complications- miscarriage and preterm delivery, IUGR, congenital abnormalities, cerebral palsy and disability

Question 20

Pre-term risk factors- IUGR

Answer 20

Failure to thrive in utero. Can occur throughout the pregnancy.
Complications= increased perinatal mortality rates, Cerebral palsy rates, emergency C section, Meconium aspiration, Stillbirth, Hypoglycaemia and Hypocalcaemia

Question 21

Biological consequences of foetal growth restriction

Answer 21

Poor growth
Cerebral palsy, gross motor and minor neurological dysfunction.
↑ chance of developing diabetes, hypertension, obesity, metabolic syndrome, coronary heart disease before adulthood.

Question 22

Psychological consequences of foetal growth restriction

Answer 22

Lower levels of intelligence.
Lower scores on cognitive testing.
Behavioural problems: hyperactive behaviour, attention deficit hyperactivity disorder.
Poor perceptual performance, poor visuo-motor perception.

Question 23

Social consequences of foetal growth restriction

Answer 23

Poor academic performance
Difficulties in school or requiring special education
Low social competence

Question 24

Rooting reflex

Answer 24

Stroking an infants cheek or corner of their mouth will cause the infant to turn their head and open their mouth.

Question 25

Babkin reflex

Answer 25

A neonate whose palms are firmly stroked will open its mouth, close its eyes, and tilt its head forward

Question 26

Plantar gasping reflex

Answer 26

Stroking the ball of the foot causes the infant to curl their toes and attempt to grab the finger

Question 27

Placing reflex

Answer 27

Hold the infant upright under the arms, close to a table.
Let the dorsal “top” of foot touch the underside of the table.
Note flexing of hip and knee, followed by extension at the hip, to place foot on table
Reflex appears at 4 days after birth

Question 28

Moro reflex

Answer 28

In a sitting position, allow the head to momentarily fall backwards, the infant will symmetrically extend and abduct their arms and open their hands

Question 29

Galant reflex

Answer 29

Suspending the infant ventrally, supporting the anterior chest wall, applying pressure along the thoracic spine causes the infant to flex the trunk and swing their pelvis towards the stimulus

Question 30

List of Problems for Preterm new-borns

Answer 30

1) Temperature control- Hypothermia, skin
2) Respiratory control
3) Circulation- Hypotension, Patent ductus arteriosus, anaemia
4) Gastrointestinal and nutrition- Necrotising enterocolitis, Nasogastric tube feeding and feeding intolerances
5) Brain, Metabolic, Infection, Eyes and Ears

Question 31

Preterm babies- Hypothermia

Answer 31

Causes increases energy consumption which results in hypoxia, hypoglycaemia and failure to gain weight. Increases morbidity and mortality

Question 32

Preterm babies- Skin

Answer 32

Infants have large surface area, skin is thin and permeable, little subcutaneous fat and can’t generate heat by shivering (they use fat thermogenesis to regulate temperature)

Question 33

Preterm babies- Respiratory

Answer 33

1) Respiratory distress syndrome (RDS)- lungs are not fully developed
2) Pneumothorax- overinflation and bursting of alveoli from ventilator when air leaks into the pleural cavity
3) Apnoea, bradycardia and desaturation

Question 34

Preterm baby- Respiratory Distress syndrome (RDS)

Answer 34

Surfactant deficiency which lowers surface tension leading to alveolar collapse and inadequate gas exchange

Question 35

Preterm baby- Patent ductus arteriosus

Answer 35

The ductus arteriosus remains patent in many preterm infants causing oxygenated and deoxygenated blood to mix. Common in RDS. May be asymptomatic or cause apnoea, bradycardia and increased O2 requirements

Question 36

Preterm baby- GI

Answer 36

1) Necrotising enterocolitis- caused by low blood flow/oxygen to the gut. The intestine becomes inflamed, can rupture and be necrotic. ‘Bubble like bowel.’
2) Feeding intolerance- struggles to meet TPN (total Parenteral nutrition) due to lactose intolerance and problems latching

Question 37

Preterm babies- Brain

Answer 37

1) Haemorrhage
2) Post Haemorrhagic hydrocephalus
3) Ventricular dilation
4) Paraventricular leukomalacia

Question 38

Preterm babies- Periventricular Leukomalacia

Answer 38

The white matter around the brain has decreased blood and oxygen causing it to soften. The white matter transmits messages from the nerve cells. Causes problems with movement and body function. Can generate new pathways to reduce the disability

Question 39

Preterm babies- Ventricular dilation

Answer 39

An increased volume of cerebrospinal fluid (CSF) in the cerebral ventricles. Head measurements and USS detect it. Can resolve spontaneously or progress to hydrocephalus and require a ventriculoperitoneal shunt.

Question 40

Preterm babies- Post haemorrhagic Hydrocephalus

Answer 40

Progressive ventriculomegaly caused by disturbances in CSF flow or absorption following intraventricular haemorrhage.

Question 41

Metabolic problems for pre-term babies

Answer 41

1) Hypoglycaemia
2) Electrolyte disturbance- Hypocalcaemia
3) Osteopenia of prematurity- caused by calcium and phosphate deficiency. Causes low density in bones, poor bone growth and fractures

Question 42

Preterm babies- eyes and ears

Answer 42

1) Retinopathy of prematurity- vascular proliferation can lead to retinal detachment, fibrosis and blindness
2) Hearing- less developed

Question 43

Preterm babies- infection

Answer 43

Contributes to bronchopulmonary dysplasia, brain injury and disability

Question 44

Uterine corpus

Answer 44

The top of the uterus. Primarily a muscular (smooth) structure with a small amount of connective tissue. Consists of longitudinal, circular and spiral fibres. Contraction of smooth muscle reduces size of lumen, allowing for delivery. The uterus is densely innervated, muscular contractions are mediated by gestational hormones not nerve fibres. Oxytocin produced in the posterior putuitary gland helps in contraction

Question 45

Cervix

Answer 45

Primarily a fibrous structure with small amounts of smooth muscle, primarily a sphincter. May have an active role in labour. The amount of muscle fibres reduce as you go down the cervix

Question 46

Uterine Quiescence

Answer 46

• HCG and CRH increase in concentration.
• This increases levels of Cyclic AMP
• Inhibits uterine contractility by preventing calcium mobilisation and MLCK activity.
• Decreased Myosin-actin cross bridge cycling, cells are relaxed

Question 47

Effect of Connexin on labour

Answer 47

Prostaglandins promote uterine excitation by facilitating Connexin 43 (Cx43). This produces gap junction proteins which facilitates electrical connections between cells. Allows communication between cells. Towards labour more Cx43 is released. Signalling for contraction is passed from the top of the uterus down which allows coordination in contraction and increasing pressure, allowing delivery of the baby.

Question 48

Initiation of labour

Answer 48

• Progesterone is blocked locally
• Decrease in gap junction protein and Prostaglandin inhibition
• A decrease in the Progesterone/Oestrogen ratio (oestrogen high). This causes upregulation in gap junction activity, Prostaglandin synthesis, Oxytocin receptors and local oxytocin synthesis.
• Decreased activity of cAMP pathway. This increases influx of calcium into the cells, there is increased release of intracellular calcium and increased MLCK activity
• Accelerated cervical remodelling- permits passing of conceptus through cervix
• Fetal adrenocortical activity signals to the mother

Question 49

What causes the cervix to dilate

Answer 49

Pressure from the babies head

Question 50

Cervical remodelling stages

Answer 50

There are 4 overlapping stages- Softening, Ripening/Dilation, Effacement and Postpartum repair

Question 51

Cervical changes at the end of the third trimester

Answer 51

Collagen solubility increases. Collagen organisation decreases. The cervix takes on water and releases inflammatory hormones (Prostaglandins). There is increased pressure from the babies head on the cervix which causes dilation. Effacement is where the cervix shortens, can monitor the progress of labour by recording cervix dilation

Question 52

Labour

Answer 52

Painful, regular contraction with the cervix dilated more then 3-4cm

Question 53

Station- pregnancy

Answer 53

The position of the baby in the maternal pelvis

Question 54

Bishop score

Answer 54

Assess’s changes to the cervix as it goes through labour. When the Bishop score is greater then 6 the womens water can get broken. If less then 6 prostaglandins are given to get the cervix ready for labour

Question 55

Initiation of labour

Answer 55

activity may also stimulate labour.

Question 56

Affect of Progesterone and Oestrogen in stimulating labour

Answer 56

Progesterone- decreases in gap junctions, decrease in Prostaglandin synthesis. Promotes quiescence.
Oestrogen- increases gap junctions, increases prostaglandin synthesis and oxytocin receptors. Increases local oxytocin production. Promotes excitation.

Question 57

The pacemaker cells in the uterus

Answer 57

Are located in the cornual area. Flow of depolarisation goes from top to bottom, the uterine muscle is made of myometrium

Question 58

First stage of labour

Answer 58

3cm to full dilation (10cm), latent phase and active phase. The latent phase is when women are contracting but not regularly, the latent phase can last for days. The active phase of labour is when women are contracting regularly and have dilated more then 3cm.

Question 59

Second stage of labour

Answer 59

Full dilation to delivery of baby, passive phase and active phase. In the passive phase the uterus is contracting, and the baby is moving through the pelvis. Takes an hour or two. In the active phase the women pushes and uses their abdominal muscles.

Question 60

Third stage of labour

Answer 60

Delivery of placenta and membranes, physiological and assisted. The release of oxytocin after delivery and from breast feeding helps delivery. It can also be assisted, which is where the women is given oxytocin and traction is applied to the cord in order to deliver the placenta

Question 61

Widest parts in the pelvis

Answer 61

Pelvic inlet- the transverse diameter

Pelvic outlet- anteroposterior diameter

Question 62

Position of the fetal head in the pelvis

Answer 62

The head enters the pelvic inlet in the Occipito-transverse position. The head rotates in the mid cavity and the head rotate 90 degrees to exit the pelvic outlet in the Occipito-anterior position.

Question 63

Landmark for fetal descent

Answer 63

You measure the babies descent by measuring how many cm it is above the Ischial spine.

Question 64

Moulding- pregnancy

Answer 64

When the fetal banes overlap

Question 65

Attitude of the fetal skull

Answer 65

The attitude of the fetal skull refers to how flexed it is, is the chin on their chest or is it raised up (deflexed position). In normal attitude you can feel the posterior fontanelle and the Sagital suture. If the baby is deflexed, you can feel the anterior fontanelle, if its very deflexed you can feel the babies forehead. Rarely, you have a face presentation.