PassMed Gastro

Question 1

Rotavirus Vaccine: what condition, what type of vaccine, when taken, time when you can’t take it no more

Answer 1

Rotavirus causes gastroenteritis (more common in developed countries in winter and early spring)

Rotavirus is a major public health problem, accounting for significant morbidity and hospital admissions in the developed world and childhood mortality in the developing world.

A vaccine was introduced into the NHS immunisation programme in 2013. The key points to remember as as follows:

• it is an oral, live attenuated vaccine
• 2 doses are required, the first at 2 months, the second at 3 months
• the first dose should not be given after 14 weeks + 6 days and the second dose cannot be given after 23 weeks + 6 days due to a theoretical risk of intussusception

Other points

• the vaccine is around 85-90% effective and is predicted to decrease hospitalisation by 70%
• offers long-term protection against rotavirus

Question 2

Pyloric stenosis

A 4-month-old baby is brought to the Emergency Department with vomiting for the past 3 days. His mother describes the vomiting as projectile that occurs after every feed and is not settling. On examination the baby appears well. Heart rate is 140bpm, respiratory rate is 36/min, blood pressure is 90/60mmHg, capillary refill is 3 seconds and mucous membranes are slightly dry. He is afebrile

Answer 2

Pyloric stenosis typically presents in the second to fourth weeks of life with vomiting, although rarely may present later at up to four months. It is caused by hypertrophy of the circular muscles of the pylorus. Congenital.

Epidemiology

• incidence of 4 per 1,000 live births
• 4 times more common in males
• 10-15% of infants have a positive family history
• first-borns are more commonly affected

Features

• ‘projectile’ vomiting, typically 30 minutes after a feed = non-billous, increased frequency and forcefulness
• constipation and dehydration may also be present → loss of interest in feeding → weight loss
• a palpable ‘olive’ mass may be present in the upper abdomen
• hypochloraemic, hypokalaemic alkalosis due to persistent vomiting

Diagnosis

• Most commonly made by ultrasound (pylori muscle thickness >4mm, pyloric canal length >17mm) – sensitivity 97%
• U+Es for alkalosis
• olive mass

Complications:

• failure to thrive, oesophagitis, pulmonary aspiration, sandifer syndrome

Question 3

Pyloric stenosis mx

Answer 3

Question 4

Most common cause of diarrhoea and vomiting in children

Answer 4

Rotavirus

Question 5

diarrhoea and vomiting timeline

clinical features dehydration and shock

Answer 5

• diarrhoea usually lasts for 5-7 days and stops within 2 weeks
• vomiting usually lasts for 1-2 days and stops within 3 days

Question 6

Early (compensated) vs Late (decompensated) shock

Answer 6

Question 7

What children are at risk of dehydration?

Answer 7

• children younger than 1 year, especially those younger than 6 months
• infants who were of low birth weight
• children who have passed six or more diarrhoeal stools in the past 24 hours
• children who have vomited three times or more in the past 24 hours
• children who have not been offered or have not been able to tolerate supplementary fluids before presentation
• infants who have stopped breastfeeding during the illness
• children with signs of malnutrition

Question 8

Features suggestive of hypernatraemic dehydration

Answer 8

• jittery movements
• increased muscle tone
• hyperreflexia
• convulsions
• drowsiness or coma

Question 9

When should you do a stool culture?

Answer 9

• you suspect septicaemia or
• there is blood and/or mucus in the stool or
• the child is immunocompromised
• the child has recently been abroad or
• the diarrhoea has not improved by day 7 or
• you are uncertain about the diagnosis of gastroenteritis

Question 10

Management of no evidence of dehydration, and suspected dehydration

Answer 10

The most accurate measure of dehydration is the degree of weight loss during the illness:

• Clinical dehydration: ≥5%
• Shock: >10%

For children with no evidence of dehydration

• continue breastfeeding and other milk feeds
• encourage fluid intake
• discourage fruit juices and carbonated drinks

*50ml/kg every 4 hours ORS

Question 11

Fluid resuscitation

Answer 11

*10ml/kg bolus of 0.9% saline

Question 12

Routine maintenance fluid

Answer 12

NOTE: males rarely need more than 2500mL and females 2000mL per day

Measure electrolytes and glucose when starting IV fluids and at least every 24 hours there after

Question 13

Hypernatraemic dehydration mx

Answer 13

• Oral rehydration solution should be used to rehydrate
• If IV fluids are required, a rapid reduction in plasma sodium concentration and osmolality will lead to a shift of water into the cerebral cells and may result in seizures and cerebral oedema
• So, the reduction in plasma sodium should be slow
• The fluid deficit should be replaced over at least 48 hours and the plasma sodium should be measured regularly

Question 14

How do we mx shock? resus/bolus, replacement, maintenance

Answer 14

Use glucose-free crystalloids that contain sodium in the range 131–154 mmol/litre, with a BOLUS of 20 ml/kg over less than 10 minutes for children and young people, and 10–20 ml/kg over less than 10 minutes for term neonates.

Fluid RESUS/BOLUS: 10ml/kg over 10 minutes
Fluid REPLACEMENT: 100ml/kg over 24 hours
Fluid MAINTENANCE: 100ml/kg for first 10kg, 50ml/kg for second 10kg, 20ml/kg for every kg thereafter.

Question 15

Correction of dehydration

Answer 15

Percentage dehydration × weight (kg) × 10

Given over 48hours

Question 16

Biliary Atresia: signs and symptoms, types, investigations, complications, prognosis

Answer 16

Destruction or absence of extrahepatic biliary tree and intrahepatic biliary ducts (inflammation and resulting fibrosis ) → leads to biliary obstruction, chronic liver failure and death (needs urgent surgical intervention

• Failure to thrive (↓ absorption of long-chain fats and catabolic state)
• Mild jaundice (conjugated) >14d
• Pale urine, dark stools (after normal
• meconium)
• Hepatomegaly ± splenomegaly and portal HTN
• cardiac murmurs if associated cardiac abnormalities present

Types:

• Type 1: The proximal ducts are patent, however, the common duct is obliterated
• Type 2: There is atresia of the cystic duct and cystic structures are found in the porta hepatis
• Type 3: There is atresia of the left and right ducts to the level of the porta hepatis, this occurs in >90% of cases of biliary atresia

Investigations:

• Serum bilirubin including differentiation into conjugated and total bilirubin: Total bilirubin may be normal, whereas conjugated bilirubin is abnormally high (DIAGNOSTIC)
• Liver function tests (LFTs) including serum bile acids and aminotransferases are usually raised but cannot differentiate between biliary atresia and other causes of neonatal cholestasis
• Serum alpha 1-antitrypsin: Deficiency may be a cause of neonatal cholestasis
• Sweat chloride test: Cystic fibrosis often involves the biliary tract
• Ultrasound of the biliary tree and liver: May show distension and tract abnormalities
• Percutaneous liver biopsy with intraoperative cholangioscopy

Complications: Even when successful, few will still progress to cirrhosis and portal HTN → need liver transplant

• Unsuccessful anastomosis formation
• Progressive liver disease
• Cirrhosis with eventual hepatocellular carcinoma

Prognosis:

• Prognosis is good if surgery is successful
• In cases where surgery fails, liver transplantation may be required in the first two years of life

Question 17

Biliary atresia mx

Answer 17

Question 18

Malrotation clinical features

Answer 18

• Predisposition to volvulus if mesentery is not fixed to duodenal flexure or ileocaecal region leading to shortened base
• Ladd bands may cross duodenum, contributing to obstruction
• Abnormality of bowel that happens when baby is in the womb
• May be asymptomatic but will re-present with obstruction once the duodenum twists ± compromised blood supply → no stools, cramps, crying and pulling legs up

Usually 3-7 days after birth, volvulus with compromised circulation may result in peritoneal signs and haemodynamic instability

• Classically first few days of life – obstruction with bilious vomiting
• Can present at any age with volvulus
  Look for bilious vomiting + signs of dehydration

Question 19

Malrotation Ix

Answer 19

Upper GI contrast study may show DJ flexure is more medially placed, USS may show abnormal orientation of SMA and SMV

Can use USS

Question 20

How do we treat malrotation?

Answer 20

Question 21

What is congenital diaphragmatic hernia, and what are it’s features? how do we investigate for it + most common type of hernia in this case

Answer 21

• 8 weeks of pregnancy – diaphragm does not form correctly
• Part of intestine moves through chest area – stops lungs from developing properly (Bochdalek hernia)
• The most common type of CDH is a left-sided posterolateral Bochdalek hernia which accounts for around 85% of cases. Only around 50% of newborns with CDH survive despite modern medical intervention.
• Usually L sided

Ix = Diagnosed on routine antenatal US or after

Features:

• Delivery with respiratory issues (cyanosis; increased RR, increased HR, chest asymmetry, bowel sounds in chest, absent breath sounds on one side, decreased air entry)
• pulmonary hypoplasia
• hypertension
• displaced apex beat

Question 22

congenital diaphragmatic hernia mx

Answer 22

Initial management is through the insertion of a nasogastric tube with the aim of keeping air out of the gut. Therefore for cyanosed pt the best way to assist breathing is to intubate and ventilate. The child needs definitive management in the form of surgical repair of the diaphragm. = INTUBATE AND VENTILATE

BIPAP and CPAP are airway adjuncts used when the problem is keeping the airway open, such as COPD or respiratory distress syndrome.

Facemask ventilation and nasal cannulae would only increase the risk of air entering the gut, the infant needs an artificial airway to ensure they are able to receive oxygen.

Question 23

A 28-year-old primiparous woman who is 20 weeks pregnant presents after her foetal anomaly scan. The scan showed polyhydramnios and a midline sac containing bowel. She takes no regular medications and has no significant past medical history. She was planning on having a home birth and would like to know how this will affect her delivery.

What is this? And Mx?

Answer 23

In exomphalos (also known as an omphalocoele) the abdominal contents protrude through the anterior abdominal wall but are covered in an amniotic sac formed by amniotic membrane and peritoneum.

Associations

• Beckwith-Wiedemann syndrome
• Down’s syndrome
• cardiac and kidney malformations

Management

• caesarean section at 37 weeks is indicated to reduce the risk of sac rupture
• a staged repair immediately with completion at 6-12 months may be undertaken as primary closure may be difficult due to lack of space/high intra-abdominal pressure
  
  • if this occurs the sacs is allowed to granulate and epithelialise over the coming weeks/months
  • this forms a ‘shell’
  • as the infant grows a point will be reached when the sac contents can fit within the abdominal cavity. At this point the shell will be removed and the abdomen closed

Question 24

Gastroschisis

Answer 24

Gastroschisis describes a congenital defect in the anterior abdominal wall just lateral to the umbilical cord.

Gastroschisis is associated with socioeconomic deprivation (maternal age <20, maternal alcohol/tobacco use)

Management

• vaginal delivery may be attempted
• newborns should go to theatre as soon as possible after delivery, e.g. within 4 hours

Question 25

what are causes of chronic diarrhoea

Answer 25

Infants

• most common cause in the developed world is cows’ milk intolerance
• toddler diarrhoea: stools vary in consistency, often contain undigested food
• coeliac disease
• post-gastroenteritis lactose intolerance

Question 26

What is the most common cause of diarrhoea in children

Answer 26

Gastroenteritis

• main risk is severe dehydration
• most common cause is rotavirus - typically accompanied by fever and vomiting for the first 2 days. The diarrhoea may last up to a week
• treatment is rehydration

Question 27

what is toddler’s diarrhoea?

Answer 27

toddler diarrhoea: stools vary in consistency, often contain undigested food

no other abdo sx, height and weight appropriate for age, not foul smelling, can last months

Question 28

Umbilical hernia mx and associations

Answer 28

Umbilical hernia are relatively common in children and may be found during the newborn exam. Usually no treatment is required as they typically resolve by 3 years of age

Associations

• Afro-Caribbean infants
• Down’s syndrome
• mucopolysaccharide storage diseases

Question 29

Inguinal hernia

Answer 29

nguinal hernias are a common disorder in children. They are commoner in males as the testis migrates from its location on the posterior abdominal wall, down through the inguinal canal. A patent processus vaginalis may persist and be the site of subsequent hernia development.

Children presenting in the first few months of life are at the highest risk of strangulation and the hernia should be repaired urgently. Children over 1 year of age are at lower risk and surgery may be performed electively. For paediatric hernias a herniotomy without implantation of mesh is sufficient. Most cases are performed as day cases, neonates and premature infants are kept in hospital overnight as there is a recognised increased risk of post operative apnoea.

Question 30

Umbilical granuloma features

Answer 30

Overgrowth of tissue during healing process of umbilicus, common in first few weeks of life

small/red growth of tissue in centre of umbilicus, Cherry red lesions surrounding the umbilicus, they may bleed on contact and be a site of seropurulent discharge.

Infection is unusual

Mx: regular application of salt to wound, if not helping → they will often respond favourably to chemical cautery with topically applied silver nitrate

Question 31

Crohn’s features

Answer 31

• presentation may be non-specific symptoms such as weight loss and lethargy
• diarrhoea: the most prominent symptom in adults. Crohn’s colitis may cause bloody diarrhoea
• abdominal pain: the most prominent symptom in children
• perianal disease: e.g. Skin tags or ulcers
• extra-intestinal features are more common in patients with colitis or perianal disease

Question 32

Crohn’s investigations

Answer 32

Bloods

• C-reactive protein correlates well with disease activity
• Increased faecal calprotectin
• anaemia
• low vitamin B12 and vitamin D

Endoscopy

• colonoscopy is the investigation of choice
• features suggest of Crohn’s include deep ulcers, skip lesions

Histology

• inflammation in all layers from mucosa to serosa
• goblet cells
• granulomas

Small bowel enema

• high sensitivity and specificity for examination of the terminal ileum
• strictures: ‘Kantor’s string sign’
• proximal bowel dilation
• ‘rose thorn’ ulcers
• fistulae

Question 33

What would you see in radiology of CD

Answer 33

Small bowel enema

• high sensitivity and specificity for examination of the terminal ileum
• strictures: ‘Kantor’s string sign’
• proximal bowel dilation
• ‘rose thorn’ ulcers
• fistulae

Question 34

CD Mx

Answer 34

Stop smoke

monitor ferritin, B12, calcium, vit D, anaemia

educate on flare ups

impact of sc

risk: osteoporosis

inducing remission = corticosteroid mono therapy, budesonide, aminosalicylates (mesalazine), immsupp (azathioprine, methotrexate), biologics (infliximab, adalimumab)

respective surgery if terminal ileum only

maintaining remission = azathioprine or methotrexate

TPMT activity

Question 35

Complications of Crohn’s disease

Answer 35

As well as the well-documented complications described above, patients are also at risk of:

• small bowel cancer (standard incidence ratio = 40)
• colorectal cancer (standard incidence ratio = 2, i.e. less than the risk associated with ulcerative colitis)
• osteoporosis

*assess thiopurine methyltransferase (TPMT) activity before offering azathioprine or mercaptopurine

Question 36

IBD key differences

Answer 36

Question 37

What is Hirschsprung’s disease, associations and what are it’s features?

Answer 37

Hirschsprung’s disease is caused by an aganglionic segment of bowel due to a developmental failure of the parasympathetic Auerbach and Meissner plexuses. Although rare (occurring in 1 in 5,000 births) it is an important differential diagnosis in childhood constipation.

Pathophysiology

• parasympathetic neuroblasts fail to migrate from the neural crest to the distal colon → developmental failure of the parasympathetic Auerbach and Meissner plexuses → uncoordinated peristalsis → functional obstruction

Associations = 3x more common in males, Down’s syndrome

Features = failure/delay to pass meconium, constipation, abdominal distension

Question 38

Hirschsprung’s Ix

Answer 38

abdominal XR

Rectal biopsy: GOLD STANDARD for diagnosis

Question 39

Management of Hirschprung’s

Answer 39

Initial management involves rectal washouts/bowel irrigation (softens faeces and flushes it from the bowel)

Surgical - usually involves an initial colostomy followed by anastomosing normally innervated bowel to the anus

• The procedure is called an anorectal pull-through

Total colonic agangliosis would require initial ileostomy with later corrective surgery

Question 40

Acute abdominal pain in children Ddx

Answer 40

Question 41

Intussusception summary

Answer 41

Question 42

What is intussusception and it’s features

Answer 42

Intussusception describes the invagination of one portion of bowel into the lumen of the adjacent bowel, most commonly around the ileo-caecal region.

Intussusception usually affects infants between 6-18 months old. Boys are affected twice as often as girls

Features:

• paroxysmal abdominal colic pain
• during paroxysm → draw knees up and turn pale
• vomiting (bilious)
• ‘red-currant jelly’ = late sign
• sausage-shaped mass in RUQ

Question 43

Ix and Mx for intussusception

Answer 43

Ix = USS → target-like mass

Mx:

• A→E
• IV fluids and NG tube aspiration
• reduction by rectal air insufflation by radiologist (with fluoroscopy guidance, CI peritonitis) → 75% success rate, 25% require operation

Clinically stable with no CI to contrast enema reduction:

• fluid resuscitation
• contrast enema (air or contrast liquid e.g. Barium or Gastrograffin)
• CI = peritonitis, perforation, hypovolaemia shock
• Broad-spectrum abx = clindamycin + gentamycin OR tazocin OR cefoxitin + vancomycin
• 2nd line = surgical reduction w/ broad-spectrum abx

If recurrent = consider investigating for pathology (e.g. Meckel’s diverticulum)

Question 44

What is meconium aspiration syndrome? where is it most seen

Answer 44

• respiratory distress from meconium in trachea
• occurs in immediate neonate period
• more common in post-term deliveries (44% in babies born up to 42 weeks)

Higher rates also in:

• maternal HTN
• pre-eclampsia
• chorioamnionitis
• smoking
• substance abuse

Question 45

Meconium aspiration mx

Answer 45

MSAD but no hx of GBS/RFs → observation

RFs or lab findings suggestive of infection → consider abx

• IV ampicillin AND gentamicin
• oxygen therapy and NIV (e.g. CPAP)
• IV fluids
• monitor ABG, O2 sat, FBC, CRP, blood culture, cardiac echo (in severe MAS)

Question 46

Gastroenteritis features and causes, what increases risk

Answer 46

Most commonly rotavirus – 60% in <2y

• Campylobacter jejuni (+ abdo pain)
• Shigella/salmonella (+blood and pus in stool, tenesmus)
• Cholera/E. coli (profuse, rapidly dehydrating, diarrhoea)

typically accompanied by fever and vomiting for the first 2 days. The diarrhoea may last up to a week

Increased risk if

• <6m
• >5 diarrheal stools in last 24h
• >2 vomits in last 24h
• unable to tolerate extra fluids
• malnutrition

Question 47

How do we manage gastroenteritis?

Answer 47

Question 48

Causes of chronic diarrhoea in infants

Answer 48

• most common cause in the developed world is cows’ milk intolerance
• toddler diarrhoea: stools vary in consistency, often contain undigested food
• coeliac disease
• post-gastroenteritis lactose intolerance

Question 49

GI disorder summary

Answer 49

Question 50

Constipation criteria in children

Answer 50

Question 51

Causes of constipation in children

Answer 51

• dehydration
• low-fibre diet
• medications e.g. opiates
• anal fissure
• over-enthusiastic potty training
• hypothyroidism
• Hirschsprung’s disease
• Hypercalcaemia
• Learning disabilities

Question 52

Idiopathic constipation vs ‘red flag’ suggesting underlying disorder

Answer 52

Question 53

What factors suggest faecal impaction?

Answer 53

• symptoms of severe constipation
• overflow soiling
• faecal mass palpable in the abdomen (digital rectal examination should only be carried out by a specialist)

Question 54

Management of constipation in children

Answer 54

Exclude red flag symptoms, reassure underlying causes have been excluded

Laxatives = may have to be taken for several months. OSMOTIC then STIMULANT

• bulk forming = fybogel, methylcellulose
• osmotic = lactulose, movicol
• stimulant = bisacodyl, Senna, sodium picosulphate
• stool-softener = arches oil, decussate sodium

Check for faecal impaction: if present, recommend disimpaction regimen

• osmotic laxative escalating dose over 2 weeks
• with dietary/lifestyle modification
• if unresponsive → add Senna → manual evacuation

Maintenance laxative treatment if impact not present/treated

• osmotic laxative
• with dietary lifestyle modification
• reduce dose once normal bowel routine established

Behavioural interventions

• bowel habit diary
• scheduled toileting
• reward systems/star charts = for attempting
• address anxieties going to toilet, stying calm, reassuring
• post = make sure both feet flat on floor

Diet and lifestyle advice

• fluid and fibre intake: more fruits, water, vegetables
• exercise more

Follow up adherence and respond to treatment

Question 55

Gastroenteritis: stool culture or stool electron microscopy?

Answer 55

<5 most likely viral cause so EM

>5 most likely bacterial so stool culture

Question 56

Red flags in a constipated child

Answer 56