2- Emergency paediatrics (2/2)

Question 1

Poisoning of unknown origin

Answer 1

• Accidental incidents common in children <6
• Intentional ingestions and recreational drug use in older children and adolescents
  –>Mental illness (suicide and attempted self harm)
• Think of Munchausen

Question 2

common poisoning of unknown origin in <6

Answer 2

o Prenatal iron supplements
o Antidepressants
o Cardiotoxic agents
o Illicit drugs
o Analgesics
o Aspirin

Question 3

common non drug poisoning of unknown origin in

Answer 3

o Hydrocarbons
o Alcohols
o Cleaning products e.g. laundry detergent and bleach)
o pesticides

Question 4

Presentation POUO

Answer 4

Poisoning of unknown origin should be considered in the differentials of children who present with acute onset of:
- Multiorgan system dysfunction
- Altered mental state
- Resp or cardiac compromise
- Unexplained metabolic acidosis
- Seizures
- Puzzling clinical pictures

Question 5

Risk factors POUO

Answer 5

• 1-4 yo
• Previous history of ingestion
• Prior history of substance misuse

Question 6

approach to POUO

Answer 6

Initial evaluation and stabilisation

A to E
Diagnosis of poisoning

• Obtain accurate history
• Location, activity just before injesting
• Risk assessment I.e. suidice and self harm
• Ask paramedics about what they saw e.g. open containers, empty bottles, spilled content
• Toxicology screen
• Clinical response to antedote

Definitive management will depend on substance

Question 7

Example managements of POUO

Answer 7

• Decontamination using charcoal
• Antidotes
  o E.g. naloxone e.g. opioid
  o E.g. NAC e.g. paracetamol
  o E.g. Flumazenil (diazepam and cocaine)

Question 8

poisoning antidotes and substrates

Answer 8

Question 9

Paracetamol overdose (acetaminophen)
Background

Answer 9

• Drug most commonly overdose on are paracetamol, ibuprofen , aspirin, iron, cough medicines and the contraceptive pill
• Children with features of poisoning should be admitted to hospital
• Children who have taken poisons with delayed actions should also be admitted

Question 10

Pathophysiology of paracetamol overdose

Answer 10

• Toxic doses of paracetamol may cause severe hepatocellular necrosis and much less frequently renal tubular necrosis -> lack of glutathione
• Liver damage is maximal 3-4 days after paracetamol overdose
• Can lead to liver failure, encephalopathy, coma and death

Question 11

Presentation of paracetamol overdose

Answer 11

• Nausea and vomiting- early features (also recur after 2-3 days)
• Right subcostal pain and tenderness – hepatic necrosis

Question 12

History for paracetamol overdose

Answer 12

• Dose
• Timing
• Associated ingestions

Question 13

investigations for paracetamol overdose

Answer 13

Delay sampling to 4h after ingestion
* Paracetamol level.
* U&E – baseline renal status/risk of AKD.
* LFT – monitor ALT levels for hepatotoxicity.
* Glucose – hypoglycaemia common in liver necrosis.
* Clotting screen – INR as PT best indicator of liver necrosis.
* Venous gas –acidosis in 10% of acute liver failure.

Question 14

Management of paracetamol overdose

Answer 14

Paracetamol Children taking >150mg/kg need assessment

• <1 hour ago give charcoal (prevents absorption) alongside NAC
• N-acetylcysteine: PO or NG loading 140mg/kg, then 70mg/kg/ dose qds for 17 doses.
• IV used if GI bleeding. Repeat blood level at 24hr

Question 15

N-acetylcysteine MOA

Answer 15

Acts to increase synthesis of glutathione in the liver; which acts as antioxidant and facilitates conjugation of toxins, esp toxic metabolites of acetaminophen.
- Acts to prevent or reduce severity of liver damage
- Can be given up to and possibly beyond 24 hours of ingesting paracetamol
- Most effective if given within 8 hours

Question 16

paracetamol overdose prognosis

Answer 16

Question 17

management of aspirin overdose

Answer 17

ACTIVATED CHARCOAL 1G/KG
FLUID REPLACEMENT
URINE ALKALINISATION with sodium bicarbonate
BENZOS FOR SEIZURES (0.1MG/KG)
HAEMODIALYSIS IF SEVERE (ITU)

Question 18

management of iron overdose

Answer 18

Activated charcoal DOES NOT bind iron

Deferoxamine (DFO)

Metabolic acidosis: 1-2 mmol/kg sodium bicarbonate (1-2 mL/kg 8.4% or 2-4 mL/kg 4.2%) over 20 minutes. Repeat as necessary, aiming for a normal pH.
- administer into a large vein (or via a central line).
Large flush before and after (irritant to vein)

Question 19

management of benzos overdose

Answer 19

ACTIVATED CHARCOAL 1G/KG (<1H)
FLUMAZENIL

Question 20

fatal household poisens

Answer 20

CAMPHOR (VICKS / TIGER BALM)
ESSENTIAL OILS
BLEACH
SOLVENTS
WEED KILLER / INSECTICIDES

BUTTON BATTERIES

Question 21

button batteries

Answer 21

• halo sign on x-ray
• surgical removal
• emergency
• battery acid erodes stomach and can cause catastrophic bleed

mucosal ulceration / necrosis > haemorrhage > perf: FATAL

Question 22

pneumothorax background

Answer 22

Background
- Occurs in 2% of term infants
- Increased in prematurity and respiratory disease

Question 23

Presentation of pneumothorax

Answer 23

• Asymptomatic (if small)- most resolve spontaneously
• If large: Respiratory distress
• Tension pneumothorax
  -> Respiratory distress
  -> Cyanosis
  -> Mediastinal shift away from affected side
  -> Reduced chest movement and air entry on affected side
  -> Transillumination lights up affected side

Question 24

investigation for pneumothorax

Answer 24

o Ipsilateral translucency
o Lack of peripheral lung markings
o Collapsed lung

Question 25

management of pneumothorax

Answer 25

• If asymptomatic: none
• If symptomatic
  o Give oxygen as required
  o Needle aspiration (2nd intercostal mid clavicular)
  o Chest drain (4th mid axillary)
  o In an emergency do a needle aspiration before chest drain

Question 26

Pneumothorax: In an emergency: needle aspiration procedure

Answer 26

• Insert a 21-23G butterfly into affected side at the 2nd intercostal space in the midclavicular line
• Butterfily can be placed under water following insertion

Question 27

Chest drain procedure

Answer 27

• Lie the child supine with the affected side raised by 30–45° using a towel.
• Raise the arm towards the head.
• Suitable sites are the fourth intercostal space in the mid-axillary line (be careful to avoid the nipple), and second intercostal space in mid- clavicle line.
• Chest drain insertion should be performed using strict aseptic technique.
• Wash hands and put on sterile gloves, gown, +/– surgical mask.
• Clean skin over the insertion site with antiseptic solution.
• Prepare sterile field, then infiltrate small amount of local anaesthetic into the tissues down to the pleura.
• Wait 1–2min, then make a small skin incision with the scalpel just above and parallel to rib. Note: Blood vessels lie just below each rib.
• Using artery forceps make a blunt dissection down to and through the parietal pleura.
• Using forceps clamp chest drain and then insert into pleural space. Most clinicians remove the trocar before insertion.
• Aim to push the chest drain tip towards the lung apex. In the event of a small pneumothorax aim the tip in the direction of the pneumothorax remembering to aim anteriorly (air rises in the ill child lying supine).
• Connect the drain tightly to the underwater drainage system, unclamp drain, and apply negative pressure of 5–10cmH2O. Bubbling should start to occur.

Question 28

hypoglycaemia

Answer 28

<2.6mmol/l

Question 29

Pathophysiology of hypoglycaemia

Answer 29

• Hypoglycaemia is a sign of underlying disease that interferes with at least one of the following processes:
  o Carbohydrate intake
  o Carbohydrate absorption
  o Gluconeogenesis
  o Glycogenolysis
• Gluconeogenesis is a metabolic pathway that results in the generation of glucose from non-carbohydrate substrates e.g pyruvate, lactate, glycerol. It mainly occurs in the liver but also to some extent in the cortex of the kidneys. The process occurs during periods of fasting, starvation, low-carb diets or intense exercise. It is often associated with ketosis.
• Glycogenolysis is the breakdown of glycogen and takes place in the cells of muscle (to provide energy for contraction) and hepatocytes (to release glucose into the bloodstream for uptake by other cells).

Question 30

Causes of hypoglycaemia

Answer 30

Systemic/Nutrition
* Starvation
* Malnutrition
* Sepsis
* Malabsorption
Metabolic
* Ketotic hypoglycaemia “accelerated starvation”
* Glycogen storage disease
* Galactosaemia
* Organic acidaemia
* Carnitine deficiency
* Acyl CoA Dehydrogenase deficiency
Endocrine
* Hyperinsulinism
* Hypopituitarism
* Growth hormone deficiency
* Hypothyroidism
* Congenital adrenal hyperplasia
Hepatic
* Hepatitis
* Cirrhosis
* Reye Syndrome
Toxic
* Aspirin
* Alcohol
* Insulin
* Valproate

Question 31

presentation of hypoglycaemia

Answer 31

Question 32

investigations for hypoglycaemia

Answer 32

• BM
• Urine: ketones

Question 33

management of hypoglycaemia

Answer 33

If Patient can tolerate oral fluids
- 50ml of Lucozade or glucogels
- Recheck BM in 15 mins

<2.6mmol/l (IV bolus of dextrose or IM glucagon)

Patient unable to tolerate oral fluids
- IV access: IV bolus 2ml/kg 10% dextrose followed by continuous infusion 3-5ml/kg/hr 10% dextrose

No IV access- IM glucagon
- Aim BM 4-8mmol
- All patients with hypoglycaemia of unknown origin require admission

Question 34

Malnutrition
Background

Answer 34

Wide spectrum of nutritional disorders, varying from protein-energy mal nutrition to micronutrient nutritional deficiencies t
- Common cause of child mortality and morbidity

Question 35

malnutrition causes

Answer 35

• Diets low in protein, energy or specific nutrients
• Strict fad or vegetation diets
• Disease causing malabsorption (coeliac, CF, crohns disease)
• Eating disorders e.g. anorexia nervosa

Question 36

Investigations/diagnosis malnutrition

Answer 36

• Recent weight loss (t10% over 3mths is suggestive of impaired nutritional status).
• Accurately plot serial height and weight (falling across 2 centile lines or below 3rd centile may indicate nutritional impairment).
• Percentage weight for height (= [actual weight/expected weight for height centile] x 100); a value of d90% may indicate impairment.
• Body mass index (BMI) = weight (kg)/height (m)2.
• Mid-arm circumference divided by head circumference (malnutrition if <0.31).
• Detailed dietary assessment of 5–7-day food diary.
• Serum albumin.

Question 37

presentation of malnutrition

Answer 37

Presentation
* Not growing or putting on weight at the expected rate (faltering growth)
* Changes in behaviour, such as being unusually irritable, slow or anxious
* Low energy levels and tiring more easily than other children

Question 38

specific nutritional deficiencies

Answer 38

Question 39

Kwashiorkor

Answer 39

Characterised by bilateral pitting oedema, in the absence of another medical cause of oedema
- Typically associated with dietary protein deficiency
- Most often seen in sub-saharan Africa
- Can be seen in children with severely restricted diets (children with ASG)
- Typically occurs at the time of weaning and up to 5 years of age

Question 40

complications of kwashikor

Answer 40

• Infection
• Hypoglycaemia
• Hypothermia
• Xerophthalmia
• Electrolyte disturbance
• Cardiac failure

Question 41

diagnostic factors for kwashikor

Answer 41

Question 42

Investigations for kwashikor

Answer 42

• Urine dipstick
• FBC
• Serum electrolytes
• Serum protein

Question 43

management of kwashikor

Answer 43

• Fluids
• Oral calorie intake restricted to maintenance requirements (prevent refeeding)
• Antibiotic therapy

Question 44

Nutritional support indication

Answer 44

• Severely ill patients, e.g. ill preterm infants.
• Nutritional supplementation is required, e.g. FTT, cystic fibrosis.
• Swallowing difficulty, e.g. severe cerebral palsy.
• Metabolic diseases, e.g. phenylketonuria.
• Gastrointestinal failure, e.g. malabsorption, short bowel syndrome.
• Other primary disease state, e.g. chronic renal failure.

Question 45

types of feeding support

Answer 45

oral supplementation
enteral tube feeding
parenteral

Question 46

Oral supplementation

Answer 46

high energy milks, mineral/vitamin supplementation

Question 47

Enteral tube feeding

Answer 47

• Can be: NG, orogastric, nasojejunal and gastrostomy
• Liquid foods are given as boluses or continuously e.g. overnight

Indication
* Swallow problems (severe cerebral aplsy, prematurity)
* Cardiorespiratory compromise
* GORD
* Anorexia

Question 48

parental feeding

Answer 48

e.g. TPN
- Indication: post op, treatment of IBD, oral feeds contraindicated e.g. NEC, intestinal failure e.g. short bowel syndrome, GI obstruction, oncology e.g. graft versus host

Question 49

complications of supportive feeding

Answer 49

Complications
* Sepsis: usually S. epidermidis, S. aureus, Candida, Pseudomonas, E. coli.
* Demanding: in expertise, cost, etc.
* Central-line: occlusion, breakage, displacement.
* Electrolyte/metabolic disturbances: e.g. glucose i or d.
* Vascular: thrombophlebitis, thromboembolism, extravasation injuries.
* Cardiac tamponade: avoid by placing IV line tip proximal to right atrium.
* From amino acids: PN-associated liver disease, including, steatosis, cholestasis, or, rarely cirrhosis or portal hypertension.
* From lipids: platelet dysfunction, hyperlipidaemia, fatty liver, pulmonary hypertension.
* Metabolic bone disease: due to insufficient Ca2+ and PO43 –.

Question 50

Hypothermia background

Answer 50

• Body temp <35 degrees
  –> In trauma patients <36 (hypothermic trauma patients can have devastating consequences)

Classified as mild, mod or severe according to clinical features
- Mild 32-35
- Mod – 28-32
- Sev -<28

Question 51

mild hypotheramia

Answer 51

32-35

Question 52

moderate hypotheramia

Answer 52

28-32

Question 53

severe hypothermia

Answer 53

28-32

Question 54

Stages of hypothermia

Answer 54

o Compensation
o Decompensation
o Failure of body’s defences against cold

Question 55

Risk factors for hypothyroidism

Answer 55

• Neonates and young children
• Hypothyroidisms
• General anaesthetics use

Question 56

Causes of hypothyroidism

Answer 56

• Not enough clothes in cold weather
• Staying outside too long
• Fall into cold water
• Wet clothes
• Live in cold house

Question 57

Investigations for hypothermia

Answer 57

• Core body temp measurement
• 12 lead ECG
• UandE

Question 58

12 lead ECG for hypothermia

Answer 58

Osborn wave – notch in the downward portion of R wave in QRS complex

Question 59

hypothermia presentation

Answer 59

• Cold exposure
• Body temp <35 degrees
• Shivering
• Impaired mental state
• Mild: Tachypnea, tachycardia, hypertension
• Moderate: resp depression, bradycardia, hypotension
• Severe: coma and apnea

Question 60

Management of hypothermia

Answer 60

Initial
- Stop further cooling
- Remove patient from cold environment
- Remove wet or cold clothing
- Insulate
- Warming of body
- Secure airway
- Monitor breathing and circulating
- Maintaining circulating using warm IV fluid

Rewarming
- Passive: remove cold and wet clothing and apply dry insulation e.g. blankets
- Active external warming e.g. forced air rewarming, radiant heat and chemical heat packs
Beware: active external rewarming may be ineffective and harmful in patients with severe hypothermia or absent circulation

Question 61

Hyperthermia background

Answer 61

Body temp >40 degrees
- Occurs when the body absorbs or generates more heat than it can release
- different types

Question 62

types of hyperthermia

Answer 62

Heat cramps
Heat exhaustion
Heat rash
Heat stress
Heatstroke

Question 63

causes of hyperthermia

Answer 63

• Heat stroke e.g. overexertion in hot, humid conditions

Question 64

risk factors for hyperthermia

Answer 64

Risk factors
- Children – may play in the heat without taking time to rest, cool off and stay hydrated
- Dehydration
- CF

Question 65

Investigations for hyperthermia

Answer 65

• Rectal thermometer/ oesophageal probe in intubated patients
• FBC
• Liver function tests
• U&Es

Question 66

presentation of hyperthermia

Answer 66

Presentation
- >40 degrees
- Irritability
- Confusion
- Coordination issues
- Flushes skin
- Dizziness, syncope
- Low blood pressure
- Reduced sweating (heat stroke)
- Tachycardia/ tachypnoea
- Seizures
- Intense thirst

Question 67

management of hyperthermia

Answer 67

• Stop physical activity, remove heavy or tight clothing
• Drink electrolyte drink/ IV fluids
• Cool compresses/ col or ice water immersion

Question 68

prevention of hyperthermia

Answer 68

• Take cool breaks in the shade
• Stay well hydrated
• Wear light weight, light colour clothing

Question 69

Is hyperthermia the same as a fever?

Answer 69

Hyperthermia isn’t the same as a fever. When you have hyperthermia, your body temperature rises above a certain “set-point” that’s controlled by your hypothalamus (a part of your brain that controls many body functions). But when you have a fever, your hypothalamus actually increases your body’s set-point temperature. This intentional rise in body temperature is your body’s attempt to fight off an illness or infection.