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  • Question 1 - You are present at a child cardiac arrest scene. The blood gas shows...

    Incorrect

    • You are present at a child cardiac arrest scene. The blood gas shows that the patient is extremely acidotic and has a high potassium level. The attending physician suggests that sodium bicarbonate is administered.
      What dose of sodium bicarbonate should be given in this case?

      Your Answer: 2 ml/kg 8.4%

      Correct Answer: 1 ml/kg 8.4%

      Explanation:

      The regular use of sodium bicarbonate in pediatric cardiac arrest is not commonly advised. However, it may be considered in cases of prolonged arrests, and it serves a specific purpose in treating hyperkalemia and the arrhythmias caused by tricyclic antidepressant overdose.

      When sodium bicarbonate is administered, the appropriate dosage is 1 ml per kilogram of 8.4% sodium bicarbonate.

    • This question is part of the following fields:

      • Paediatric Emergencies
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  • Question 2 - A 6 year old is brought to the emergency department due to the...

    Correct

    • A 6 year old is brought to the emergency department due to the sudden appearance of a widespread maculopapular rash. The child's parents express concern as they recently visited relatives in Nigeria where there was a measles outbreak. The symptoms are indicative of measles. What is a potentially severe complication associated with measles?

      Your Answer: Subacute sclerosing panencephalitis

      Explanation:

      SSPE, also known as subacute sclerosing panencephalitis, is a serious and potentially deadly complication that can occur as a result of measles. While pneumonia and otitis media are commonly seen complications of measles, SSPE is much rarer. This condition involves inflammation of the brain and is believed to occur either due to the reactivation of the measles virus or an abnormal immune response to the virus.

      Further Reading:

      Measles is a highly contagious viral infection caused by an RNA paramyxovirus. It is primarily spread through aerosol transmission, specifically through droplets in the air. The incubation period for measles is typically 10-14 days, during which patients are infectious from 4 days before the appearance of the rash to 4 days after.

      Common complications of measles include pneumonia, otitis media (middle ear infection), and encephalopathy (brain inflammation). However, a rare but fatal complication called subacute sclerosing panencephalitis (SSPE) can also occur, typically presenting 5-10 years after the initial illness.

      The onset of measles is characterized by a prodrome, which includes symptoms such as irritability, malaise, conjunctivitis, and fever. Before the appearance of the rash, white spots known as Koplik spots can be seen on the buccal mucosa. The rash itself starts behind the ears and then spreads to the entire body, presenting as a discrete maculopapular rash that becomes blotchy and confluent.

      In terms of complications, encephalitis typically occurs 1-2 weeks after the onset of the illness. Febrile convulsions, giant cell pneumonia, keratoconjunctivitis, corneal ulceration, diarrhea, increased incidence of appendicitis, and myocarditis are also possible complications of measles.

      When managing contacts of individuals with measles, it is important to offer the MMR vaccine to children who have not been immunized against measles. The vaccine-induced measles antibody develops more rapidly than that following natural infection, so it should be administered within 72 hours of contact.

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      • Paediatric Emergencies
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  • Question 3 - A 4 year old male is brought into the emergency department with a...

    Incorrect

    • A 4 year old male is brought into the emergency department with a 24 hour history of diarrhoea and vomiting. The patient's father informs you that several of the child's preschool classmates have experienced a similar illness in the past few days. What is the most probable cause of this patient's symptoms?

      Your Answer: Adenovirus

      Correct Answer: Rotavirus

      Explanation:

      Gastroenteritis is a common condition in children, particularly those under the age of 5. It is characterized by the sudden onset of diarrhea, with or without vomiting. The most common cause of gastroenteritis in infants and young children is rotavirus, although other viruses, bacteria, and parasites can also be responsible. Prior to the introduction of the rotavirus vaccine in 2013, rotavirus was the leading cause of gastroenteritis in children under 5. However, the vaccine has led to a significant decrease in cases, with a drop of over 70% in subsequent years.

      Norovirus is the most common cause of gastroenteritis in adults, but it also accounts for a significant number of cases in children. When assessing a child with gastroenteritis, it is important to consider whether there may be another more serious underlying cause for their symptoms. Dehydration assessment is also crucial, as some children may require intravenous fluids. The NICE traffic light system can be used to identify the risk of serious illness in children under 5.

      In terms of investigations, stool microbiological testing may be indicated in certain cases, such as when the patient has been abroad, if diarrhea lasts for more than 7 days, or if there is uncertainty over the diagnosis. U&Es may be necessary if intravenous fluid therapy is required or if there are symptoms and/or signs suggestive of hypernatremia. Blood cultures may be indicated if sepsis is suspected or if antibiotic therapy is planned.

      Fluid management is a key aspect of treating children with gastroenteritis. In children without clinical dehydration, normal oral fluid intake should be encouraged, and oral rehydration solution (ORS) supplements may be considered. For children with dehydration, ORS solution is the preferred method of rehydration, unless intravenous fluid therapy is necessary. Intravenous fluids may be required for children with shock or those who are unable to tolerate ORS solution.

      Antibiotics are generally not required for gastroenteritis in children, as most cases are viral or self-limiting. However, there are some exceptions, such as suspected or confirmed sepsis, Extraintestinal spread of bacterial infection, or specific infections like Clostridium difficile-associated pseudomembranous enterocolitis or giardiasis.

    • This question is part of the following fields:

      • Paediatric Emergencies
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  • Question 4 - A 3 year old is brought into the emergency department by his father...

    Incorrect

    • A 3 year old is brought into the emergency department by his father who is concerned as the child was bitten on the arm by his 6 year old sister whilst they were playing together. You examine the bite wound and measure the intercanine distance as 3.8cm. What is the significance of this?

      Your Answer: Patient has likely been bitten by a dog and requires antibiotics

      Correct Answer: Patient should be referred to child protection team

      Explanation:

      If the distance between the canines is less than 3 cm, it indicates that the bite was likely caused by a child. On the other hand, if the distance is greater than 3 cm, it suggests that the bite was likely caused by an adult. In this particular case, the intercanine distance does not support the mother’s explanation of the injury, indicating that a child is not responsible. Therefore, measures should be taken to ensure the safety of the child, as the story provided by the mother does not align with the injury. In most hospitals, the child protection team is typically led by paediatricians. It is usually possible to differentiate between dog bites and human bites based on the shape of the arch, as well as the morphology of the incisors and canines.

      Further Reading:

      Bite wounds from animals and humans can cause significant injury and infection. It is important to properly assess and manage these wounds to prevent complications. In human bites, both the biter and the injured person are at risk of infection transmission, although the risk is generally low.

      Bite wounds can take various forms, including lacerations, abrasions, puncture wounds, avulsions, and crush or degloving injuries. The most common mammalian bites are associated with dogs, cats, and humans.

      When assessing a human bite, it is important to gather information about how and when the bite occurred, who was involved, whether the skin was broken or blood was involved, and the nature of the bite. The examination should include vital sign monitoring if the bite is particularly traumatic or sepsis is suspected. The location, size, and depth of the wound should be documented, along with any functional loss or signs of infection. It is also important to check for the presence of foreign bodies in the wound.

      Factors that increase the risk of infection in bite wounds include the nature of the bite, high-risk sites of injury (such as the hands, feet, face, genitals, or areas of poor perfusion), wounds penetrating bone or joints, delayed presentation, immunocompromised patients, and extremes of age.

      The management of bite wounds involves wound care, assessment and administration of prophylactic antibiotics if indicated, assessment and administration of tetanus prophylaxis if indicated, and assessment and administration of antiviral prophylaxis if indicated. For initial wound management, any foreign bodies should be removed, the wound should be encouraged to bleed if fresh, and thorough irrigation with warm, running water or normal saline should be performed. Debridement of necrotic tissue may be necessary. Bite wounds are usually not appropriate for primary closure.

      Prophylactic antibiotics should be considered for human bites that have broken the skin and drawn blood, especially if they involve high-risk areas or the patient is immunocompromised. Co-amoxiclav is the first-line choice for prophylaxis, but alternative antibiotics may be used in penicillin-allergic patients. Antibiotics for wound infection should be based on wound swab culture and sensitivities.

      Tetanus prophylaxis should be administered based on the cleanliness and risk level of the wound, as well as the patient’s vaccination status. Blood-borne virus risk should also be assessed, and testing for hepatitis B, hepatitis C, and HIV

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      • Paediatric Emergencies
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  • Question 5 - A 2-year-old toddler is brought into the emergency department by worried parents. They...

    Incorrect

    • A 2-year-old toddler is brought into the emergency department by worried parents. They inform you that the child has been sick for the past 48 hours, experiencing vomiting and diarrhea. The parents are concerned about the possibility of dehydration. As you evaluate the patient, you look for any red flag signs that may indicate an increased risk of progressing to shock.

      Your Answer: Dry mucous membranes

      Correct Answer: Reduced skin turgor

      Explanation:

      Signs that a child with gastroenteritis may be at risk of progressing to shock include altered responsiveness (such as being irritable or lethargic), sunken eyes, a fast heart rate, rapid breathing, and reduced skin elasticity. In infants aged 3 months or younger, a temperature above 38ºC is also a red flag.

      Further Reading:

      Gastroenteritis is a common condition in children, particularly those under the age of 5. It is characterized by the sudden onset of diarrhea, with or without vomiting. The most common cause of gastroenteritis in infants and young children is rotavirus, although other viruses, bacteria, and parasites can also be responsible. Prior to the introduction of the rotavirus vaccine in 2013, rotavirus was the leading cause of gastroenteritis in children under 5. However, the vaccine has led to a significant decrease in cases, with a drop of over 70% in subsequent years.

      Norovirus is the most common cause of gastroenteritis in adults, but it also accounts for a significant number of cases in children. When assessing a child with gastroenteritis, it is important to consider whether there may be another more serious underlying cause for their symptoms. Dehydration assessment is also crucial, as some children may require intravenous fluids. The NICE traffic light system can be used to identify the risk of serious illness in children under 5.

      In terms of investigations, stool microbiological testing may be indicated in certain cases, such as when the patient has been abroad, if diarrhea lasts for more than 7 days, or if there is uncertainty over the diagnosis. U&Es may be necessary if intravenous fluid therapy is required or if there are symptoms and/or signs suggestive of hypernatremia. Blood cultures may be indicated if sepsis is suspected or if antibiotic therapy is planned.

      Fluid management is a key aspect of treating children with gastroenteritis. In children without clinical dehydration, normal oral fluid intake should be encouraged, and oral rehydration solution (ORS) supplements may be considered. For children with dehydration, ORS solution is the preferred method of rehydration, unless intravenous fluid therapy is necessary. Intravenous fluids may be required for children with shock or those who are unable to tolerate ORS solution.

      Antibiotics are generally not required for gastroenteritis in children, as most cases are viral or self-limiting. However, there are some exceptions, such as suspected or confirmed sepsis, Extraintestinal spread of bacterial infection, or specific infections like Clostridium difficile-associated pseudomembranous enterocolitis or giardiasis.

    • This question is part of the following fields:

      • Paediatric Emergencies
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  • Question 6 - After reviewing the management of a pediatric patient who recently presented to the...

    Incorrect

    • After reviewing the management of a pediatric patient who recently presented to the emergency department with diabetic ketoacidosis (DKA), your consultant has scheduled a teaching session to assess the trainee's understanding of DKA management. You are tasked with determining the target minimum rate of blood glucose reduction in a pediatric patient receiving fluid and insulin therapy.

      Your Answer: 5 mmol/L/hr

      Correct Answer: 3 mmol/L/hr

      Explanation:

      Patients who are being treated with insulin infusion for diabetic ketoacidosis (DKA) should expect their plasma glucose levels to decrease by at least 3 mmol/L per hour. The purpose of the insulin infusion is to correct both hyperglycemia and ketoacidosis. It is important to regularly review and check the insulin infusion to ensure it is working effectively. If any of the following are observed, the infusion rate should be adjusted accordingly: capillary ketones are not decreasing by at least 0.5 mmol/L per hour, venous bicarbonate is not increasing by at least 3 mmol/L per hour, or plasma glucose is not decreasing by at least 3 mmol/L per hour.

      Further Reading:

      Diabetic ketoacidosis (DKA) is a serious complication of diabetes that occurs due to a lack of insulin in the body. It is most commonly seen in individuals with type 1 diabetes but can also occur in type 2 diabetes. DKA is characterized by hyperglycemia, acidosis, and ketonaemia.

      The pathophysiology of DKA involves insulin deficiency, which leads to increased glucose production and decreased glucose uptake by cells. This results in hyperglycemia and osmotic diuresis, leading to dehydration. Insulin deficiency also leads to increased lipolysis and the production of ketone bodies, which are acidic. The body attempts to buffer the pH change through metabolic and respiratory compensation, resulting in metabolic acidosis.

      DKA can be precipitated by factors such as infection, physiological stress, non-compliance with insulin therapy, acute medical conditions, and certain medications. The clinical features of DKA include polydipsia, polyuria, signs of dehydration, ketotic breath smell, tachypnea, confusion, headache, nausea, vomiting, lethargy, and abdominal pain.

      The diagnosis of DKA is based on the presence of ketonaemia or ketonuria, blood glucose levels above 11 mmol/L or known diabetes mellitus, and a blood pH below 7.3 or bicarbonate levels below 15 mmol/L. Initial investigations include blood gas analysis, urine dipstick for glucose and ketones, blood glucose measurement, and electrolyte levels.

      Management of DKA involves fluid replacement, electrolyte correction, insulin therapy, and treatment of any underlying cause. Fluid replacement is typically done with isotonic saline, and potassium may need to be added depending on the patient’s levels. Insulin therapy is initiated with an intravenous infusion, and the rate is adjusted based on blood glucose levels. Monitoring of blood glucose, ketones, bicarbonate, and electrolytes is essential, and the insulin infusion is discontinued once ketones are below 0.3 mmol/L, pH is above 7.3, and bicarbonate is above 18 mmol/L.

      Complications of DKA and its treatment include gastric stasis, thromboembolism, electrolyte disturbances, cerebral edema, hypoglycemia, acute respiratory distress syndrome, and acute kidney injury. Prompt medical intervention is crucial in managing DKA to prevent potentially fatal outcomes.

    • This question is part of the following fields:

      • Paediatric Emergencies
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  • Question 7 - A 10 year old girl is brought into the emergency department with a...

    Incorrect

    • A 10 year old girl is brought into the emergency department with a 24 hour history of vomiting and becoming increasingly fatigued. Tests confirm diabetic ketoacidosis (DKA). Intravenous fluid is being administered. You are requested to prescribe insulin. What is the most suitable insulin regimen?

      Your Answer:

      Correct Answer: IV insulin infusion at 0.05 units/kg/hour

      Explanation:

      To treat DKA, the girl is receiving intravenous fluids to rehydrate her. Additionally, insulin needs to be prescribed to help regulate her blood sugar levels.

      The most suitable insulin regimen in this case would be an IV insulin infusion at 0.05 units/kg/hour. This means that the insulin will be administered through an intravenous line at a rate of 0.05 units per kilogram of the girl’s body weight per hour. This dosage is appropriate for managing DKA and will help to lower her blood sugar levels effectively.

      Further Reading:

      Diabetic ketoacidosis (DKA) is a serious complication of diabetes that occurs due to a lack of insulin in the body. It is most commonly seen in individuals with type 1 diabetes but can also occur in type 2 diabetes. DKA is characterized by hyperglycemia, acidosis, and ketonaemia.

      The pathophysiology of DKA involves insulin deficiency, which leads to increased glucose production and decreased glucose uptake by cells. This results in hyperglycemia and osmotic diuresis, leading to dehydration. Insulin deficiency also leads to increased lipolysis and the production of ketone bodies, which are acidic. The body attempts to buffer the pH change through metabolic and respiratory compensation, resulting in metabolic acidosis.

      DKA can be precipitated by factors such as infection, physiological stress, non-compliance with insulin therapy, acute medical conditions, and certain medications. The clinical features of DKA include polydipsia, polyuria, signs of dehydration, ketotic breath smell, tachypnea, confusion, headache, nausea, vomiting, lethargy, and abdominal pain.

      The diagnosis of DKA is based on the presence of ketonaemia or ketonuria, blood glucose levels above 11 mmol/L or known diabetes mellitus, and a blood pH below 7.3 or bicarbonate levels below 15 mmol/L. Initial investigations include blood gas analysis, urine dipstick for glucose and ketones, blood glucose measurement, and electrolyte levels.

      Management of DKA involves fluid replacement, electrolyte correction, insulin therapy, and treatment of any underlying cause. Fluid replacement is typically done with isotonic saline, and potassium may need to be added depending on the patient’s levels. Insulin therapy is initiated with an intravenous infusion, and the rate is adjusted based on blood glucose levels. Monitoring of blood glucose, ketones, bicarbonate, and electrolytes is essential, and the insulin infusion is discontinued once ketones are below 0.3 mmol/L, pH is above 7.3, and bicarbonate is above 18 mmol/L.

      Complications of DKA and its treatment include gastric stasis, thromboembolism, electrolyte disturbances, cerebral edema, hypoglycemia, acute respiratory distress syndrome, and acute kidney injury. Prompt medical intervention is crucial in managing DKA to prevent potentially fatal outcomes.

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      • Paediatric Emergencies
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  • Question 8 - A 5 year old female is brought to the emergency department by her...

    Incorrect

    • A 5 year old female is brought to the emergency department by her parents. They are worried because the child has had a high fever for the past 24 hours and has developed noisy breathing and a change in her voice in the past few hours. They inform you that the child has been refusing to drink fluids orally due to a sore throat for the past few hours as well. The parents mention that the child has never had a serious illness before. You observe that the child has not received any vaccinations as the parents have concerns about potential vaccine-related diseases later in life. During the assessment, the child is sitting upright, leaning forward on her arms, and drooling. You can hear audible stridor. The child's vital signs are as follows:

      Temperature: 38.9ºC
      Pulse: 155 bpm
      Respiration rate: 40 bpm
      Oxygen saturation: 96% on room air

      What is the most likely diagnosis?

      Your Answer:

      Correct Answer: Epiglottitis

      Explanation:

      Epiglottitis symptoms typically appear suddenly, usually within a day. This patient’s symptoms align with those of epiglottitis and his vaccination status puts him at a higher risk. Common clinical features of epiglottitis include a rapid onset of symptoms, high fever, a sore throat, a change in voice (often described as a muffled or hot potato voice), painful swallowing, a specific positioning called tripod positioning, excessive drooling, and stridor.

      Further Reading:

      Epiglottitis is a rare but serious condition characterized by inflammation and swelling of the epiglottis, which can lead to a complete blockage of the airway. It is more commonly seen in children between the ages of 2-6, but can also occur in adults, particularly those in their 40s and 50s. Streptococcus infections are now the most common cause of epiglottitis in the UK, although other bacterial agents, viruses, fungi, and iatrogenic causes can also be responsible.

      The clinical features of epiglottitis include a rapid onset of symptoms, high fever, sore throat, painful swallowing, muffled voice, stridor and difficulty breathing, drooling of saliva, irritability, and a characteristic tripod positioning with the arms forming the front two legs of the tripod. It is important for healthcare professionals to avoid examining the throat or performing any potentially upsetting procedures until the airway has been assessed and secured.

      Diagnosis of epiglottitis is typically made through fibre-optic laryngoscopy, which is considered the gold standard investigation. Lateral neck X-rays may also show a characteristic thumb sign, indicating an enlarged and swollen epiglottis. Throat swabs and blood cultures may be taken once the airway is secured to identify the causative organism.

      Management of epiglottitis involves assessing and securing the airway as the top priority. Intravenous or oral antibiotics are typically prescribed, and supplemental oxygen may be given if intubation or tracheostomy is planned. In severe cases where the airway is significantly compromised, intubation or tracheostomy may be necessary. Steroids may also be used, although the evidence for their benefit is limited.

      Overall, epiglottitis is a potentially life-threatening condition that requires urgent medical attention. Prompt diagnosis, appropriate management, and securing the airway are crucial in ensuring a positive outcome for patients with this condition.

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      • Paediatric Emergencies
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  • Question 9 - A 2 year old male is brought to the emergency department by concerned...

    Incorrect

    • A 2 year old male is brought to the emergency department by concerned parents. The child started experiencing episodes of diarrhea and vomiting 2 days ago which have continued today. They are worried as the patient has become lethargic throughout the day and hasn't urinated for several hours. After initial assessment, you decide to administer a 10 ml/kg bolus of 0.9% sodium chloride fluid to treat suspected shock. After giving the fluid bolus, you repeat the patient's observations as shown below:

      Initial observation observation after fluid bolus
      Pulse 160 148
      Respiration rate 52 42
      Capillary refill time 5s 4s
      Temperature 37.8ºC 37.8ºC

      You notice the patient still has cool extremities and mottled skin. What is the most appropriate next step in managing this patient?

      Your Answer:

      Correct Answer: Administer further 10 ml/kg 0.9% sodium chloride fluid bolus

      Explanation:

      Gastroenteritis is a common condition in children, particularly those under the age of 5. It is characterized by the sudden onset of diarrhea, with or without vomiting. The most common cause of gastroenteritis in infants and young children is rotavirus, although other viruses, bacteria, and parasites can also be responsible. Prior to the introduction of the rotavirus vaccine in 2013, rotavirus was the leading cause of gastroenteritis in children under 5. However, the vaccine has led to a significant decrease in cases, with a drop of over 70% in subsequent years.

      Norovirus is the most common cause of gastroenteritis in adults, but it also accounts for a significant number of cases in children. When assessing a child with gastroenteritis, it is important to consider whether there may be another more serious underlying cause for their symptoms. Dehydration assessment is also crucial, as some children may require intravenous fluids. The NICE traffic light system can be used to identify the risk of serious illness in children under 5.

      In terms of investigations, stool microbiological testing may be indicated in certain cases, such as when the patient has been abroad, if diarrhea lasts for more than 7 days, or if there is uncertainty over the diagnosis. U&Es may be necessary if intravenous fluid therapy is required or if there are symptoms and/or signs suggestive of hypernatremia. Blood cultures may be indicated if sepsis is suspected or if antibiotic therapy is planned.

      Fluid management is a key aspect of treating children with gastroenteritis. In children without clinical dehydration, normal oral fluid intake should be encouraged, and oral rehydration solution (ORS) supplements may be considered. For children with dehydration, ORS solution is the preferred method of rehydration, unless intravenous fluid therapy is necessary. Intravenous fluids may be required for children with shock or those who are unable to tolerate ORS solution.

      Antibiotics are generally not required for gastroenteritis in children, as most cases are viral or self-limiting. However, there are some exceptions, such as suspected or confirmed sepsis, Extraintestinal spread of bacterial infection, or specific infections like Clostridium difficile-associated pseudomembranous enterocolitis or giardiasis.

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      • Paediatric Emergencies
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  • Question 10 - A 6 year old boy is brought to the emergency department by his...

    Incorrect

    • A 6 year old boy is brought to the emergency department by his father who was worried because the patient's urine appears similar to coca-cola. Urinalysis reveals blood +++ and protein ++. Upon further inquiry, the child's father informs you that the patient has no notable medical history and is typically healthy. He mentions that the child had a sore throat and a mild rash for approximately a week, but it cleared up two weeks ago.

      What is the probable cause of this child's condition?

      Your Answer:

      Correct Answer: Streptococcus pyogenes

      Explanation:

      Acute post-streptococcal glomerulonephritis is a condition that usually occurs at least 2 weeks after a person has had scarlet fever. In this case, the patient’s symptoms are consistent with this condition. It is important to note that the sore throat and rash associated with scarlet fever can be mild and may be mistaken for a generic viral illness with hives. Acute post-streptococcal glomerulonephritis typically presents with blood in the urine (which may appear brown like coca-cola) and protein in the urine. Other symptoms may include decreased urine output, swelling in the extremities, and high blood pressure. It is rare for this condition to cause permanent kidney damage.

      Further Reading:

      Scarlet fever is a reaction to erythrogenic toxins produced by Group A haemolytic streptococci, usually Streptococcus pyogenes. It is more common in children aged 2-6 years, with the peak incidence at 4 years. The typical presentation of scarlet fever includes fever, malaise, sore throat (tonsillitis), and a rash. The rash appears 1-2 days after the fever and sore throat symptoms and consists of fine punctate erythema that first appears on the torso and spares the face. The rash has a rough ‘sandpaper’ texture and desquamation occurs later, particularly around the fingers and toes. Another characteristic feature is the ‘strawberry tongue’, which initially has a white coating and swollen, reddened papillae, and later becomes red and inflamed. Diagnosis is usually made by a throat swab, but antibiotic treatment should be started immediately without waiting for the results. The recommended treatment is oral penicillin V, but patients with a penicillin allergy should be given azithromycin. Children can return to school 24 hours after starting antibiotics. Scarlet fever is a notifiable disease. Complications of scarlet fever include otitis media, rheumatic fever, and acute glomerulonephritis.

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      • Paediatric Emergencies
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  • Question 11 - A 3-year-old girl is brought to the Emergency Department by ambulance following an...

    Incorrect

    • A 3-year-old girl is brought to the Emergency Department by ambulance following an episode of fainting at home. The parents noticed that the girl suddenly collapsed and appeared pale. After lifting her up, she quickly regained consciousness and her color returned. After a thorough examination and investigation by the pediatric team, a diagnosis of a brief resolved unexplained event (BRUE) is made.
      Which of the following is NOT a recognized risk factor for a BRUE?

      Your Answer:

      Correct Answer: High birth weight

      Explanation:

      The term Apparent Life-Threatening Event (ALTE) has traditionally been used to describe a specific type of event. However, in 2016, the American Academy of Paediatrics (AAP) recommended replacing ALTE with a new term called Brief Resolved Unexplained Event (BRUE).

      An ALTE is defined as an episode that is frightening to the observer and is characterized by a combination of symptoms such as apnoea (central or occasionally obstructive), color change (usually cyanotic or pallid but occasionally erythematous or plethoric), significant change in muscle tone (usually marked limpness), choking, or gagging. In some cases, the observer may even fear that the infant has died.

      On the other hand, BRUE has stricter criteria and is only applicable to episodes that occur in infants under 12 months old. A BRUE is characterized by being brief (lasting less than 1 minute, typically 2-30 seconds), resolved (the infant must have returned to their baseline state), and not explained by any identifiable medical condition. It must also exhibit at least one of the following symptoms: cyanosis or pallor, absent, decreased, or irregular breathing, marked change in muscle tone (hyper- or hypotonia), or altered level of responsiveness.

      To diagnose a BRUE, a thorough history and physical examination of the infant must be conducted, and no explanation for the event should be found. Additionally, there are several risk factors associated with the development of a BRUE, including prematurity, age less than ten weeks, recent anesthesia, airway or maxillofacial abnormalities, history of gastro-oesophageal reflux disease, previous apnoeic episode, recent upper respiratory tract infection. Low birth weight may also be a risk factor, while high birth weight has no recognized association with BRUEs.

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      • Paediatric Emergencies
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  • Question 12 - You are requested to evaluate a 6 year old girl. She was playing...

    Incorrect

    • You are requested to evaluate a 6 year old girl. She was playing in the backyard when she suddenly burst into tears. Her mother suspects she stepped on a bee. Shortly after, her face began to swell and her breathing became rapid and noisy. Your diagnosis is anaphylaxis. What is the appropriate dosage of adrenaline to administer?

      Your Answer:

      Correct Answer: 150 micrograms by IM injection

      Explanation:

      The appropriate dose of adrenaline for treating anaphylaxis in children under 6 years old is 150 micrograms, which is equivalent to 0.15 ml of a 1 in 1,000 solution.

      Further Reading:

      Anaphylaxis is a severe and life-threatening allergic reaction that affects the entire body. It is characterized by a rapid onset and can lead to difficulty breathing, low blood pressure, and loss of consciousness. In paediatrics, anaphylaxis is often caused by food allergies, with nuts being the most common trigger. Other causes include drugs and insect venom, such as from a wasp sting.

      When treating anaphylaxis, time is of the essence and there may not be enough time to look up medication doses. Adrenaline is the most important drug in managing anaphylaxis and should be administered as soon as possible. The recommended doses of adrenaline vary based on the age of the child. For children under 6 months, the dose is 150 micrograms, while for children between 6 months and 6 years, the dose remains the same. For children between 6 and 12 years, the dose is increased to 300 micrograms, and for adults and children over 12 years, the dose is 500 micrograms. Adrenaline can be repeated every 5 minutes if necessary.

      The preferred site for administering adrenaline is the anterolateral aspect of the middle third of the thigh. This ensures quick absorption and effectiveness of the medication. It is important to follow the Resuscitation Council guidelines for anaphylaxis management, as they have recently been updated.

      In some cases, it can be challenging to determine if a patient had a true episode of anaphylaxis. In such cases, serum tryptase levels may be measured, as they remain elevated for up to 12 hours following an acute episode of anaphylaxis. This can help confirm the diagnosis and guide further management.

      Overall, prompt recognition and administration of adrenaline are crucial in managing anaphylaxis in paediatrics. Following the recommended doses and guidelines can help ensure the best outcomes for patients experiencing this severe allergic reaction.

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  • Question 13 - You are requested to evaluate a 5-year-old girl who was administered her first...

    Incorrect

    • You are requested to evaluate a 5-year-old girl who was administered her first dose of amoxicillin for the management of a respiratory tract infection. Her mother observed her face beginning to swell shortly after and her breathing becoming noisy. You determine that she is experiencing anaphylaxis. What would be the most suitable initial treatment?

      Your Answer:

      Correct Answer: Adrenaline 300 mcg IM

      Explanation:

      Epinephrine, also known as adrenaline, is the most crucial medication for treating anaphylaxis. It should be administered promptly to individuals experiencing an anaphylactic reaction. The preferred method of treatment is early administration of intramuscular adrenaline. It is important to be familiar with the appropriate dosage for different age groups.

      Further Reading:

      Anaphylaxis is a severe and life-threatening allergic reaction that affects the entire body. It is characterized by a rapid onset and can lead to difficulty breathing, low blood pressure, and loss of consciousness. In paediatrics, anaphylaxis is often caused by food allergies, with nuts being the most common trigger. Other causes include drugs and insect venom, such as from a wasp sting.

      When treating anaphylaxis, time is of the essence and there may not be enough time to look up medication doses. Adrenaline is the most important drug in managing anaphylaxis and should be administered as soon as possible. The recommended doses of adrenaline vary based on the age of the child. For children under 6 months, the dose is 150 micrograms, while for children between 6 months and 6 years, the dose remains the same. For children between 6 and 12 years, the dose is increased to 300 micrograms, and for adults and children over 12 years, the dose is 500 micrograms. Adrenaline can be repeated every 5 minutes if necessary.

      The preferred site for administering adrenaline is the anterolateral aspect of the middle third of the thigh. This ensures quick absorption and effectiveness of the medication. It is important to follow the Resuscitation Council guidelines for anaphylaxis management, as they have recently been updated.

      In some cases, it can be challenging to determine if a patient had a true episode of anaphylaxis. In such cases, serum tryptase levels may be measured, as they remain elevated for up to 12 hours following an acute episode of anaphylaxis. This can help confirm the diagnosis and guide further management.

      Overall, prompt recognition and administration of adrenaline are crucial in managing anaphylaxis in paediatrics. Following the recommended doses and guidelines can help ensure the best outcomes for patients experiencing this severe allergic reaction.

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  • Question 14 - You are requested to educate the intern doctors and medical students assigned to...

    Incorrect

    • You are requested to educate the intern doctors and medical students assigned to the emergency department on evaluating the vomiting toddler. What is a potential risk factor for pyloric stenosis?

      Your Answer:

      Correct Answer: First born child

      Explanation:

      Pyloric stenosis is a condition that primarily affects infants and is often seen in those with a positive family history. It is more commonly observed in first-born children and those who were bottle-fed or delivered by c-section. Additionally, it is more prevalent in white and hispanic children compared to other races and ethnicities. Smoking during pregnancy and premature birth are also associated with an increased risk of developing pyloric stenosis.

      Further Reading:

      Pyloric stenosis is a condition that primarily affects infants, characterized by the thickening of the muscles in the pylorus, leading to obstruction of the gastric outlet. It typically presents between the 3rd and 12th weeks of life, with recurrent projectile vomiting being the main symptom. The condition is more common in males, with a positive family history and being first-born being additional risk factors. Bottle-fed children and those delivered by c-section are also more likely to develop pyloric stenosis.

      Clinical features of pyloric stenosis include projectile vomiting, usually occurring about 30 minutes after a feed, as well as constipation and dehydration. A palpable mass in the upper abdomen, often described as like an olive, may also be present. The persistent vomiting can lead to electrolyte disturbances, such as hypochloremia, alkalosis, and mild hypokalemia.

      Ultrasound is the preferred diagnostic tool for confirming pyloric stenosis. It can reveal specific criteria, including a pyloric muscle thickness greater than 3 mm, a pylorus longitudinal length greater than 15-17 mm, a pyloric volume greater than 1.5 cm3, and a pyloric transverse diameter greater than 13 mm.

      The definitive treatment for pyloric stenosis is pyloromyotomy, a surgical procedure that involves making an incision in the thickened pyloric muscle to relieve the obstruction. Before surgery, it is important to correct any hypovolemia and electrolyte disturbances with intravenous fluids. Overall, pyloric stenosis is a relatively common condition in infants, but with prompt diagnosis and appropriate management, it can be effectively treated.

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      • Paediatric Emergencies
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  • Question 15 - You plan to administer ketamine to sedate a toddler before suturing. After obtaining...

    Incorrect

    • You plan to administer ketamine to sedate a toddler before suturing. After obtaining consent and ensuring there are no contraindications, what is the recommended initial dosage of ketamine for pediatric sedation?

      Your Answer:

      Correct Answer: 1.0 mg/kg by slow intravenous injection

      Explanation:

      To achieve sedation in children, it is recommended to administer an initial dose of ketamine at a rate of 1.0 mg/kg through a slow intravenous injection lasting at least one minute. It is important to note that administering the medication too quickly can lead to respiratory depression. In some cases, an additional dose of 0.5 mg/kg may be necessary to maintain the desired level of sedation.

      Further Reading:

      Ketamine sedation in children should only be performed by a trained and competent clinician who is capable of managing complications, especially those related to the airway. The clinician should have completed the necessary training and have the appropriate skills for procedural sedation. It is important for the clinician to consider the length of the procedure before deciding to use ketamine sedation, as lengthy procedures may be more suitable for general anesthesia.

      Examples of procedures where ketamine may be used in children include suturing, fracture reduction/manipulation, joint reduction, burn management, incision and drainage of abscess, tube thoracostomy placement, foreign body removal, and wound exploration/irrigation.

      During the ketamine sedation procedure, a minimum of three staff members should be present: a doctor to manage the sedation and airway, a clinician to perform the procedure, and an experienced nurse to monitor and support the patient, family, and clinical staff. The child should be sedated and managed in a high dependency or resuscitation area with immediate access to resuscitation facilities. Monitoring should include sedation level, pain, ECG, blood pressure, respiration, pulse oximetry, and capnography, with observations taken and recorded every 5 minutes.

      Prior to the procedure, consent should be obtained from the parent or guardian after discussing the proposed procedure and use of ketamine sedation. The risks and potential complications should be explained, including mild or moderate/severe agitation, rash, vomiting, transient clonic movements, and airway problems. The parent should also be informed that certain common side effects, such as nystagmus, random purposeless movements, muscle twitching, rash, and vocalizations, are of no clinical significance.

      Topical anesthesia may be considered to reduce the pain of intravenous cannulation, but this step may not be advisable if the procedure is urgent. The clinician should also ensure that key resuscitation drugs are readily available and doses are calculated for the patient in case they are needed.

      Before administering ketamine, the child should be prepared by encouraging the parents or guardians to talk to them about happy thoughts and topics to minimize unpleasant emergence phenomena. The dose of ketamine is typically 1.0 mg/kg by slow intravenous injection over at least one minute, with additional doses of 0.5 mg/kg administered as required after 5-10 minutes to achieve the desired dissociative state.

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  • Question 16 - A 5 year old boy is brought into the emergency department by worried...

    Incorrect

    • A 5 year old boy is brought into the emergency department by worried parents. The child's parents inform you that the patient has had a cough and a runny nose for about 2-3 days, but in the past 24 hours, he has developed a fever and started coughing up large quantities of green mucus. You suspect bacterial tracheitis. What is the most probable causative agent?

      Your Answer:

      Correct Answer: Staphylococcus aureus

      Explanation:

      Croup, also known as laryngotracheobronchitis, is a respiratory infection that primarily affects infants and toddlers. It is characterized by a barking cough and can cause stridor (a high-pitched sound during breathing) and respiratory distress due to swelling of the larynx and excessive secretions. The majority of cases are caused by parainfluenza viruses 1 and 3. Croup is most common in children between 6 months and 3 years of age and tends to occur more frequently in the autumn.

      The clinical features of croup include a barking cough that is worse at night, preceded by symptoms of an upper respiratory tract infection such as cough, runny nose, and congestion. Stridor, respiratory distress, and fever may also be present. The severity of croup can be graded using the NICE system, which categorizes it as mild, moderate, severe, or impending respiratory failure based on the presence of symptoms such as cough, stridor, sternal/intercostal recession, agitation, lethargy, and decreased level of consciousness. The Westley croup score is another commonly used tool to assess the severity of croup based on the presence of stridor, retractions, air entry, oxygen saturation levels, and level of consciousness.

      In cases of severe croup with significant airway obstruction and impending respiratory failure, symptoms may include a minimal barking cough, harder-to-hear stridor, chest wall recession, fatigue, pallor or cyanosis, decreased level of consciousness, and tachycardia. A respiratory rate over 70 breaths per minute is also indicative of severe respiratory distress.

      Children with moderate or severe croup, as well as those with certain risk factors such as chronic lung disease, congenital heart disease, neuromuscular disorders, immunodeficiency, age under 3 months, inadequate fluid intake, concerns about care at home, or high fever or a toxic appearance, should be admitted to the hospital. The mainstay of treatment for croup is corticosteroids, which are typically given orally. If the child is too unwell to take oral medication, inhaled budesonide or intramuscular dexamethasone may be used as alternatives. Severe cases may require high-flow oxygen and nebulized adrenaline.

      When considering the differential diagnosis for acute stridor and breathing difficulty, non-infective causes such as inhaled foreign bodies

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      • Paediatric Emergencies
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  • Question 17 - A child with a known severe peanut allergy is brought into the emergency...

    Incorrect

    • A child with a known severe peanut allergy is brought into the emergency room after experiencing lip swelling and difficulty breathing following a suspected exposure. Which medication is the most suitable to administer to patients with anaphylaxis after initial resuscitation?

      Your Answer:

      Correct Answer: Cetirizine

      Explanation:

      In cases of anaphylaxis, it is important to administer non-sedating antihistamines after adrenaline administration and initial resuscitation. Previous guidelines recommended the use of chlorpheniramine and hydrocortisone as third line treatments, but the 2021 guidelines have removed this recommendation. Corticosteroids are no longer advised. Instead, it is now recommended to use non-sedating antihistamines such as cetirizine, loratadine, and fexofenadine, as alternatives to the sedating antihistamine chlorpheniramine. The top priority treatments for anaphylaxis are adrenaline, oxygen, and fluids. The Resuscitation Council advises that administration of non-sedating antihistamines should occur after the initial resuscitation.

      Further Reading:

      Anaphylaxis is a severe and life-threatening hypersensitivity reaction that can have sudden onset and progression. It is characterized by skin or mucosal changes and can lead to life-threatening airway, breathing, or circulatory problems. Anaphylaxis can be allergic or non-allergic in nature.

      In allergic anaphylaxis, there is an immediate hypersensitivity reaction where an antigen stimulates the production of IgE antibodies. These antibodies bind to mast cells and basophils. Upon re-exposure to the antigen, the IgE-covered cells release histamine and other inflammatory mediators, causing smooth muscle contraction and vasodilation.

      Non-allergic anaphylaxis occurs when mast cells degrade due to a non-immune mediator. The clinical outcome is the same as in allergic anaphylaxis.

      The management of anaphylaxis is the same regardless of the cause. Adrenaline is the most important drug and should be administered as soon as possible. The recommended doses for adrenaline vary based on age. Other treatments include high flow oxygen and an IV fluid challenge. Corticosteroids and chlorpheniramine are no longer recommended, while non-sedating antihistamines may be considered as third-line treatment after initial stabilization of airway, breathing, and circulation.

      Common causes of anaphylaxis include food (such as nuts, which is the most common cause in children), drugs, and venom (such as wasp stings). Sometimes it can be challenging to determine if a patient had a true episode of anaphylaxis. In such cases, serum tryptase levels may be measured, as they remain elevated for up to 12 hours following an acute episode of anaphylaxis.

      The Resuscitation Council (UK) provides guidelines for the management of anaphylaxis, including a visual algorithm that outlines the recommended steps for treatment.

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      • Paediatric Emergencies
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