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  • Question 1 - A 35 year old male comes to the emergency department with a 3...

    Correct

    • A 35 year old male comes to the emergency department with a 3 hour history of nosebleed. You administer cautery to the right nostril which successfully stops the bleeding. You intend to release the patient. Which of the following medications would be the most suitable to prescribe?

      Your Answer: Prescribe naseptin cream four times daily for 10 days

      Explanation:

      After undergoing nasal cautery, it is recommended to follow these steps for proper treatment:

      1. Gently dab the cauterized area with a clean cotton bud to remove any excess chemical or blood.
      2. Apply a topical antiseptic preparation to the area.
      3. As the first line of treatment, prescribe Naseptin® cream (containing chlorhexidine and neomycin) to be applied to the nostrils four times daily for a duration of 10 days. However, if the patient has allergies to neomycin, peanut, or soya, prescribe mupirocin nasal ointment instead. This should be applied to the nostrils two to three times a day for 5-7 days.
      4. Advise the patient to avoid blowing their nose for a few hours.

      These steps will help ensure proper healing and minimize any potential complications after nasal cautery.

      Further Reading:

      Epistaxis, or nosebleed, is a common condition that can occur in both children and older adults. It is classified as either anterior or posterior, depending on the location of the bleeding. Anterior epistaxis usually occurs in younger individuals and arises from the nostril, most commonly from an area called Little’s area. These bleeds are usually not severe and account for the majority of nosebleeds seen in hospitals. Posterior nosebleeds, on the other hand, occur in older patients with conditions such as hypertension and atherosclerosis. The bleeding in posterior nosebleeds is likely to come from both nostrils and originates from the superior or posterior parts of the nasal cavity or nasopharynx.

      The management of epistaxis involves assessing the patient for signs of instability and implementing measures to control the bleeding. Initial measures include sitting the patient upright with their upper body tilted forward and their mouth open. Firmly pinching the cartilaginous part of the nose for 10-15 minutes without releasing the pressure can also help stop the bleeding. If these measures are successful, a cream called Naseptin or mupirocin nasal ointment can be prescribed for further treatment.

      If bleeding persists after the initial measures, nasal cautery or nasal packing may be necessary. Nasal cautery involves using a silver nitrate stick to cauterize the bleeding point, while nasal packing involves inserting nasal tampons or inflatable nasal packs to stop the bleeding. In cases of posterior bleeding, posterior nasal packing or surgery to tie off the bleeding vessel may be considered.

      Complications of epistaxis can include nasal bleeding, hypovolemia, anemia, aspiration, and even death. Complications specific to nasal packing include sinusitis, septal hematoma or abscess, pressure necrosis, toxic shock syndrome, and apneic episodes. Nasal cautery can lead to complications such as septal perforation and caustic injury to the surrounding skin.

      In children under the age of 2 presenting with epistaxis, it is important to refer them for further investigation as an underlying cause is more likely in this age group.

    • This question is part of the following fields:

      • Ear, Nose & Throat
      7.2
      Seconds
  • Question 2 - A 27 year old woman is brought into the emergency department with a...

    Incorrect

    • A 27 year old woman is brought into the emergency department with a suspected wrist fracture after tripping at a concert. The patient has been receiving nitrous oxide during ambulance transport. The patient is informed that they can cease inhaling nitrous oxide after receiving opioid pain medication. What is the recommended course of action upon discontinuing nitrous oxide?

      Your Answer: The patient should be advised not to mobilise from the bed or chair for 5 minutes

      Correct Answer: The patient should have oxygen administered for 5 minutes

      Explanation:

      To prevent diffusion hypoxia, it is recommended to administer supplemental oxygen to patients for about 5 minutes after discontinuing nitrous oxide. This is important because there is a risk of developing diffusion hypoxia after the termination of nitrous oxide.

      Further Reading:

      Entonox® is a mixture of 50% nitrous oxide and 50% oxygen that can be used for self-administration to reduce anxiety. It can also be used alongside other anesthesia agents. However, its mechanism of action for anxiety reduction is not fully understood. The Entonox bottles are typically identified by blue and white color-coded collars, but a new standard will replace these with dark blue shoulders in the future. It is important to note that Entonox alone cannot be used as the sole maintenance agent in anesthesia.

      One of the effects of nitrous oxide is the second-gas effect, where it speeds up the absorption of other inhaled anesthesia agents. Nitrous oxide enters the alveoli and diffuses into the blood, displacing nitrogen. This displacement causes the remaining alveolar gases to become more concentrated, increasing the fractional content of inhaled anesthesia gases and accelerating the uptake of volatile agents into the blood.

      However, when nitrous oxide administration is stopped, it can cause diffusion hypoxia. Nitrous oxide exits the blood and diffuses back into the alveoli, while nitrogen diffuses in the opposite direction. Nitrous oxide enters the alveoli much faster than nitrogen leaves, resulting in the dilution of oxygen within the alveoli. This can lead to diffusion hypoxia, where the oxygen concentration in the alveoli is diluted, potentially causing oxygen deprivation in patients breathing air.

      There are certain contraindications for using nitrous oxide, as it can expand in air-filled spaces. It should be avoided in conditions such as head injuries with intracranial air, pneumothorax, recent intraocular gas injection, and entrapped air following a recent underwater dive.

    • This question is part of the following fields:

      • Basic Anaesthetics
      19.9
      Seconds
  • Question 3 - A 68 year old female is brought into the emergency department following a...

    Incorrect

    • A 68 year old female is brought into the emergency department following a fall. The patient is accompanied by her children who inform you that there have been several falls in recent weeks. These falls tend to happen in the morning when the patient gets out of bed and appear to have worsened since the GP altered the patient's usual medication. You suspect orthostatic hypotension. What is the most suitable test to confirm the diagnosis?

      Your Answer: Measure lying and standing blood pressure (BP) with repeated BP measurement as soon as patient is standing

      Correct Answer: Measure lying and standing blood pressure (BP) with repeated BP measurements while standing for 3 minutes

      Explanation:

      To measure blood pressure while standing, you will need to take repeated measurements for a duration of 3 minutes. This involves measuring both lying and standing blood pressure.

      Further Reading:

      Blackouts, also known as syncope, are defined as a spontaneous transient loss of consciousness with complete recovery. They are most commonly caused by transient inadequate cerebral blood flow, although epileptic seizures can also result in blackouts. There are several different causes of blackouts, including neurally-mediated reflex syncope (such as vasovagal syncope or fainting), orthostatic hypotension (a drop in blood pressure upon standing), cardiovascular abnormalities, and epilepsy.

      When evaluating a patient with blackouts, several key investigations should be performed. These include an electrocardiogram (ECG), heart auscultation, neurological examination, vital signs assessment, lying and standing blood pressure measurements, and blood tests such as a full blood count and glucose level. Additional investigations may be necessary depending on the suspected cause, such as ultrasound or CT scans for aortic dissection or other abdominal and thoracic pathology, chest X-ray for heart failure or pneumothorax, and CT pulmonary angiography for pulmonary embolism.

      During the assessment, it is important to screen for red flags and signs of any underlying serious life-threatening condition. Red flags for blackouts include ECG abnormalities, clinical signs of heart failure, a heart murmur, blackouts occurring during exertion, a family history of sudden cardiac death at a young age, an inherited cardiac condition, new or unexplained breathlessness, and blackouts in individuals over the age of 65 without a prodrome. These red flags indicate the need for urgent assessment by an appropriate specialist.

      There are several serious conditions that may be suggested by certain features. For example, myocardial infarction or ischemia may be indicated by a history of coronary artery disease, preceding chest pain, and ECG signs such as ST elevation or arrhythmia. Pulmonary embolism may be suggested by dizziness, acute shortness of breath, pleuritic chest pain, and risk factors for venous thromboembolism. Aortic dissection may be indicated by chest and back pain, abnormal ECG findings, and signs of cardiac tamponade include low systolic blood pressure, elevated jugular venous pressure, and muffled heart sounds. Other conditions that may cause blackouts include severe hypoglycemia, Addisonian crisis, and electrolyte abnormalities.

    • This question is part of the following fields:

      • Elderly Care / Frailty
      5491.1
      Seconds
  • Question 4 - You evaluate a 60-year-old man who has a past medical history of hearing...

    Incorrect

    • You evaluate a 60-year-old man who has a past medical history of hearing impairment.
      Which ONE statement is accurate regarding the tuning fork hearing tests conducted?

      Your Answer: The tuning fork should be initially placed outside the external auditory canal for a Weber’s test

      Correct Answer: A false negative Rinne’s test can occur if the patient has a severe sensorineural deficit

      Explanation:

      A 512 Hz tuning fork is commonly used for both the Rinne’s and Weber’s tests. However, a lower-pitched 128 Hz tuning fork is typically used to assess vibration sense in a peripheral nervous system examination. While a 256 Hz tuning fork can be used for either test, it is considered less reliable.

      To perform the Rinne’s test, the 512 Hz tuning fork is first made to vibrate and then placed on the mastoid process until the sound is no longer heard. Next, the top of the tuning fork is positioned 2 cm away from the external auditory meatus, and the patient is asked to indicate where they hear the sound loudest.

      In individuals with normal hearing, the tuning fork should still be audible outside the external auditory canal even after it is no longer appreciated on the mastoid. This is because air conduction should be greater than bone conduction.

      In cases of conductive hearing loss, the patient will no longer hear the tuning fork once it is no longer appreciated on the mastoid. This suggests that their bone conduction is greater than their air conduction, indicating an obstruction in the passage of sound waves through the ear canal to the cochlea. This is considered a true negative result.

      However, a Rinne’s test may yield a false negative result if the patient has a severe unilateral sensorineural deficit and senses the sound in the unaffected ear through the transmission of sound waves through the base of the skull.

      In sensorineural hearing loss, the ability to perceive the tuning fork on both the mastoid and outside the external auditory canal is equally diminished compared to the opposite ear. The sound will disappear earlier on the mastoid and outside the external auditory canal compared to the other ear, but it will still be heard outside the canal.

      To perform the Weber’s test, the 512 Hz tuning fork is made to vibrate and then placed on the center of the patient’s forehead. The patient is then asked if they perceive the sound in the middle of the forehead or if it lateralizes to one side or the other.

      If the sound lateralizes to one side, it can indicate either ipsilateral conductive hearing loss or contralateral sensorineural hearing loss.

    • This question is part of the following fields:

      • Ear, Nose & Throat
      88.8
      Seconds
  • Question 5 - A 55-year-old man presents with symptoms of painful urination and frequent urination. A...

    Incorrect

    • A 55-year-old man presents with symptoms of painful urination and frequent urination. A urine dipstick test reveals the presence of blood, protein, white blood cells, and nitrites. Based on the patient's history of chronic kidney disease and an eGFR of 40 ml/minute, you diagnose him with a urinary tract infection (UTI). He reports no previous UTIs or recent antibiotic use. Which antibiotic would be the most suitable to prescribe in this scenario?

      Your Answer: Nitrofurantoin

      Correct Answer: Trimethoprim

      Explanation:

      For the treatment of women with lower urinary tract infections (UTIs) who are not pregnant, it is recommended to consider either a back-up antibiotic prescription or an immediate antibiotic prescription. This decision should take into account the severity of symptoms and the risk of developing complications, which is higher in individuals with known or suspected abnormalities of the genitourinary tract or weakened immune systems. The evidence for back-up antibiotic prescriptions is limited to non-pregnant women with lower UTIs where immediate antibiotic treatment is not deemed necessary. It is also important to consider previous urine culture and susceptibility results, as well as any history of antibiotic use that may have led to the development of resistant bacteria. Ultimately, the preferences of the woman regarding antibiotic use should be taken into account.

      If a urine sample has been sent for culture and susceptibility testing and an antibiotic prescription has been given, it is crucial to review the choice of antibiotic once the microbiological results are available. If the bacteria are found to be resistant and symptoms are not improving, it is recommended to switch to a narrow-spectrum antibiotic whenever possible.

      The following antibiotics are recommended for non-pregnant women aged 16 years and older:

      First-choice:
      – Nitrofurantoin 100 mg modified-release taken orally twice daily for 3 days (if eGFR >45 ml/minute)
      – Trimethoprim 200 mg taken orally twice daily for 3 days (if low risk of resistance*)

      Second-choice (if there is no improvement in lower UTI symptoms on first-choice treatment for at least 48 hours, or if first-choice treatment is not suitable):
      – Nitrofurantoin 100 mg modified-release taken orally twice daily for 3 days (if eGFR >45 ml/minute)
      – Pivmecillinam 400 mg initial dose taken orally, followed by 200 mg taken orally three times daily for 3 days
      – Fosfomycin 3 g single sachet dose

      *The risk of resistance may be lower if the antibiotic has not been used in the past 3 months, previous urine culture suggests susceptibility (although this was not used), and in younger individuals in areas where local epidemiology data indicate low resistance rates. Conversely, the risk of resistance may be higher with recent antibiotic use and in older individuals in residential facilities.

    • This question is part of the following fields:

      • Urology
      4115.1
      Seconds
  • Question 6 - You are summoned to the resuscitation room to aid in the care of...

    Correct

    • You are summoned to the resuscitation room to aid in the care of a 48-year-old woman who was saved from a residential fire. The patient has superficial partial thickness burns on the palms of her hands, which she sustained while attempting to open scorching door handles during her escape from the fire. The fire department rescued her from a bedroom filled with smoke. The paramedics inform you that the patient appeared lethargic at the scene. A blood gas sample is obtained. Which of the following findings would indicate a potential diagnosis of cyanide poisoning?

      Your Answer: Lactate >10 mmol/L

      Explanation:

      Moderate to severe cyanide poisoning typically leads to a condition called high anion gap metabolic acidosis, characterized by elevated levels of lactate (>10 mmol/L). Cyanide toxicity can occur from inhaling smoke produced by burning materials such as plastics, wools, silk, and other natural and synthetic polymers, which can release hydrogen cyanide (HCN). Symptoms of cyanide poisoning include headaches, nausea, decreased consciousness or loss of consciousness, and seizures. Measuring cyanide levels is not immediately helpful in managing a patient suspected of cyanide toxicity. Cyanide binds to the ferric (Fe3+) ion of cytochrome oxidase, causing a condition known as histotoxic hypoxia and resulting in lactic acidosis. The presence of a high lactate level (>10) and a classic high anion gap metabolic acidosis should raise suspicion of cyanide poisoning in a clinician.

      Further Reading:

      Burn injuries can be classified based on their type (degree, partial thickness or full thickness), extent as a percentage of total body surface area (TBSA), and severity (minor, moderate, major/severe). Severe burns are defined as a >10% TBSA in a child and >15% TBSA in an adult.

      When assessing a burn, it is important to consider airway injury, carbon monoxide poisoning, type of burn, extent of burn, special considerations, and fluid status. Special considerations may include head and neck burns, circumferential burns, thorax burns, electrical burns, hand burns, and burns to the genitalia.

      Airway management is a priority in burn injuries. Inhalation of hot particles can cause damage to the respiratory epithelium and lead to airway compromise. Signs of inhalation injury include visible burns or erythema to the face, soot around the nostrils and mouth, burnt/singed nasal hairs, hoarse voice, wheeze or stridor, swollen tissues in the mouth or nostrils, and tachypnea and tachycardia. Supplemental oxygen should be provided, and endotracheal intubation may be necessary if there is airway obstruction or impending obstruction.

      The initial management of a patient with burn injuries involves conserving body heat, covering burns with clean or sterile coverings, establishing IV access, providing pain relief, initiating fluid resuscitation, measuring urinary output with a catheter, maintaining nil by mouth status, closely monitoring vital signs and urine output, monitoring the airway, preparing for surgery if necessary, and administering medications.

      Burns can be classified based on the depth of injury, ranging from simple erythema to full thickness burns that penetrate into subcutaneous tissue. The extent of a burn can be estimated using methods such as the rule of nines or the Lund and Browder chart, which takes into account age-specific body proportions.

      Fluid management is crucial in burn injuries due to significant fluid losses. Evaporative fluid loss from burnt skin and increased permeability of blood vessels can lead to reduced intravascular volume and tissue perfusion. Fluid resuscitation should be aggressive in severe burns, while burns <15% in adults and <10% in children may not require immediate fluid resuscitation. The Parkland formula can be used to calculate the intravenous fluid requirements for someone with a significant burn injury.

    • This question is part of the following fields:

      • Pharmacology & Poisoning
      23.9
      Seconds
  • Question 7 - A 35-year-old West Indian woman with a past medical history of bilateral wrist...

    Correct

    • A 35-year-old West Indian woman with a past medical history of bilateral wrist and hand pain comes to the clinic complaining of a red rash on her cheeks and nose.

      What is the SINGLE most probable diagnosis?

      Your Answer: Systemic lupus erythematosus

      Explanation:

      Systemic lupus erythematosus (SLE) is a connective tissue disorder that affects multiple systems in the body. It is characterized by skin rashes, joint pain, and the presence of antibodies against double-stranded DNA. SLE is more commonly seen in young women, with a ratio of 10 females to 1 male. It is also more prevalent in West Indian populations.

      One of the classic signs of SLE is the presence of a butterfly rash. This rash appears as redness over the bridge of the nose and cheeks. It is often worsened by exposure to sunlight and can occur before other symptoms of SLE develop.

      Joint involvement is common in SLE and can affect both large and small joints. The knee, proximal interphalangeal, wrist, and metacarpophalangeal joints are most frequently affected.

    • This question is part of the following fields:

      • Dermatology
      6.6
      Seconds
  • Question 8 - You evaluate a 60-year-old patient with hepatomegaly. He was recently diagnosed with type...

    Incorrect

    • You evaluate a 60-year-old patient with hepatomegaly. He was recently diagnosed with type 2 diabetes mellitus and is currently taking metformin 500 mg twice daily. He consumes approximately 25 units of alcohol per week and has a BMI of 30. His liver function tests are as follows:
      - Bilirubin: 18 mmol (3-20)
      - ALT: 320 IU/L (5-40)
      - AST: 85 IU/L (5-40)
      - ALP: 110 IU/L (20-40)
      - GGT: 120 (5-40)
      - ANA: positive

      What is the MOST LIKELY diagnosis for this patient?

      Your Answer: Alcoholic liver disease

      Correct Answer: Non-alcoholic steatohepatitis

      Explanation:

      The diagnosis in this case is non-alcoholic steatohepatitis (NASH), which is characterized by fatty infiltration of the liver and is commonly associated with obesity. It is the most frequent cause of persistently elevated ALT levels in patients without risk factors for chronic liver disease.

      Risk factors for developing NASH include obesity, particularly truncal obesity, diabetes mellitus, and hypercholesterolemia.

      The clinical features of NASH can vary, with many patients being completely asymptomatic. However, some may experience right upper quadrant pain, nausea and vomiting, and hepatomegaly (enlarged liver).

      The typical biochemical profile seen in NASH includes elevated transaminases, with an AST:ALT ratio of less than 1. Often, there is an isolated elevation of ALT, and gamma-GT levels may be mildly elevated. In about one-third of patients, non-organ specific autoantibodies may be present. The presence of antinuclear antibodies (ANA) is associated with insulin resistance and indicates a higher risk of rapid progression to advanced liver disease.

      If the AST level is significantly elevated or if the gamma-GT level is markedly elevated, further investigation for other potential causes should be considered. A markedly elevated gamma-GT level may suggest alcohol abuse, although it can also be elevated in NASH alone.

      Diagnosis of NASH is confirmed through a liver biopsy, which will reveal increased fat deposition and a necro-inflammatory response within the hepatocytes.

      Currently, there is no specific treatment for NASH. However, weight loss and medications that improve insulin resistance, such as metformin, may help slow down the progression of the disease.

    • This question is part of the following fields:

      • Gastroenterology & Hepatology
      305.2
      Seconds
  • Question 9 - A 6-month-old infant is brought to the Emergency Department with a high fever...

    Incorrect

    • A 6-month-old infant is brought to the Emergency Department with a high fever and difficulty breathing. You assess the infant's respiratory rate and observe that it is increased.
      As per the NICE guidelines, what is considered the cutoff for tachypnea in an infant of this age?

      Your Answer: RR >50 breaths/minute

      Correct Answer: RR >60 breaths/minute

      Explanation:

      According to the current NICE guidelines on febrile illness in children under the age of 5, there are certain symptoms and signs that may indicate the presence of pneumonia. These include tachypnoea, which is a rapid breathing rate. For infants aged 0-5 months, a respiratory rate (RR) of over 60 breaths per minute is considered suggestive of pneumonia. For infants aged 6-12 months, an RR of over 50 breaths per minute is indicative, and for children older than 12 months, an RR of over 40 breaths per minute may suggest pneumonia.

      Other signs that may point towards pneumonia include crackles in the chest, nasal flaring, chest indrawing, and cyanosis. Crackles are abnormal sounds heard during breathing, while nasal flaring refers to the widening of the nostrils during breathing. Chest indrawing is the inward movement of the chest wall during inhalation, and cyanosis is the bluish discoloration of the skin or mucous membranes due to inadequate oxygen supply.

      Additionally, a low oxygen saturation level of less than 95% while breathing air is also considered suggestive of pneumonia. These guidelines can be found in more detail in the NICE guidelines on the assessment and initial management of fever in children under 5, as well as the NICE Clinical Knowledge Summary on the management of feverish children.

    • This question is part of the following fields:

      • Respiratory
      535.5
      Seconds
  • Question 10 - A 35-year-old woman is brought in by ambulance following a car accident where...

    Correct

    • A 35-year-old woman is brought in by ambulance following a car accident where her car was hit by a truck. She has sustained severe facial injuries and shows signs of airway obstruction. Her cervical spine is immobilized. She has suffered significant midface trauma, and the anesthesiologist decides to secure a definitive airway by intubating the patient.

      Which of the following does NOT indicate proper placement of the endotracheal tube?

      Your Answer: Presence of borborygmi in the epigastrium

      Explanation:

      The presence of borborygmi in the epigastrium can indicate that the endotracheal tube (ETT) is incorrectly placed in the esophagus. There are several ways to verify the correct placement of the endotracheal tube (ETT).

      One method is through direct visualization, where the ETT is observed passing through the vocal cords. Another method is by checking for fogging in the ETT, which can indicate proper placement. Auscultation of bilateral equal breath sounds is also a reliable way to confirm correct ETT placement.

      Additionally, the absence of borborygmi in the epigastrium is a positive sign that the ETT is in the correct position. Capnography or using a CO2 detector can provide further confirmation of proper ETT placement. Finally, chest radiography can be used to visually assess the placement of the endotracheal tube.

    • This question is part of the following fields:

      • Basic Anaesthetics
      12.7
      Seconds
  • Question 11 - You review a 65-year-old woman with a diagnosis of Parkinson's disease. You can...

    Correct

    • You review a 65-year-old woman with a diagnosis of Parkinson's disease. You can see from her records that she has an advanced directive in place.

      Which SINGLE statement is true regarding an advanced directive?

      Your Answer: They can be used to make decisions about the use of parenteral fluids

      Explanation:

      An advance decision, also known as an advance directive in Scotland, is a statement made by a patient expressing their desire to refuse certain types of medical treatment or care in the event that they become unable to make or communicate decisions for themselves. These statements serve as a means of effectively communicating the patient’s wishes to healthcare professionals and family members, helping to avoid any confusion that may arise. If a patient reaches a point where they are no longer capable of making informed decisions about their care, an advance decision can provide clarity and guidance.

      An advance decision can typically be utilized in the following situations: making decisions regarding CPR, determining the use of IV fluids and parenteral nutrition, deciding on specific procedures, and addressing the use of blood products for Jehovah’s Witnesses. However, it is important to note that advance decisions have their limitations and cannot be used to grant a relative lasting power of attorney, appoint a spokesperson to make decisions on the patient’s behalf, request a specific medical treatment, advocate for something illegal (such as assisted suicide), refuse treatment for a mental health condition, or authorize treatments that are not in the patient’s best interests.

      A doctor is legally obligated to adhere to an advance decision unless certain circumstances arise. These circumstances include changes that invalidate the decision, advances or changes in treatment that alter the circumstances, ambiguity in the wording of the decision, or if the decision is unsigned or its authenticity is in doubt. If there are any doubts about the validity of an advance decision, it is advisable to seek legal advice. Unfortunately, there have been instances where advance decisions have been forged or signed under duress, and any suspicions of this nature should be raised.

      It is important to note that there is no specific time period for which an advance decision remains valid.

    • This question is part of the following fields:

      • Palliative & End Of Life Care
      18.9
      Seconds
  • Question 12 - A 32-year-old woman comes in with right-sided flank pain and nausea. A urine...

    Incorrect

    • A 32-year-old woman comes in with right-sided flank pain and nausea. A urine dipstick shows microscopic hematuria. She is later diagnosed with renal colic.
      Which of the following stone types is the least frequently seen?

      Your Answer: Magnesium ammonium phosphate stones

      Correct Answer: Cystine stones

      Explanation:

      Urinary tract stones form when the concentration of salt and minerals in the urine becomes too high. These stones can be classified into five types based on their mineral composition and how they develop.

      The most common type of stone is the calcium stone, which can be further divided into calcium oxalate and calcium phosphate stones. These account for 60-80% of all urinary tract stones.

      Another type is the struvite or magnesium ammonium phosphate stone, making up about 10-15% of cases. Uric acid stones, also known as urate stones, occur in 3-10% of cases.

      Cystine stones are less common, accounting for less than 2% of urinary tract stones. Finally, there are drug-induced stones, which are caused by certain medications such as triamterene, protease inhibitors like indinavir sulphate, and sulfa drugs. These account for approximately 1% of cases.

      By understanding the different types of urinary tract stones, healthcare professionals can better diagnose and treat patients with this condition.

    • This question is part of the following fields:

      • Urology
      81.1
      Seconds
  • Question 13 - A 72-year-old man presents to the Emergency Department anxious, confused, and agitated. He...

    Correct

    • A 72-year-old man presents to the Emergency Department anxious, confused, and agitated. He has also vomited several times. He has recently been prescribed a course of amoxicillin for a presumed chest infection by his GP. You are unable to obtain a coherent history from him, but he has his regular medications with him, which include aspirin, simvastatin, and carbimazole. He has a friend with him who states he stopped taking his medications a few days ago. His vital signs are as follows: temperature 38.9°C, heart rate 138, respiratory rate 23, blood pressure 173/96, and oxygen saturation 97% on room air.

      Which of the following medications would be most appropriate to prescribe in this case?

      Your Answer: Carbimazole

      Explanation:

      Thyroid storm is a rare condition that affects only 1-2% of patients with hyperthyroidism. However, it is crucial to diagnose it promptly because it has a high mortality rate of approximately 10%. Thyroid storm is often triggered by a physiological stressor, such as stopping antithyroid therapy prematurely, recent surgery or radio-iodine treatment, infections (especially chest infections), trauma, diabetic ketoacidosis or hyperosmolar diabetic crisis, thyroid hormone overdose, pre-eclampsia. It typically occurs in patients with Graves’ disease or toxic multinodular goitre and presents with sudden and severe hyperthyroidism. Symptoms include high fever (over 41°C), dehydration, rapid heart rate (greater than 140 beats per minute) with or without irregular heart rhythms, low blood pressure, congestive heart failure, nausea, jaundice, vomiting, diarrhea, abdominal pain, confusion, agitation, delirium, psychosis, seizures, or coma.

      To diagnose thyroid storm, various blood tests should be conducted, including a full blood count, urea and electrolytes, blood glucose, coagulation screen, CRP, and thyroid profile (T4/T3 and TSH). A bone profile/calcium test should also be done as 10% of patients develop hypocalcemia. Blood cultures should be taken as well. Other important investigations include a urine dipstick/MC&S, chest X-ray, and ECG.

      The management of thyroid storm involves several steps. Intravenous fluids, such as 1-2 liters of 0.9% saline, should be administered. Airway support and management should be provided as necessary. A nasogastric tube should be inserted if the patient is vomiting. Urgent referral for inpatient management is essential. Paracetamol (1 g PO/IV) can be given to reduce fever. Benzodiazepines, such as diazepam (5-20 mg PO/IV), can be used for sedation. Steroids, like hydrocortisone (100 mg IV), may be necessary if there is co-existing adrenal suppression. Antibiotics should be prescribed if there is an intercurrent infection. Beta-blockers, such as propranolol (80 mg PO), can help control heart rate. High-dose carbimazole (45-60 mg/day) is recommended.

    • This question is part of the following fields:

      • Endocrinology
      60.4
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  • Question 14 - You evaluate a 42-year-old woman with a history of Sjögren’s syndrome. She has...

    Incorrect

    • You evaluate a 42-year-old woman with a history of Sjögren’s syndrome. She has undergone a series of liver function tests, and the results are as follows:

      Bilirubin: 18 mmol (3-20)
      ALT: 38 IU/L (5-40)
      ALP: 356 IU/L (20-140)
      IgM: 4.0 g/L (0.5-2.5)
      pANCA: negative
      cANCA: negative
      ANA: positive
      SMA: negative
      Antimitochondrial antibodies: positive

      Currently, she is asymptomatic, and her Sjögren’s syndrome is well managed with hydroxychloroquine.

      What is the most likely diagnosis in this case?

      Your Answer: Autoimmune hepatitis

      Correct Answer: Primary biliary cirrhosis

      Explanation:

      This patient has been diagnosed with primary biliary cirrhosis (PBC). PBC is a liver disease caused by an autoimmune response, leading to the progressive destruction of the small bile ducts in the liver. The damage primarily affects the intralobular ducts. As a result, the patient experiences cholestatic jaundice, followed by liver fibrosis and cirrhosis. PBC is more common in females, with 90% of patients being women. It typically occurs between the ages of 30 and 65. Liver function tests show elevated levels of alkaline phosphatase (ALP), often before any symptoms appear. Antimitochondrial antibodies are positive in 95% of cases. Around 50% of patients have smooth muscle antibodies (SMA), and approximately 20% have antinuclear antibodies (ANA). IgM levels are raised in over 80% of cases.

      Autoimmune hepatitis is liver inflammation caused by a decrease in regulatory T-cells (Treg cells), leading to the production of autoantibodies against hepatocyte surface antigens. It mainly affects women (70%) between the ages of 15 and 40. The condition causes chronic, progressive hepatitis, which eventually progresses to cirrhosis. Patients typically present with non-specific symptoms of malaise, although in some cases, the disease may be more advanced, resulting in jaundice and severe illness. In later stages, liver function tests show significantly elevated levels of transaminases (ALT and AST), often exceeding ten times the normal range. Alkaline phosphatase (ALP) levels are usually normal or slightly elevated. Antinuclear antibodies (ANA) are positive in approximately 80% of cases, while smooth muscle antibodies (SMA) are positive in around 70% of cases. Antimitochondrial antibodies are typically low or absent.

      Primary sclerosing cholangitis (PSC) is a condition that causes progressive inflammation and obstruction of the bile ducts. It is characterized by recurrent episodes of cholangitis and the gradual scarring of the bile ducts. PSC can eventually lead to liver cirrhosis, liver failure, and hepatocellular carcinoma. There is a known association between PSC and ulcerative colitis, with over 80% of PSC patients also having ulcerative colitis.

      Hepatic damage caused by hydroxychloroquine is extremely rare.

    • This question is part of the following fields:

      • Gastroenterology & Hepatology
      19
      Seconds
  • Question 15 - A 10 year old girl is brought to the emergency department by her...

    Correct

    • A 10 year old girl is brought to the emergency department by her parents after a fall while playing outside. The patient has a significant wound that needs to be cleaned and closed. You decide to examine and clean the wound under ketamine sedation as the patient is very upset. What type of sedation is typical of Ketamine?

      Your Answer: Dissociative sedation

      Explanation:

      Ketamine induces a distinct type of sedation known as dissociative sedation. This sedation state is unlike any other and is characterized by a trance-like, cataleptic condition. It provides deep pain relief and memory loss while still maintaining important protective reflexes for the airway, spontaneous breathing, and overall stability of the heart and lungs. Dissociative sedation with ketamine does not fit into the conventional categories of sedation.

      Further Reading:

      Procedural sedation is commonly used by emergency department (ED) doctors to minimize pain and discomfort during procedures that may be painful or distressing for patients. Effective procedural sedation requires the administration of analgesia, anxiolysis, sedation, and amnesia. This is typically achieved through the use of a combination of short-acting analgesics and sedatives.

      There are different levels of sedation, ranging from minimal sedation (anxiolysis) to general anesthesia. It is important for clinicians to understand the level of sedation being used and to be able to manage any unintended deeper levels of sedation that may occur. Deeper levels of sedation are similar to general anesthesia and require the same level of care and monitoring.

      Various drugs can be used for procedural sedation, including propofol, midazolam, ketamine, and fentanyl. Each of these drugs has its own mechanism of action and side effects. Propofol is commonly used for sedation, amnesia, and induction and maintenance of general anesthesia. Midazolam is a benzodiazepine that enhances the effect of GABA on the GABA A receptors. Ketamine is an NMDA receptor antagonist and is used for dissociative sedation. Fentanyl is a highly potent opioid used for analgesia and sedation.

      The doses of these drugs for procedural sedation in the ED vary depending on the drug and the route of administration. It is important for clinicians to be familiar with the appropriate doses and onset and peak effect times for each drug.

      Safe sedation requires certain requirements, including appropriate staffing levels, competencies of the sedating practitioner, location and facilities, and monitoring. The level of sedation being used determines the specific requirements for safe sedation.

      After the procedure, patients should be monitored until they meet the criteria for safe discharge. This includes returning to their baseline level of consciousness, having vital signs within normal limits, and not experiencing compromised respiratory status. Pain and discomfort should also be addressed before discharge.

    • This question is part of the following fields:

      • Basic Anaesthetics
      5.6
      Seconds
  • Question 16 - A 45-year-old individual is brought into the emergency department following a head injury...

    Correct

    • A 45-year-old individual is brought into the emergency department following a head injury from a ladder fall. The patient's condition worsens. You proceed to re-evaluate the patient's GCS. At what GCS range is intubation recommended?

      Your Answer: 8 or less

      Explanation:

      Intubation is necessary for patients with a compromised airway. In comatose patients, a Glasgow Coma Scale (GCS) score of 8 or less indicates the need for intubation. According to NICE guidelines, immediate intubation and ventilation are advised in cases of coma where the patient is not responsive to commands, not speaking, and not opening their eyes. Other indications for intubation include the loss of protective laryngeal reflexes, ventilatory insufficiency as indicated by abnormal blood gases, spontaneous hyperventilation, irregular respirations, significantly deteriorating conscious level, unstable fractures of the facial skeleton, copious bleeding into the mouth, and seizures. In certain cases, intubation and ventilation should be performed before the patient begins their journey.

      Further Reading:

      Indications for CT Scanning in Head Injuries (Adults):
      – CT head scan should be performed within 1 hour if any of the following features are present:
      – GCS < 13 on initial assessment in the ED
      – GCS < 15 at 2 hours after the injury on assessment in the ED
      – Suspected open or depressed skull fracture
      – Any sign of basal skull fracture (haemotympanum, ‘panda’ eyes, cerebrospinal fluid leakage from the ear or nose, Battle’s sign)
      – Post-traumatic seizure
      – New focal neurological deficit
      – > 1 episode of vomiting

      Indications for CT Scanning in Head Injuries (Children):
      – CT head scan should be performed within 1 hour if any of the features in List 1 are present:
      – Suspicion of non-accidental injury
      – Post-traumatic seizure but no history of epilepsy
      – GCS < 14 on initial assessment in the ED for children more than 1 year of age
      – Paediatric GCS < 15 on initial assessment in the ED for children under 1 year of age
      – At 2 hours after the injury, GCS < 15
      – Suspected open or depressed skull fracture or tense fontanelle
      – Any sign of basal skull fracture (haemotympanum, ‘panda’ eyes, cerebrospinal fluid leakage from the ear or nose, Battle’s sign)
      – New focal neurological deficit
      – For children under 1 year, presence of bruise, swelling or laceration of more than 5 cm on the head

      – CT head scan should be performed within 1 hour if none of the above features are present but two or more of the features in List 2 are present:
      – Loss of consciousness lasting more than 5 minutes (witnessed)
      – Abnormal drowsiness
      – Three or more discrete episodes of vomiting
      – Dangerous mechanism of injury (high-speed road traffic accident, fall from a height)

    • This question is part of the following fields:

      • Trauma
      22.6
      Seconds
  • Question 17 - A 60-year-old woman presents with intense pain in her left eye and sudden...

    Correct

    • A 60-year-old woman presents with intense pain in her left eye and sudden vision loss in the same eye. She has experienced multiple episodes of vomiting. After conducting a comprehensive examination and measuring the intraocular pressure, you diagnose her with acute closed-angle glaucoma. You provide analgesics and administer IV acetazolamide as the initial treatment.
      What other treatment option could potentially benefit this patient?

      Your Answer: Topical pilocarpine

      Explanation:

      This patient has presented with acute closed-angle glaucoma, which is a serious eye condition requiring immediate medical attention. It occurs when the iris pushes forward and blocks the fluid access to the trabecular meshwork, leading to increased pressure within the eye and damage to the optic nerve.

      The main symptoms of acute closed-angle glaucoma include severe eye pain, decreased vision, redness around the cornea, swelling of the cornea, a fixed semi-dilated pupil, nausea, vomiting, and episodes of blurred vision or seeing haloes.

      To confirm the diagnosis, tonometry is performed to measure the intraocular pressure. Normal pressure ranges from 10 to 21 mmHg, but in acute closed-angle glaucoma, it is often higher than 30 mmHg. Goldmann’s applanation tonometer is commonly used in hospitals for this purpose.

      Management of acute closed-angle glaucoma involves providing pain relief, such as morphine, and antiemetics if the patient is experiencing vomiting. Intravenous acetazolamide is administered to reduce intraocular pressure. Additionally, a topical miotic medication like pilocarpine is started about an hour after initiating other treatments to help constrict the pupil, as it may initially be paralyzed and unresponsive.

      Overall, acute closed-angle glaucoma is a medical emergency that requires prompt intervention to alleviate symptoms and prevent further damage to the eye.

    • This question is part of the following fields:

      • Ophthalmology
      7.5
      Seconds
  • Question 18 - A 42-year-old woman comes in with a gradual onset of severe colicky abdominal...

    Correct

    • A 42-year-old woman comes in with a gradual onset of severe colicky abdominal pain and vomiting. She has not had a bowel movement today. Her only significant medical history is gallstones. During the examination, her abdomen appears distended, and a mass can be felt in the upper right quadrant. Bowel sounds can be heard as 'tinkling' on auscultation.

      What is the SINGLE most probable diagnosis?

      Your Answer: Small bowel obstruction

      Explanation:

      Gallstone ileus occurs when a gallstone becomes stuck in the small intestine, specifically at the caeco-ileal valve. This condition presents with similar symptoms to other causes of small bowel obstruction. Patients may experience colicky central abdominal pain, which can have a gradual onset. Vomiting is common and tends to occur earlier in the course of the illness compared to large bowel obstruction. Abdominal distension and the absence of flatus are also typical signs. Additionally, there may be a lack of normal bowel sounds or the presence of high-pitched tinkling sounds. A mass in the right upper quadrant of the abdomen may be palpable.

    • This question is part of the following fields:

      • Surgical Emergencies
      14.3
      Seconds
  • Question 19 - A 35-year-old man with a history of bipolar affective disorder presents with symptoms...

    Incorrect

    • A 35-year-old man with a history of bipolar affective disorder presents with symptoms suggestive of lithium toxicity.
      Which of the following symptoms is LEAST likely to be observed?

      Your Answer: Increased muscle tone

      Correct Answer: SIADH

      Explanation:

      SIADH is a medical condition that is not brought on by lithium toxicity. However, lithium toxicity does have its own distinct set of symptoms. These symptoms include nausea and vomiting, diarrhea, tremors, ataxia, confusion, increased muscle tone, clonus, nephrogenic diabetes insipidus, convulsions, coma, and renal failure. It is important to note that SIADH and lithium toxicity are separate conditions with their own unique characteristics.

    • This question is part of the following fields:

      • Pharmacology & Poisoning
      39.5
      Seconds
  • Question 20 - A 35-year-old woman with a history of paroxysmal supraventricular tachycardia is found to...

    Correct

    • A 35-year-old woman with a history of paroxysmal supraventricular tachycardia is found to have a diagnosis of Lown-Ganong-Levine (LGL) syndrome.
      Which of the following statements about LGL syndrome is NOT true?

      Your Answer: It is caused by an accessory pathway for conduction

      Explanation:

      Lown-Ganong-Levine (LGL) syndrome is a condition that affects the electrical conducting system of the heart. It is classified as a pre-excitation syndrome, similar to the more well-known Wolff-Parkinson-White (WPW) syndrome. However, unlike WPW syndrome, LGL syndrome does not involve an accessory pathway for conduction. Instead, it is believed that there may be accessory fibers present that bypass all or part of the atrioventricular node.

      When looking at an electrocardiogram (ECG) of a patient with LGL syndrome in sinus rhythm, there are several characteristic features to observe. The PR interval, which represents the time it takes for the electrical signal to travel from the atria to the ventricles, is typically shortened and measures less than 120 milliseconds. The QRS duration, which represents the time it takes for the ventricles to contract, is normal. The P wave, which represents the electrical activity of the atria, may be normal or inverted. However, what distinguishes LGL syndrome from other pre-excitation syndromes is the absence of a delta wave, which is a slurring of the initial rise in the QRS complex.

      It is important to note that LGL syndrome predisposes individuals to paroxysmal supraventricular tachycardia (SVT), a rapid heart rhythm that originates above the ventricles. However, it does not increase the risk of developing atrial fibrillation or flutter, which are other types of abnormal heart rhythms.

    • This question is part of the following fields:

      • Cardiology
      11.6
      Seconds
  • Question 21 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Correct

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      What is a potential cause of post-renal AKI?

      Your Answer: Papillary necrosis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of urea and other waste products in the body and disrupts the balance of fluids and electrolytes. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases that develop outside of healthcare settings are due to pre-renal causes, accounting for 90% of cases. These causes typically involve low blood pressure associated with conditions like sepsis and fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated.

      Pre-renal:
      – Volume depletion (e.g., severe bleeding, excessive vomiting or diarrhea, burns)
      – Oedematous states (e.g., heart failure, liver cirrhosis, nephrotic syndrome)
      – Low blood pressure (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe heart failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular diseases (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged lack of blood supply
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular diseases (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Kidney stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal

    • This question is part of the following fields:

      • Nephrology
      12.4
      Seconds
  • Question 22 - A 32 year old male is brought into the emergency department by coworkers....

    Incorrect

    • A 32 year old male is brought into the emergency department by coworkers. The patient was having lunch when he started to experience wheezing and noticed swelling in his lips. He is immediately taken to the resuscitation bay. One of the coworkers mentions that they saw the patient take a pill with his meal. Which of the following medications or medication classes is the primary culprit for inducing anaphylaxis?

      Your Answer: Angiotensin converting enzyme Inhibitors

      Correct Answer: Antibiotics

      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.
      https://www.resus.org.uk/sites/default/files/2021-05/Emergency%20Treatment%20of%20Anaphylaxis%20May%202021_0.pdf

    • This question is part of the following fields:

      • Pharmacology & Poisoning
      34.2
      Seconds
  • Question 23 - A 25-year-old male presents to the emergency department with notable facial swelling following...

    Correct

    • A 25-year-old male presents to the emergency department with notable facial swelling following an assault. A facial fracture is suspected due to the patient losing consciousness during the incident. As a precaution, the decision is made to send him for CT scans of the brain and facial views. The CT results confirm a zygomaticomaxillary complex (ZMC) fracture, but no mandible fracture is observed. Upon examination, it is observed that the patient is experiencing difficulty fully opening or closing their mouth. What is the probable cause of this issue?

      Your Answer: Temporalis muscle entrapment

      Explanation:

      Injuries to the zygomatic arch that result in limited mouth opening or closing can occur when the temporalis muscle or mandibular condyle becomes trapped. If this happens, it is important to seek immediate medical attention. It is worth noting that the muscles responsible for chewing (masseter, temporalis, medial pterygoid, and lateral pterygoid) are innervated by the mandibular nerve (V3).

      Further Reading:

      Zygomatic injuries, also known as zygomatic complex fractures, involve fractures of the zygoma bone and often affect surrounding bones such as the maxilla and temporal bones. These fractures can be classified into four positions: the lateral and inferior orbital rim, the zygomaticomaxillary buttress, and the zygomatic arch. The full extent of these injuries may not be visible on plain X-rays and may require a CT scan for accurate diagnosis.

      Zygomatic fractures can pose risks to various structures in the face. The temporalis muscle and coronoid process of the mandible may become trapped in depressed fractures of the zygomatic arch. The infraorbital nerve, which passes through the infraorbital foramen, can be injured in zygomaticomaxillary complex fractures. In orbital floor fractures, the inferior rectus muscle may herniate into the maxillary sinus.

      Clinical assessment of zygomatic injuries involves observing facial asymmetry, depressed facial bones, contusion, and signs of eye injury. Visual acuity must be assessed, and any persistent bleeding from the nose or mouth should be noted. Nasal injuries, including septal hematoma, and intra-oral abnormalities should also be evaluated. Tenderness of facial bones and the temporomandibular joint should be assessed, along with any step deformities or crepitus. Eye and jaw movements must also be evaluated.

      Imaging for zygomatic injuries typically includes facial X-rays, such as occipitomental views, and CT scans for a more detailed assessment. It is important to consider the possibility of intracranial hemorrhage and cervical spine injury in patients with facial fractures.

      Management of most zygomatic fractures can be done on an outpatient basis with maxillofacial follow-up, assuming the patient is stable and there is no evidence of eye injury. However, orbital floor fractures should be referred immediately to ophthalmologists or maxillofacial surgeons. Zygomatic arch injuries that restrict mouth opening or closing due to entrapment of the temporalis muscle or mandibular condyle also require urgent referral. Nasal fractures, often seen in conjunction with other facial fractures, can be managed by outpatient ENT follow-up but should be referred urgently if there is uncontrolled epistaxis, CSF rhinorrhea, or septal hematoma.

    • This question is part of the following fields:

      • Maxillofacial & Dental
      283
      Seconds
  • Question 24 - You are managing a 62-year-old male patient presenting with symptomatic bradycardia. Despite multiple...

    Correct

    • You are managing a 62-year-old male patient presenting with symptomatic bradycardia. Despite multiple administrations of atropine, there has been no improvement in the patient's condition. Which two medications would be the most suitable options to consider next for treating this rhythm?

      Your Answer: Adrenaline/Isoprenaline

      Explanation:

      Adrenaline and isoprenaline are considered as second-line medications for the treatment of bradycardia. If atropine fails to improve the condition, transcutaneous pacing is recommended. However, if pacing is not available, the administration of second-line drugs becomes necessary. Adrenaline is typically given intravenously at a dosage of 2-10 mcg/minute, while isoprenaline is given at a dosage of 5 mcg/minute. It is important to note that glucagon is not mentioned as a treatment option for this patient’s bradycardia, as the cause of the condition is not specified as a beta-blocker overdose.

      Further Reading:

      Causes of Bradycardia:
      – Physiological: Athletes, sleeping
      – Cardiac conduction dysfunction: Atrioventricular block, sinus node disease
      – Vasovagal & autonomic mediated: Vasovagal episodes, carotid sinus hypersensitivity
      – Hypothermia
      – Metabolic & electrolyte disturbances: Hypothyroidism, hyperkalaemia, hypermagnesemia
      – Drugs: Beta-blockers, calcium channel blockers, digoxin, amiodarone
      – Head injury: Cushing’s response
      – Infections: Endocarditis
      – Other: Sarcoidosis, amyloidosis

      Presenting symptoms of Bradycardia:
      – Presyncope (dizziness, lightheadedness)
      – Syncope
      – Breathlessness
      – Weakness
      – Chest pain
      – Nausea

      Management of Bradycardia:
      – Assess and monitor for adverse features (shock, syncope, myocardial ischaemia, heart failure)
      – Treat reversible causes of bradycardia
      – Pharmacological treatment: Atropine is first-line, adrenaline and isoprenaline are second-line
      – Transcutaneous pacing if atropine is ineffective
      – Other drugs that may be used: Aminophylline, dopamine, glucagon, glycopyrrolate

      Bradycardia Algorithm:
      – Follow the algorithm for management of bradycardia, which includes assessing and monitoring for adverse features, treating reversible causes, and using appropriate medications or pacing as needed.
      https://acls-algorithms.com/wp-content/uploads/2020/12/Website-Bradycardia-Algorithm-Diagram.pdf

    • This question is part of the following fields:

      • Cardiology
      17.3
      Seconds
  • Question 25 - You have just performed rapid sequence induction using ketamine and rocuronium and placed...

    Correct

    • You have just performed rapid sequence induction using ketamine and rocuronium and placed an endotracheal tube under consultant supervision. What is the time interval from administration of rocuronium to the onset of paralysis?

      Your Answer: 45-60 seconds

      Explanation:

      Both suxamethonium and rocuronium take approximately 45-60 seconds to induce paralysis. The time it takes for rocuronium to cause paralysis is similar to that of suxamethonium, which is also around 45-60 seconds.

      Further Reading:

      Rapid sequence induction (RSI) is a method used to place an endotracheal tube (ETT) in the trachea while minimizing the risk of aspiration. It involves inducing loss of consciousness while applying cricoid pressure, followed by intubation without face mask ventilation. The steps of RSI can be remembered using the 7 P’s: preparation, pre-oxygenation, pre-treatment, paralysis and induction, protection and positioning, placement with proof, and post-intubation management.

      Preparation involves preparing the patient, equipment, team, and anticipating any difficulties that may arise during the procedure. Pre-oxygenation is important to ensure the patient has an adequate oxygen reserve and prolongs the time before desaturation. This is typically done by breathing 100% oxygen for 3 minutes. Pre-treatment involves administering drugs to counter expected side effects of the procedure and anesthesia agents used.

      Paralysis and induction involve administering a rapid-acting induction agent followed by a neuromuscular blocking agent. Commonly used induction agents include propofol, ketamine, thiopentone, and etomidate. The neuromuscular blocking agents can be depolarizing (such as suxamethonium) or non-depolarizing (such as rocuronium). Depolarizing agents bind to acetylcholine receptors and generate an action potential, while non-depolarizing agents act as competitive antagonists.

      Protection and positioning involve applying cricoid pressure to prevent regurgitation of gastric contents and positioning the patient’s neck appropriately. Tube placement is confirmed by visualizing the tube passing between the vocal cords, auscultation of the chest and stomach, end-tidal CO2 measurement, and visualizing misting of the tube. Post-intubation management includes standard care such as monitoring ECG, SpO2, NIBP, capnography, and maintaining sedation and neuromuscular blockade.

      Overall, RSI is a technique used to quickly and safely secure the airway in patients who may be at risk of aspiration. It involves a series of steps to ensure proper preparation, oxygenation, drug administration, and tube placement. Monitoring and post-intubation care are also important aspects of RSI.

    • This question is part of the following fields:

      • Basic Anaesthetics
      18.5
      Seconds
  • Question 26 - A 38 year old is participating in a charity mountain trek up Mount...

    Correct

    • A 38 year old is participating in a charity mountain trek up Mount Kilimanjaro but falls ill at an elevation of 3800m. What clinical feature helps differentiate high altitude cerebral edema from acute mountain sickness?

      Your Answer: Ataxia

      Explanation:

      High Altitude Cerebral Edema (HACE) is a condition that develops from acute mountain sickness (AMS). Ataxia, which refers to a lack of coordination, is the primary early indication of HACE. The mentioned symptoms are typical characteristics of AMS.

      Further Reading:

      High Altitude Illnesses

      Altitude & Hypoxia:
      – As altitude increases, atmospheric pressure decreases and inspired oxygen pressure falls.
      – Hypoxia occurs at altitude due to decreased inspired oxygen.
      – At 5500m, inspired oxygen is approximately half that at sea level, and at 8900m, it is less than a third.

      Acute Mountain Sickness (AMS):
      – AMS is a clinical syndrome caused by hypoxia at altitude.
      – Symptoms include headache, anorexia, sleep disturbance, nausea, dizziness, fatigue, malaise, and shortness of breath.
      – Symptoms usually occur after 6-12 hours above 2500m.
      – Risk factors for AMS include previous AMS, fast ascent, sleeping at altitude, and age <50 years old.
      – The Lake Louise AMS score is used to assess the severity of AMS.
      – Treatment involves stopping ascent, maintaining hydration, and using medication for symptom relief.
      – Medications for moderate to severe symptoms include dexamethasone and acetazolamide.
      – Gradual ascent, hydration, and avoiding alcohol can help prevent AMS.

      High Altitude Pulmonary Edema (HAPE):
      – HAPE is a progression of AMS but can occur without AMS symptoms.
      – It is the leading cause of death related to altitude illness.
      – Risk factors for HAPE include rate of ascent, intensity of exercise, absolute altitude, and individual susceptibility.
      – Symptoms include dyspnea, cough, chest tightness, poor exercise tolerance, cyanosis, low oxygen saturations, tachycardia, tachypnea, crepitations, and orthopnea.
      – Management involves immediate descent, supplemental oxygen, keeping warm, and medication such as nifedipine.

      High Altitude Cerebral Edema (HACE):
      – HACE is thought to result from vasogenic edema and increased vascular pressure.
      – It occurs 2-4 days after ascent and is associated with moderate to severe AMS symptoms.
      – Symptoms include headache, hallucinations, disorientation, confusion, ataxia, drowsiness, seizures, and manifestations of raised intracranial pressure.
      – Immediate descent is crucial for management, and portable hyperbaric therapy may be used if descent is not possible.
      – Medication for treatment includes dexamethasone and supplemental oxygen. Acetazolamide is typically used for prophylaxis.

    • This question is part of the following fields:

      • Environmental Emergencies
      7.2
      Seconds
  • Question 27 - A 3-year-old boy has a fever accompanied by a sore throat and a...

    Correct

    • A 3-year-old boy has a fever accompanied by a sore throat and a decreased desire to eat. His mother has observed itchy patches on the palms of his hands and soles of his feet. During your examination, you observe small red sores in his mouth.
      What is the SINGLE most probable causative organism in this scenario?

      Your Answer: Coxsackie A

      Explanation:

      Hand-foot-and-mouth disease is a viral syndrome characterized by a unique rash and sores. The main culprit behind this condition is typically the Coxsackie A16 virus. After being exposed to the virus, it takes about 3-5 days for symptoms to appear. The disease spreads through droplets in the air. Before the rash and sores develop, individuals may experience a pre-illness phase with symptoms like a sore throat and mouth ulcers. This condition primarily affects children under the age of ten. In addition to the rash, most children will also develop spots on their hands and feet.

      When it comes to treatment, the focus is mainly on providing support. This involves using antipyretics to reduce fever and ensuring that the affected individual stays well-hydrated. Due to the mouth ulcers, loss of appetite is common, so it’s important to encourage adequate fluid intake.

    • This question is part of the following fields:

      • Dermatology
      19
      Seconds
  • Question 28 - You are requested to standby in the resuscitation bay as the paramedics are...

    Correct

    • You are requested to standby in the resuscitation bay as the paramedics are transporting a 70-year-old male who has experienced cardiac arrest at a shopping mall. What is the primary cause for the majority of out-of-hospital cardiac arrests?

      Your Answer: Cardiovascular disease

      Explanation:

      The primary cause for the majority of out-of-hospital cardiac arrests is cardiovascular disease. This refers to conditions that affect the heart and blood vessels, such as coronary artery disease, heart attacks, and arrhythmias. These conditions can lead to sudden cardiac arrest.

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

    • This question is part of the following fields:

      • Resus
      41.7
      Seconds
  • Question 29 - A 10-year-old girl comes in with sudden abdominal pain. She has a high...

    Correct

    • A 10-year-old girl comes in with sudden abdominal pain. She has a high temperature and feels very nauseous. During the examination, she experiences tenderness in the right iliac fossa. You suspect she may have acute appendicitis.
      What is the surface marking for McBurney's point in this case?

      Your Answer: One-third of the distance from the anterior superior iliac spine to the umbilicus

      Explanation:

      Appendicitis is a condition characterized by the acute inflammation of the appendix. It is a common cause of the acute abdomen, particularly affecting children and young adults in their 20s and 30s. The typical presentation of appendicitis involves experiencing poorly localized periumbilical pain, which is pain originating from the visceral peritoneum. Within a day or two, this pain tends to localize to a specific point known as McBurney’s point, which is associated with pain from the parietal peritoneum. Alongside the pain, individuals with appendicitis often experience symptoms such as fever, loss of appetite, and nausea.

      McBurney’s point is defined as the point that lies one-third of the distance from the anterior superior iliac spine to the umbilicus. This point roughly corresponds to the most common position where the base of the appendix attaches to the caecum.

    • This question is part of the following fields:

      • Surgical Emergencies
      24
      Seconds
  • Question 30 - You are participating in an expedition medicine training program organized by your emergency...

    Correct

    • You are participating in an expedition medicine training program organized by your emergency department. The training session is centered around identifying and treating altitude illnesses. When it comes to acute mountain sickness (AMS), which of the following instruments is recommended for evaluating the severity of AMS?

      Your Answer: Lake Louise score

      Explanation:

      The Lake Louise score is widely accepted as the standard method for evaluating the seriousness of Acute Mountain Sickness (AMS). The scoring system, outlined below, is used to determine the severity of AMS. A score of 3 or higher is indicative of AMS.

      Further Reading:

      High Altitude Illnesses

      Altitude & Hypoxia:
      – As altitude increases, atmospheric pressure decreases and inspired oxygen pressure falls.
      – Hypoxia occurs at altitude due to decreased inspired oxygen.
      – At 5500m, inspired oxygen is approximately half that at sea level, and at 8900m, it is less than a third.

      Acute Mountain Sickness (AMS):
      – AMS is a clinical syndrome caused by hypoxia at altitude.
      – Symptoms include headache, anorexia, sleep disturbance, nausea, dizziness, fatigue, malaise, and shortness of breath.
      – Symptoms usually occur after 6-12 hours above 2500m.
      – Risk factors for AMS include previous AMS, fast ascent, sleeping at altitude, and age <50 years old.
      – The Lake Louise AMS score is used to assess the severity of AMS.
      – Treatment involves stopping ascent, maintaining hydration, and using medication for symptom relief.
      – Medications for moderate to severe symptoms include dexamethasone and acetazolamide.
      – Gradual ascent, hydration, and avoiding alcohol can help prevent AMS.

      High Altitude Pulmonary Edema (HAPE):
      – HAPE is a progression of AMS but can occur without AMS symptoms.
      – It is the leading cause of death related to altitude illness.
      – Risk factors for HAPE include rate of ascent, intensity of exercise, absolute altitude, and individual susceptibility.
      – Symptoms include dyspnea, cough, chest tightness, poor exercise tolerance, cyanosis, low oxygen saturations, tachycardia, tachypnea, crepitations, and orthopnea.
      – Management involves immediate descent, supplemental oxygen, keeping warm, and medication such as nifedipine.

      High Altitude Cerebral Edema (HACE):
      – HACE is thought to result from vasogenic edema and increased vascular pressure.
      – It occurs 2-4 days after ascent and is associated with moderate to severe AMS symptoms.
      – Symptoms include headache, hallucinations, disorientation, confusion, ataxia, drowsiness, seizures, and manifestations of raised intracranial pressure.
      – Immediate descent is crucial for management, and portable hyperbaric therapy may be used if descent is not possible.
      – Medication for treatment includes dexamethasone and supplemental oxygen. Acetazolamide is typically used for prophylaxis.

    • This question is part of the following fields:

      • Environmental Emergencies
      9
      Seconds

SESSION STATS - PERFORMANCE PER SPECIALTY

Ear, Nose & Throat (1/2) 50%
Basic Anaesthetics (3/4) 75%
Elderly Care / Frailty (0/1) 0%
Urology (0/2) 0%
Pharmacology & Poisoning (1/3) 33%
Dermatology (2/2) 100%
Gastroenterology & Hepatology (0/2) 0%
Respiratory (0/1) 0%
Palliative & End Of Life Care (1/1) 100%
Endocrinology (1/1) 100%
Trauma (1/1) 100%
Ophthalmology (1/1) 100%
Surgical Emergencies (2/2) 100%
Cardiology (2/2) 100%
Nephrology (1/1) 100%
Maxillofacial & Dental (1/1) 100%
Environmental Emergencies (2/2) 100%
Resus (1/1) 100%
Passmed