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Question 1
Incorrect
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A 5-year-old girl is brought to the Emergency Department by her parents. For the past two days, she has had severe diarrhoea and vomiting. She has not passed urine so far today. She usually weighs 20 kg. On examination, she has sunken eyes and dry mucous membranes. She is tachycardia and tachypnoeic and has cool peripheries. Her capillary refill time is prolonged.
What volume of fluid would you administer for your initial fluid bolus?Your Answer: 1000 ml
Correct Answer: 600 ml
Explanation:Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. When we say 5% dehydration, it means that the body has lost 5 grams per 100 grams of body weight, which is equivalent to 50 milliliters per kilogram of fluid. Similarly, 10% dehydration implies a fluid loss of 100 milliliters per kilogram of fluid.
In the case of this child, they are 10% dehydrated, which means they have lost 100 milliliters per kilogram of fluid. Considering their weight of 30 kilograms, their estimated fluid loss amounts to 100 multiplied by 30, which equals 3000 milliliters.
Since this child is also in shock, they should receive a fluid bolus of 20 milliliters per kilogram. Therefore, the initial volume of fluid to administer would be 20 multiplied by 30 milliliters, resulting in 600 milliliters.
To summarize the clinical features of dehydration and shock, please refer below:
Dehydration (5%):
– The child appears unwell
– Normal heart rate or tachycardia
– Normal respiratory rate or tachypnea
– Normal peripheral pulses
– Normal or mildly prolonged capillary refill time (CRT)
– Normal blood pressure
– Warm extremities
– Decreased urine output
– Reduced skin turgor
– Sunken eyes
– Depressed fontanelle
– Dry mucous membranesClinical shock (10%):
– Pale, lethargic, mottled appearance
– Tachycardia
– Tachypnea
– Weak peripheral pulses
– Prolonged capillary refill time (CRT)
– Hypotension
– Cold extremities
– Decreased urine output
– Decreased level of consciousness -
This question is part of the following fields:
- Nephrology
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Question 2
Incorrect
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A 28-year-old woman comes to the GP complaining of a painful lump in her breast that she noticed two days ago. She also mentions feeling tired all the time. She recently had her first baby four weeks ago and is currently breastfeeding without any issues. During the examination, a poorly defined lump measuring approximately 5 cm in diameter is found just below the left nipple in the outer lower quadrant of the left breast. The skin above the lump is red, and it feels soft and tender when touched.
What is the MOST likely diagnosis for this patient?Your Answer: Fibroadenoma
Correct Answer: Breast abscess
Explanation:A breast abscess is a localized accumulation of pus in the breast tissue. It often occurs in women who are breastfeeding and is typically caused by bacteria entering through a crack in the nipple. However, it can also develop in non-lactating women after breast trauma or in individuals with a weakened immune system.
The common presentation of a breast abscess includes a tender lump in a specific area of the breast, which may be accompanied by redness of the skin. Additionally, the patient may experience fever and overall feelings of illness.
Diagnosis of a breast abscess is usually made based on clinical examination. However, an ultrasound scan can be utilized to assist in confirming the diagnosis. Treatment involves draining the abscess through incision and then administering antibiotics to prevent further infection.
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This question is part of the following fields:
- Surgical Emergencies
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Question 3
Incorrect
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You diagnose a pediatric trauma patient with a right sided tension pneumothorax and plan to perform needle thoracentesis. Which of the following is the most appropriate anatomical landmark to use for needle insertion?
Your Answer: 2nd intercostal space midclavicular line
Correct Answer: 5th intercostal space midaxillary line
Explanation:A pneumothorax is an abnormal collection of air in the pleural cavity of the lung. It can be classified by cause as primary spontaneous, secondary spontaneous, or traumatic. Primary spontaneous pneumothorax occurs without any obvious cause in the absence of underlying lung disease, while secondary spontaneous pneumothorax occurs in patients with significant underlying lung diseases. Traumatic pneumothorax is caused by trauma to the lung, often from blunt or penetrating chest wall injuries.
Tension pneumothorax is a life-threatening condition where the collection of air in the pleural cavity expands and compresses normal lung tissue and mediastinal structures. It can be caused by any of the aforementioned types of pneumothorax. Immediate management of tension pneumothorax involves the ABCDE approach, which includes ensuring a patent airway, controlling the C-spine, providing supplemental oxygen, establishing IV access for fluid resuscitation, and assessing and managing other injuries.
Treatment of tension pneumothorax involves needle thoracocentesis as a temporary measure to provide immediate decompression, followed by tube thoracostomy as definitive management. Needle thoracocentesis involves inserting a 14g cannula into the pleural space, typically via the 4th or 5th intercostal space midaxillary line. If the patient is peri-arrest, immediate thoracostomy is advised.
The pathophysiology of tension pneumothorax involves disruption to the visceral or parietal pleura, allowing air to flow into the pleural space. This can occur through an injury to the lung parenchyma and visceral pleura, or through an entry wound to the external chest wall in the case of a sucking pneumothorax. Injured tissue forms a one-way valve, allowing air to enter the pleural space with inhalation but prohibiting air outflow. This leads to a progressive increase in the volume of non-absorbable intrapleural air with each inspiration, causing pleural volume and pressure to rise within the affected hemithorax.
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This question is part of the following fields:
- Resus
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Question 4
Incorrect
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A 7-year-old girl is hit by a car while crossing the street. She is brought to the resus area of your Emergency Department by a blue light ambulance. A trauma call is initiated, and a primary survey is conducted. She is stable hemodynamically, and the only abnormality found is a significantly swollen and deformed left thigh area. An X-ray is taken, which shows a fracture in the proximal femoral shaft. The child is experiencing intense pain, and you prepare to apply skin traction to immobilize the fracture.
What percentage of the child's body weight should be applied to the skin traction?Your Answer: 5%
Correct Answer: 10%
Explanation:Femoral shaft fractures are quite common among children and have a significant impact on both the child and their family. It is important to carefully examine children with these fractures for any associated injuries, such as soft-tissue injury, head trauma, or additional fractures. In fact, up to 40% of children who experience a femoral shaft fracture due to high-energy trauma may have these associated injuries. Additionally, a thorough neurovascular examination should be conducted.
Rapidly immobilizing the limb is crucial for managing pain and limiting further blood loss from the fracture. For distal femoral shaft fractures, well-padded long leg splints with split plaster casts can be applied. However, for more proximal shaft fractures, long leg splints alone may not provide adequate control. In these cases, skin traction is a better option. Skin traction involves attaching a large foam pad to the patient’s lower leg using spray adhesive. A weight, approximately 10% of the child’s body weight, is then applied to the foam pad and allowed to hang over the foot of the bed. This constant longitudinal traction helps keep the bone fragments aligned.
When children experience severe pain, it is important to manage it aggressively yet safely. Immobilizing the fracture can provide significant relief. The Royal College of Emergency Medicine recommends other pain control measures for children, such as intranasal diamorphine (0.1 mg/kg in 0.2 ml sterile water), intravenous morphine (0.1-0.2 mg/kg), and oral analgesia (e.g., paracetamol 20 mg/kg, max 1 g, and ibuprofen 10 mg/kg, max 400 mg).
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This question is part of the following fields:
- Pain & Sedation
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Question 5
Incorrect
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You are requested to assess a 52-year-old individual who has experienced cyanosis and a severe headache after receiving a local anesthetic injection for a regional block. The junior doctor is currently collecting a venous blood sample for analysis. What would be the most suitable course of treatment in this case?
Your Answer: IV hydroxocobalamin 5g over 15 minutes
Correct Answer: IV methylene blue 1-2 mg/kg over 5 mins
Explanation:If a patient is critically ill and shows symptoms highly indicative of methemoglobinemia, treatment may be started before the blood results are available.
Bier’s block is a regional intravenous anesthesia technique commonly used for minor surgical procedures of the forearm or for reducing distal radius fractures in the emergency department (ED). It is recommended by NICE as the preferred anesthesia block for adults requiring manipulation of distal forearm fractures in the ED.
Before performing the procedure, a pre-procedure checklist should be completed, including obtaining consent, recording the patient’s weight, ensuring the resuscitative equipment is available, and monitoring the patient’s vital signs throughout the procedure. The air cylinder should be checked if not using an electronic machine, and the cuff should be checked for leaks.
During the procedure, a double cuff tourniquet is placed on the upper arm, and the arm is elevated to exsanguinate the limb. The proximal cuff is inflated to a pressure 100 mmHg above the systolic blood pressure, up to a maximum of 300 mmHg. The time of inflation and pressure should be recorded, and the absence of the radial pulse should be confirmed. 0.5% plain prilocaine is then injected slowly, and the time of injection is recorded. The patient should be warned about the potential cold/hot sensation and mottled appearance of the arm. After injection, the cannula is removed and pressure is applied to the venipuncture site to prevent bleeding. After approximately 10 minutes, the patient should have anesthesia and should not feel pain during manipulation. If anesthesia is successful, the manipulation can be performed, and a plaster can be applied by a second staff member. A check x-ray should be obtained with the arm lowered onto a pillow. The tourniquet should be monitored at all times, and the cuff should be inflated for a minimum of 20 minutes and a maximum of 45 minutes. If rotation of the cuff is required, it should be done after the manipulation and plaster application. After the post-reduction x-ray is satisfactory, the cuff can be deflated while observing the patient and monitors. Limb circulation should be checked prior to discharge, and appropriate follow-up and analgesia should be arranged.
There are several contraindications to performing Bier’s block, including allergy to local anesthetic, hypertension over 200 mm Hg, infection in the limb, lymphedema, methemoglobinemia, morbid obesity, peripheral vascular disease, procedures needed in both arms, Raynaud’s phenomenon, scleroderma, severe hypertension and sickle cell disease.
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This question is part of the following fields:
- Basic Anaesthetics
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Question 6
Incorrect
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A 35-year-old woman is injured in a car crash and sustains severe facial trauma. Imaging tests show that she has a Le Fort II fracture.
What is the most accurate description of the injury pattern seen in a Le Fort II fracture?Your Answer: Horizontal fracture across the inferior aspect of the maxilla
Correct Answer: Pyramidal-shaped fracture, with the teeth at the base of the pyramid and the nasofrontal suture at the apex
Explanation:Le Fort fractures are complex fractures of the midface that involve the maxillary bone and surrounding structures. These fractures can occur in a horizontal, pyramidal, or transverse direction. The distinguishing feature of Le Fort fractures is the traumatic separation of the pterygomaxillary region. They make up approximately 10% to 20% of all facial fractures and can have severe consequences, both in terms of potential life-threatening injuries and disfigurement.
The Le Fort classification system categorizes midface fractures into three groups based on the plane of injury. As the classification level increases, the location of the maxillary fracture moves from inferior to superior within the maxilla.
Le Fort I fractures are horizontal fractures that occur across the lower aspect of the maxilla. These fractures cause the teeth to separate from the upper face and extend through the lower nasal septum, the lateral wall of the maxillary sinus, and into the palatine bones and pterygoid plates. They are sometimes referred to as a floating palate because they often result in the mobility of the hard palate from the midface. Common accompanying symptoms include facial swelling, loose teeth, dental fractures, and misalignment of the teeth.
Le Fort II fractures are pyramidal-shaped fractures, with the base of the pyramid located at the level of the teeth and the apex at the nasofrontal suture. The fracture line extends from the nasal bridge and passes through the superior wall of the maxilla, the lacrimal bones, the inferior orbital floor and rim, and the anterior wall of the maxillary sinus. These fractures are sometimes called a floating maxilla because they typically result in the mobility of the maxilla from the midface. Common symptoms include facial swelling, nosebleeds, subconjunctival hemorrhage, cerebrospinal fluid leakage from the nose, and widening and flattening of the nasal bridge.
Le Fort III fractures are transverse fractures of the midface. The fracture line passes through the nasofrontal suture, the maxillo frontal suture, the orbital wall, and the zygomatic arch and zygomaticofrontal suture. These fractures cause separation of all facial bones from the cranial base, earning them the nickname craniofacial disjunction or floating face fractures. They are the rarest and most severe type of Le Fort fracture. Common symptoms include significant facial swelling, bruising around the eyes, facial flattening, and the entire face can be shifted.
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This question is part of the following fields:
- Maxillofacial & Dental
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Question 7
Incorrect
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With freezing temperatures anticipated, your consultant requests that you organize a teaching session for the junior physicians regarding the management of frostbite. What imaging modality is preferred for evaluating perfusion abnormalities in extremities impacted by frostbite?
Your Answer: Magnetic resonance angiography
Correct Answer: Technetium 99 (Tc-99) pertechnetate scintigraphy
Explanation:Technetium 99 (Tc-99) pertechnetate scintigraphy is the preferred imaging method for evaluating frostbite. This technique is highly accurate in detecting tissue damage and provides both sensitivity and specificity.
Further Reading:
Hypothermia is defined as a core temperature below 35ºC and can be graded as mild, moderate, severe, or profound based on the core temperature. When the core temperature drops, the basal metabolic rate decreases and cell signaling between neurons decreases, leading to reduced tissue perfusion. This can result in decreased myocardial contractility, vasoconstriction, ventilation-perfusion mismatch, and increased blood viscosity. Symptoms of hypothermia progress as the core temperature drops, starting with compensatory increases in heart rate and shivering, and eventually leading to bradyarrhythmias, prolonged PR, QRS, and QT intervals, and cardiac arrest.
In the management of hypothermic cardiac arrest, ALS should be initiated with some modifications. The pulse check during CPR should be prolonged to 1 minute due to difficulty in obtaining a pulse. Rewarming the patient is important, and mechanical ventilation may be necessary due to stiffness of the chest wall. Drug metabolism is slowed in hypothermic patients, so dosing of drugs should be adjusted or withheld. Electrolyte disturbances are common in hypothermic patients and should be corrected.
Frostbite refers to a freezing injury to human tissue and occurs when tissue temperature drops below 0ºC. It can be classified as superficial or deep, with superficial frostbite affecting the skin and subcutaneous tissues, and deep frostbite affecting bones, joints, and tendons. Frostbite can be classified from 1st to 4th degree based on the severity of the injury. Risk factors for frostbite include environmental factors such as cold weather exposure and medical factors such as peripheral vascular disease and diabetes.
Signs and symptoms of frostbite include skin changes, cold sensation or firmness to the affected area, stinging, burning, or numbness, clumsiness of the affected extremity, and excessive sweating, hyperemia, and tissue gangrene. Frostbite is diagnosed clinically and imaging may be used in some cases to assess perfusion or visualize occluded vessels. Management involves moving the patient to a warm environment, removing wet clothing, and rapidly rewarming the affected tissue. Analgesia should be given as reperfusion is painful, and blisters should be de-roofed and aloe vera applied. Compartment syndrome is a risk and should be monitored for. Severe cases may require surgical debridement of amputation.
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This question is part of the following fields:
- Dermatology
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Question 8
Incorrect
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A 3-year-old child is brought in by his father complaining of itchy skin on his arms. He has a history of allergies, and over the past few days, both of his arms have become covered in small red bumps. His father also reports that he has had a low-grade fever of 37.8°C. During the examination, you observe significant swelling of the lymph nodes in his neck. While speaking with his father, you notice a scabbing sore on the right side of his mouth.
What is the SINGLE most likely diagnosis?Your Answer: Shingles
Correct Answer: Eczema herpeticum
Explanation:Eczema herpeticum occurs when an individual with atopic eczema comes into contact with the herpes simplex virus. While some patients may only experience typical cold sores, others may develop a more extensive infection. This condition is often accompanied by systemic disturbance and can be quite painful. Administering antiviral treatment can help reduce the duration of the illness. In cases where the rash is widespread or there are concerns about eye complications, hospital admission may be necessary for intravenous antiviral therapy.
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This question is part of the following fields:
- Dermatology
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Question 9
Incorrect
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A 45-year-old woman presents with a 6-month history of lower back pain and rib pain. She has been brought to your clinic today by her husband, who is concerned about her confusion over the past few days. She has also had difficulty passing urine today. On examination, she appears pale and has tenderness over her lumbar spine and lower ribs. Fundoscopy reveals retinal haemorrhages. Her most recent blood results are shown below:
Hb 8.4 g/dl (13-17 g/dl)
MCV 102.6 fl (80-100 fl)
Platelets 114 x 109/l (150-400 x 109/l)
WCC 3.4 x 109/l (4-11 x 109/l)
Normal differential
Sodium 140 mmol/l (135-145 mmol/l)
Potassium 4.6 mmol/l (3.5-5.0 mmol/l)
Calcium 2.94 mmol/l (2.05-2.60 mmol/l)
Creatinine 193 mmol/l (60-110 mmol/l)
Urea 11.2 mmol/l (3-7 mmol/l)
Total protein 88 g/l (60-85 g/l)
Albumin 23 g/l (36-52 g/l)
ESR 132 mm/hr (30 mm/hr)
Which is the SINGLE most likely diagnosis?Your Answer: Vitamin B12 deficiency
Correct Answer: Multiple myeloma
Explanation:Multiple myeloma is a cancerous growth of plasma cells, a type of white blood cell responsible for producing antibodies. It is more prevalent in men and typically occurs in individuals over the age of 60.
When a patient over 60 presents with an elevated ESR, unexplained anemia, hypercalcemia, renal impairment, and bone pain, the initial diagnosis is usually multiple myeloma until proven otherwise.
The most common symptoms of multiple myeloma include:
1. Anemia: This is caused by the infiltration of the bone marrow and suppression of blood cell production. It is typically normocytic and normochromic, but can also be macrocytic.
2. Bone pain: Approximately 70% of patients experience bone pain, which commonly affects the spine and ribs. Localized pain and tenderness may indicate a pathological fracture, and vertebral fractures can lead to spinal cord compression.
3. Renal failure: Acute or chronic renal failure occurs in about one-third of patients. This is generally due to the effects of light chains on the tubules.
4. Neurological symptoms: Hypercalcemia can cause weakness, lethargy, and confusion, while hyperviscosity can result in headaches and retinopathy. Amyloid infiltration can lead to peripheral neuropathies, with carpal tunnel syndrome being the most common.
5. Infection: The most common infections seen in multiple myeloma patients are pyelonephritis and pneumonia.
In addition to the routine blood tests already conducted, a suspected diagnosis of multiple myeloma should prompt further investigations, including:
– Plasma viscosity measurement
– Urinary protein electrophoresis to detect Bence-Jones proteins
– Serum electrophoresis to identify the type of paraprotein
– Quantitative immunoglobulin level testing
– Skeletal survey to look for lytic lesions
– Bone marrow aspirate and possibly biopsyA diagnosis of multiple myeloma is confirmed by the presence of a monoclonal protein in the serum or urine, lytic lesions on X-ray, and an increased number of plasma cells in the bone marrow.
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This question is part of the following fields:
- Haematology
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Question 10
Incorrect
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A 68 year old has been brought to the emergency department by ambulance with a history of collapsing shortly after complaining of severe chest pain and difficulty breathing. It has been determined that the patient needs rapid sequence induction after pre-oxygenation. What is the best position for the patient to be in during pre-oxygenation?
Your Answer: Supine
Correct Answer: 20-30 degrees head up tilt
Explanation:Several studies have shown that elevating the head by 20-30 degrees is beneficial for increasing oxygen levels compared to lying flat on the back.
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.
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This question is part of the following fields:
- Basic Anaesthetics
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Question 11
Correct
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A 32-year-old woman with a previous history of salpingitis presents with excessive vaginal bleeding. Her pregnancy test is positive, and a preliminary diagnosis of an ectopic pregnancy is made.
What is the most frequent anatomical site for an ectopic pregnancy to occur?Your Answer: Ampulla of Fallopian tube
Explanation:An ectopic pregnancy happens when the fertilized egg attaches itself outside of the uterus. In over 95% of cases, ectopic pregnancies occur in the Fallopian tubes. Although rare, they can also occur in other locations such as the abdomen, cervix, and ovary.
The most common location for an ectopic pregnancy in the Fallopian tube is the ampulla, accounting for approximately 70% of cases. The isthmus and infundibulum each account for 10-15% of cases, while the uterine part only accounts for 2-5%.
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This question is part of the following fields:
- Obstetrics & Gynaecology
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Question 12
Incorrect
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A 6-year-old child arrives in a deteriorated state with acute severe asthma. The child has a history of asthma and is currently on a daily maintenance dose of 5 mg prednisolone. The child weighs 18 kg.
Based on the BTS guidelines, what is the recommended dosage of prednisolone for this child?Your Answer: 10 mg
Correct Answer: 32 mg
Explanation:The BTS guidelines for acute asthma in children recommend administering oral steroids early in the treatment of asthma attacks. It is advised to give a dose of 20 mg prednisolone for children aged 2–5 years and a dose of 30–40 mg for children over 5 years old. If a child is already taking maintenance steroid tablets, they should receive 2 mg/kg prednisolone, up to a maximum dose of 60 mg. If a child vomits after taking the medication, the dose of prednisolone should be repeated. In cases where a child is unable to keep down orally ingested medication, intravenous steroids should be considered. Typically, treatment for up to three days is sufficient, but the duration of the course should be adjusted based on the time needed for recovery. Tapering off the medication is not necessary unless the steroid course exceeds 14 days. For more information, refer to the BTS/SIGN Guideline on the Management of Asthma.
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This question is part of the following fields:
- Respiratory
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Question 13
Incorrect
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You assess a patient who complained of chest discomfort and difficulty breathing. Upon examination, it is determined that the patient has developed a spontaneous pneumothorax on the right side, and an unsuccessful pleural aspiration was attempted. The pneumothorax remains significant in size, and the patient continues to experience breathlessness. A Seldinger chest tube is inserted, but shortly after, it begins to drain bright red blood.
Which complication is the most probable cause of this occurrence?Your Answer: Pulmonary artery laceration
Correct Answer: Intercostal artery laceration
Explanation:Intercostal artery laceration during the insertion of a chest drain is a potentially life-threatening complication. Although rare, it occurs more frequently than other complications mentioned. To minimize the risk of damage to underlying structures and unsightly scarring, the British Thoracic Society (BTS) recommends inserting chest drains within the safe triangle. This triangle is defined by the base of the axilla, the lateral border of the latissimus dorsi, the lateral border of the pectoralis major, and the 5th intercostal space.
Possible complications associated with the insertion of small-bore chest drains include puncture of the intercostal artery, organ perforation due to over-introduction of the dilator into the chest cavity, hospital-acquired pleural infection from non-aseptic techniques, inadequate stay suture leading to the chest tube falling out, and tube blockage, which may be more common with smaller bore Argyle drains.
When using an intercostal approach, it is important to place the chest drain closer to the superior border of the rib below in the intercostal space. This positioning helps avoid injury to the intercostal neurovascular bundle located under the costal groove of the rib above.
For more information, refer to the British Thoracic Society pleural disease guidelines.
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This question is part of the following fields:
- Respiratory
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Question 14
Incorrect
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A 35 year old male is brought to the emergency department by his wife with a 24 hour history of vomiting and increasing fatigue over the past 1-2 hours. Initial tests confirm a diagnosis of diabetic ketoacidosis and the patient is started on intravenous fluids and an insulin infusion. You are reminded by your attending physician to monitor the bicarbonate level and adjust the insulin infusion rate if it is not improving as anticipated. What is the minimum desired change in bicarbonate that should be aimed for?
Your Answer: Venous bicarbonate rising by at least 0.5 mmol/L/hr
Correct Answer: Venous bicarbonate rising by at least 3 mmol/L/hr
Explanation:When patients with diabetic ketoacidosis (DKA) are treated with insulin infusion, it is expected that their plasma bicarbonate levels will increase by at least 3 mmol/L per hour. Insulin therapy is aimed at correcting both hyperglycemia and ketoacidosis. However, if capillary ketones are not decreasing by at least 0.5 mmol/L per hour, venous bicarbonate is not rising by at least 3 mmol/L per hour, or plasma glucose is not decreasing by at least 3 mmol/L per hour, the insulin infusion rate should be reevaluated.
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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This question is part of the following fields:
- Endocrinology
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Question 15
Incorrect
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A 70-year-old male smoker comes in with intense chest pain. His ECG indicates an acute myocardial infarction and he is immediately taken to the cath lab. Angiography reveals a blockage in the left circumflex artery.
Which area of the heart is most likely affected in this scenario?Your Answer: Anterior
Correct Answer: Lateral
Explanation:A summary of the vessels involved in different types of myocardial infarction, along with the corresponding ECG leads and the location of the infarction.
For instance, an anteroseptal infarction involving the left anterior descending artery is indicated by ECG leads V1-V3. Similarly, an anterior infarction involving the left anterior descending artery is indicated by leads V3-V4.
In cases of anterolateral infarctions, both the left anterior descending artery and the left circumflex artery are involved, and this is reflected in ECG leads V5-V6. An extensive anterior infarction involving the left anterior descending artery is indicated by leads V1-V6.
Lateral infarcts involving the left circumflex artery are indicated by leads I, II, aVL, and V6. Inferior infarctions, on the other hand, involve either the right coronary artery (in 80% of cases) or the left circumflex artery (in 20% of cases), and this is shown by leads II, III, and aVF.
In the case of a right ventricular infarction, the right coronary artery is involved, and this is indicated by leads V1 and V4R. Lastly, a posterior infarction involving the right coronary artery is shown by leads V7-V9.
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This question is part of the following fields:
- Cardiology
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Question 16
Correct
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A 45 year old presents to the emergency department after a fall onto their outstretched left hand. An X-ray confirms a displaced fracture of the distal radius. Your consultant recommends reducing it under conscious sedation. What is the best description of conscious sedation?
Your Answer: Level of sedation where patient responds purposefully to verbal commands
Explanation:Conscious sedation involves a patient who can respond purposefully to verbal commands. It is different from deeper levels of sedation where the patient may only respond to painful stimuli or not respond at all. In conscious sedation, the patient can usually maintain their own airway and does not need assistance with breathing or cardiovascular support.
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.
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This question is part of the following fields:
- Basic Anaesthetics
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Question 17
Incorrect
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A 67 year old female attends the emergency department complaining of palpitations. The patient reports experiencing brief episodes of palpitations over the past few weeks, but they usually resolve themselves after 5-10 minutes. However, today's episode has been ongoing for 30 minutes. The patient denies any chest pain or shortness of breath. She is currently taking aspirin 75mg once daily as her only medication. Blood tests are conducted, and the results are as follows:
Hemoglobin (Hb): 115 g/l
Platelets: 155 * 109/l
White blood cells (WBC): 6.4 * 109/l
Sodium: 138 mmol/l
Potassium: 3.8 mmol/l
Urea: 4.1 mmol/l
Creatinine: 74 µmol/l
Glomerular filtration rate (GFR): 68 mL/min/1.73m2
An electrocardiogram (ECG) is performed, revealing atrial fibrillation. You decide to assess the patient's bleeding risk using the ORBIT tool. What is this patient's ORBIT score?Your Answer:
Correct Answer: 3
Explanation:Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia, affecting around 5% of patients over the age of 70-75 years and 10% of patients aged 80-85 years. While AF can cause palpitations and inefficient cardiac function, the most important aspect of managing patients with AF is reducing the increased risk of stroke.
AF can be classified as first detected episode, paroxysmal, persistent, or permanent. First detected episode refers to the initial occurrence of AF, regardless of symptoms or duration. Paroxysmal AF occurs when a patient has 2 or more self-terminating episodes lasting less than 7 days. Persistent AF refers to episodes lasting more than 7 days that do not self-terminate. Permanent AF is continuous atrial fibrillation that cannot be cardioverted or if attempts to do so are deemed inappropriate. The treatment goals for permanent AF are rate control and anticoagulation if appropriate.
Symptoms of AF include palpitations, dyspnea, and chest pain. The most common sign is an irregularly irregular pulse. An electrocardiogram (ECG) is essential for diagnosing AF, as other conditions can also cause an irregular pulse.
Managing patients with AF involves two key parts: rate/rhythm control and reducing stroke risk. Rate control involves slowing down the irregular pulse to avoid negative effects on cardiac function. This is typically achieved using beta-blockers or rate-limiting calcium channel blockers. If one drug is not effective, combination therapy may be used. Rhythm control aims to restore and maintain normal sinus rhythm through pharmacological or electrical cardioversion. However, the majority of patients are managed with a rate control strategy.
Reducing stroke risk in patients with AF is crucial. Risk stratifying tools, such as the CHA2DS2-VASc score, are used to determine the most appropriate anticoagulation strategy. Anticoagulation is recommended for patients with a score of 2 or more. Clinicians can choose between warfarin and novel oral anticoagulants (NOACs) for anticoagulation.
Before starting anticoagulation, the patient’s bleeding risk should be assessed using tools like the HAS-BLED score or the ORBIT tool. These tools evaluate factors such as hypertension, abnormal renal or liver function, history of bleeding, age, and use of drugs that predispose to bleeding.
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This question is part of the following fields:
- Cardiology
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Question 18
Incorrect
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A 40-year-old man is brought to the Emergency Department by his wife after taking an excessive amount of one of his prescribed medications. Upon further inquiry, you uncover that he has overdosed on quetiapine. You consult with your supervisor about the case, and she clarifies that the symptoms of this type of poisoning are caused by the blocking of central and peripheral acetylcholine receptors.
What is one of the clinical effects that arises from the blockade of central acetylcholine receptors?Your Answer:
Correct Answer: Tremor
Explanation:Anticholinergic drugs work by blocking the effects of acetylcholine, a neurotransmitter, in both the central and peripheral nervous systems. These drugs are commonly used in clinical practice and include antihistamines, typical and atypical antipsychotics, anticonvulsants, antidepressants, antispasmodics, antiemetics, antiparkinsonian agents, antimuscarinics, and certain plants. When someone ingests an anticholinergic drug, they may experience a toxidrome, which is characterized by an agitated delirium and various signs of acetylcholine receptor blockade in the central and peripheral systems.
The central effects of anticholinergic drugs result in an agitated delirium, which is marked by fluctuating mental status, confusion, restlessness, visual hallucinations, picking at objects in the air, mumbling, slurred speech, disruptive behavior, tremor, myoclonus, and in rare cases, coma or seizures. On the other hand, the peripheral effects can vary and may include dilated pupils, sinus tachycardia, dry mouth, hot and flushed skin, increased body temperature, urinary retention, and ileus.
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This question is part of the following fields:
- Pharmacology & Poisoning
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Question 19
Incorrect
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A 70-year-old man with a known history of Alzheimer's disease and a previous heart attack experiences urinary incontinence and a sudden decline in his cognitive function. He denies experiencing any abdominal pain or discomfort while urinating.
What is the SINGLE most probable diagnosis?Your Answer:
Correct Answer: Urinary tract infection
Explanation:Symptoms of urinary tract infection (UTI) can be difficult to detect in elderly patients, especially those with dementia. Common signs like painful urination and abdominal discomfort may be absent. Instead, these patients often experience increased confusion, restlessness, and a decline in cognitive abilities. Therefore, if an elderly patient suddenly develops urinary incontinence and experiences a rapid deterioration in cognitive function, it is highly likely that they have a UTI.
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This question is part of the following fields:
- Elderly Care / Frailty
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Question 20
Incorrect
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A 9-year-old boy comes to his pediatrician complaining of a headache, stiffness in his neck, and sensitivity to light. His vital signs are as follows: heart rate 124, blood pressure 86/43, respiratory rate 30, oxygen saturation 95%, and temperature 39.5°C. He has recently developed a rash of non-blanching petechiae on his legs.
What is the SINGLE most probable infectious agent responsible for these symptoms?Your Answer:
Correct Answer: Neisseria meningitidis group B
Explanation:In a child with a non-blanching rash, it is important to always consider the possibility of meningococcal septicaemia. This is especially true if the child appears unwell, has purpura (lesions larger than 2 mm in diameter), a capillary refill time of more than 3 seconds, or neck stiffness. In the UK, most cases of meningococcal septicaemia are caused by Neisseria meningitidis group B, although the vaccination program for Neisseria meningitidis group C has reduced the prevalence of this type. A vaccine for group B disease has now been introduced for children. It is also worth noting that Streptococcus pneumoniae can also cause meningitis.
In this particular case, the child is clearly very sick and showing signs of septic shock. It is crucial to administer a single dose of benzylpenicillin without delay and arrange for immediate transfer to the nearest Emergency Department via ambulance.
The recommended doses of benzylpenicillin based on age are as follows:
– Infants under 1 year of age: 300 mg of IM or IV benzylpenicillin
– Children aged 1 to 9 years: 600 mg of IM or IV benzylpenicillin
– Children and adults aged 10 years or older: 1.2 g of IM or IV benzylpenicillin. -
This question is part of the following fields:
- Infectious Diseases
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Question 21
Incorrect
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A 32-year-old woman with chronic anemia secondary to a diagnosis of sickle cell disease receives a blood transfusion. A few minutes after the blood transfusion has started, she experiences wheezing, chest discomfort, nausea, and widespread itching with a rash. Her blood pressure drops to 76/40 mmHg.
What is the most suitable course of treatment for this patient?Your Answer:
Correct Answer: Stop the transfusion and administer adrenaline
Explanation:Blood transfusion is a potentially life-saving treatment that can provide great clinical benefits. However, it also carries several risks and potential problems. These include immunological complications, administration errors, infections, immune dilution, and transfusion errors. While there have been improvements in safety procedures and efforts to minimize the use of transfusion, errors and serious adverse reactions still occur and often go unreported.
One rare complication of blood transfusion is transfusion-associated graft-vs-host disease (TA-GVHD). This condition typically presents with fever, rash, and diarrhea 1-4 weeks after the transfusion. Laboratory findings may show pancytopenia and abnormalities in liver function. Unlike GVHD after marrow transplantation, TA-GVHD leads to severe marrow aplasia with a mortality rate exceeding 90%. Unfortunately, there are currently no effective treatments available for this condition, and survival is rare, with death usually occurring within 1-3 weeks of the first symptoms.
During a blood transfusion, viable T lymphocytes from the donor are transfused into the recipient’s body. In TA-GVHD, these lymphocytes engraft and react against the recipient’s tissues. However, the recipient is unable to reject the donor lymphocytes due to factors such as immunodeficiency, severe immunosuppression, or shared HLA antigens. Supportive management is the only option for TA-GVHD.
The following summarizes the main complications and reactions that can occur during a blood transfusion:
Complication Features Management
Febrile transfusion reaction
– Presents with a 1-degree rise in temperature from baseline, along with chills and malaise.
– Most common reaction, occurring in 1 out of 8 transfusions.
– Usually caused by cytokines from leukocytes in transfused red cell or platelet components.
– Supportive management, with the use of paracetamol for symptom relief.Acute haemolytic reaction
– Symptoms include fever, chills, pain at the transfusion site, nausea, vomiting, and dark urine.
– Often accompanied by a feeling of ‘impending doom’.
– Most serious type of reaction, often due to ABO incompatibility caused by administration errors.
– Immediate action required: stop the transfusion, administer IV fluids, and consider diuretics if necessary.Delayed haemolytic reaction
– Typically occurs 4-8 days after a blood transfusion.
– Symptoms include fever, anemia and/or hyperbilirubinemia -
This question is part of the following fields:
- Haematology
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Question 22
Incorrect
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You assess a 58-year-old individual who has arrived at the emergency department complaining of chest pain resembling a cardiac condition. Upon reviewing the patient's medical history, you discover a previous diagnosis of hyperaldosteronism. In terms of aldosterone production, where is it typically synthesized?
Your Answer:
Correct Answer: Zona glomerulosa of the adrenal cortex
Explanation:The secretion of aldosterone occurs in the zona glomerulosa of the adrenal cortex.
Further Reading:
Hyperaldosteronism is a condition characterized by excessive production of aldosterone by the adrenal glands. It can be classified into primary and secondary hyperaldosteronism. Primary hyperaldosteronism, also known as Conn’s syndrome, is typically caused by adrenal hyperplasia or adrenal tumors. Secondary hyperaldosteronism, on the other hand, is a result of high renin levels in response to reduced blood flow across the juxtaglomerular apparatus.
Aldosterone is the main mineralocorticoid steroid hormone produced by the adrenal cortex. It acts on the distal renal tubule and collecting duct of the nephron, promoting the reabsorption of sodium ions and water while secreting potassium ions.
The causes of hyperaldosteronism vary depending on whether it is primary or secondary. Primary hyperaldosteronism can be caused by adrenal adenoma, adrenal hyperplasia, adrenal carcinoma, or familial hyperaldosteronism. Secondary hyperaldosteronism can be caused by renal artery stenosis, reninoma, renal tubular acidosis, nutcracker syndrome, ectopic tumors, massive ascites, left ventricular failure, or cor pulmonale.
Clinical features of hyperaldosteronism include hypertension, hypokalemia, metabolic alkalosis, hypernatremia, polyuria, polydipsia, headaches, lethargy, muscle weakness and spasms, and numbness. It is estimated that hyperaldosteronism is present in 5-10% of patients with hypertension, and hypertension in primary hyperaldosteronism is often resistant to drug treatment.
Diagnosis of hyperaldosteronism involves various investigations, including U&Es to assess electrolyte disturbances, aldosterone-to-renin plasma ratio (ARR) as the gold standard diagnostic test, ECG to detect arrhythmia, CT/MRI scans to locate adenoma, fludrocortisone suppression test or oral salt testing to confirm primary hyperaldosteronism, genetic testing to identify familial hyperaldosteronism, and adrenal venous sampling to determine lateralization prior to surgery.
Treatment of primary hyperaldosteronism typically involves surgical adrenalectomy for patients with unilateral primary aldosteronism. Diet modification with sodium restriction and potassium supplementation may also be recommended.
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This question is part of the following fields:
- Endocrinology
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Question 23
Incorrect
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A 45-year-old patient with a history of exhaustion and weariness undergoes a complete blood count. The results reveal the presence of macrocytic anemia.
Which of the following is the LEAST probable underlying diagnosis?Your Answer:
Correct Answer: Thalassaemia
Explanation:Anaemia can be categorized based on the size of red blood cells. Microcytic anaemia, characterized by a mean corpuscular volume (MCV) of less than 80 fl, can be caused by various factors such as iron deficiency, thalassaemia, anaemia of chronic disease (which can also be normocytic), sideroblastic anaemia (which can also be normocytic), lead poisoning, and aluminium toxicity (although this is now rare and mainly affects haemodialysis patients).
On the other hand, normocytic anaemia, with an MCV ranging from 80 to 100 fl, can be attributed to conditions like haemolysis, acute haemorrhage, bone marrow failure, anaemia of chronic disease (which can also be microcytic), mixed iron and folate deficiency, pregnancy, chronic renal failure, and sickle-cell disease.
Lastly, macrocytic anaemia, characterized by an MCV greater than 100 fl, can be caused by factors such as B12 deficiency, folate deficiency, hypothyroidism, reticulocytosis, liver disease, alcohol abuse, myeloproliferative disease, myelodysplastic disease, and certain drugs like methotrexate, hydroxyurea, and azathioprine.
It is important to understand the different causes of anaemia based on red cell size as this knowledge can aid in the diagnosis and management of this condition.
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This question is part of the following fields:
- Haematology
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Question 24
Incorrect
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A patient is experiencing upper gastrointestinal bleeding after receiving heparin. You determine that protamine sulfate should be used to reverse the anticoagulation. How much protamine sulfate is needed to neutralize 200 IU of heparin?
Your Answer:
Correct Answer: 2 mg
Explanation:Protamine sulphate is a potent base that forms a stable salt complex with heparin, an acidic substance. This complex renders heparin inactive, making protamine sulphate a useful tool for neutralizing the effects of heparin. Additionally, protamine sulphate can be used to reverse the effects of LMWHs, although it is not as effective, providing only about two-thirds of the relative effect.
It is important to note that protamine sulphate also possesses its own weak intrinsic anticoagulant effect. This effect is believed to stem from its ability to inhibit the formation and activity of thromboplastin.
When administering protamine sulphate, it is typically done through slow intravenous injection. The dosage should be adjusted based on the amount of heparin that needs to be neutralized, the time that has passed since heparin administration, and the aPTT (activated partial thromboplastin time). As a general guideline, 1 mg of protamine can neutralize 100 IU of heparin. However, it is crucial to adhere to a maximum adult dose of 50 mg within a 10-minute period.
It is worth mentioning that protamine sulphate can have some adverse effects. It acts as a myocardial depressant, potentially leading to bradycardia (slow heart rate) and hypotension (low blood pressure). These effects may arise due to complement activation and leukotriene release.
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This question is part of the following fields:
- Haematology
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Question 25
Incorrect
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A 52-year-old woman arrives at the emergency department complaining of worsening dizziness and weakness in the past few days. She reports experiencing abdominal discomfort, nausea, muscle aches, and weight loss over the last month. To investigate potential underlying causes of her symptoms, you order blood tests. What biochemical abnormalities would you anticipate if the patient is suffering from adrenal insufficiency?
Your Answer:
Correct Answer: Hyponatraemia and hyperkalaemia
Explanation:If the patient is suffering from adrenal insufficiency, it is likely that she will have hyponatremia and hyperkalemia. Adrenal insufficiency occurs when the adrenal glands do not produce enough hormones, particularly cortisol. This can lead to imbalances in electrolytes, such as sodium and potassium. Hyponatremia refers to low levels of sodium in the blood, while hyperkalemia refers to high levels of potassium in the blood. These abnormalities can cause symptoms such as dizziness, weakness, abdominal discomfort, and muscle aches. Additionally, the patient’s reported weight loss and other symptoms are consistent with adrenal insufficiency.
Further Reading:
Addison’s disease, also known as primary adrenal insufficiency or hypoadrenalism, is a rare disorder caused by the destruction of the adrenal cortex. This leads to reduced production of glucocorticoids, mineralocorticoids, and adrenal androgens. The deficiency of cortisol results in increased production of adrenocorticotropic hormone (ACTH) due to reduced negative feedback to the pituitary gland. This condition can cause metabolic disturbances such as hyperkalemia, hyponatremia, hypercalcemia, and hypoglycemia.
The symptoms of Addison’s disease can vary but commonly include fatigue, weight loss, muscle weakness, and low blood pressure. It is more common in women and typically affects individuals between the ages of 30-50. The most common cause of primary hypoadrenalism in developed countries is autoimmune destruction of the adrenal glands. Other causes include tuberculosis, adrenal metastases, meningococcal septicaemia, HIV, and genetic disorders.
The diagnosis of Addison’s disease is often suspected based on low cortisol levels and electrolyte abnormalities. The adrenocorticotropic hormone stimulation test is commonly used for confirmation. Other investigations may include adrenal autoantibodies, imaging scans, and genetic screening.
Addisonian crisis is a potentially life-threatening condition that occurs when there is an acute deficiency of cortisol and aldosterone. It can be the first presentation of undiagnosed Addison’s disease. Precipitating factors of an Addisonian crisis include infection, dehydration, surgery, trauma, physiological stress, pregnancy, hypoglycemia, and acute withdrawal of long-term steroids. Symptoms of an Addisonian crisis include malaise, fatigue, nausea or vomiting, abdominal pain, fever, muscle pains, dehydration, confusion, and loss of consciousness.
There is no fixed consensus on diagnostic criteria for an Addisonian crisis, as symptoms are non-specific. Investigations may include blood tests, blood gas analysis, and septic screens if infection is suspected. Management involves administering hydrocortisone and fluids. Hydrocortisone is given parenterally, and the dosage varies depending on the age of the patient. Fluid resuscitation with saline is necessary to correct any electrolyte disturbances and maintain blood pressure. The underlying cause of the crisis should also be identified and treated. Close monitoring of sodium levels is important to prevent complications such as osmotic demyelination syndrome.
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This question is part of the following fields:
- Endocrinology
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Question 26
Incorrect
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A 65 year old female is brought into the emergency department by her husband following a fall. The patient seems unsure about how the fall occurred. The patient's husband takes you aside to express his growing concern about the patient's memory and overall functioning in the past year. He has previously suggested visiting the doctor about it, but the patient has consistently refused, claiming to be perfectly fine. The patient's husband is worried that the patient might be suffering from dementia. What is the leading cause of dementia?
Your Answer:
Correct Answer: Alzheimer's disease
Explanation:Dementia is a condition characterized by a decline in cognitive abilities, such as memory, thinking, and reasoning, that is severe enough to interfere with daily functioning. There are several different causes of dementia, but the leading cause is Alzheimer’s disease. Alzheimer’s disease is a progressive brain disorder that affects memory, thinking, and behavior. It is the most common cause of dementia, accounting for approximately 60-80% of cases.
Further Reading:
Dementia is a progressive and irreversible clinical syndrome characterized by cognitive and behavioral symptoms. These symptoms include memory loss, impaired reasoning and communication, personality changes, and reduced ability to carry out daily activities. The decline in cognition affects multiple domains of intellectual functioning and is not solely due to normal aging.
To diagnose dementia, a person must have impairment in at least two cognitive domains that significantly impact their daily activities. This impairment cannot be explained by delirium or other major psychiatric disorders. Early-onset dementia refers to dementia that develops before the age of 65.
The most common cause of dementia is Alzheimer’s disease, accounting for 50-75% of cases. Other causes include vascular dementia, dementia with Lewy bodies, and frontotemporal dementia. Less common causes include Parkinson’s disease dementia, Huntington’s disease, prion disease, and metabolic and endocrine disorders.
There are several risk factors for dementia, including age, mild cognitive impairment, genetic predisposition, excess alcohol intake, head injury, depression, learning difficulties, diabetes, obesity, hypertension, smoking, Parkinson’s disease, low social engagement, low physical activity, low educational attainment, hearing impairment, and air pollution.
Assessment of dementia involves taking a history from the patient and ideally a family member or close friend. The person’s current level of cognition and functional capabilities should be compared to their baseline level. Physical examination, blood tests, and cognitive assessment tools can also aid in the diagnosis.
Differential diagnosis for dementia includes normal age-related memory changes, mild cognitive impairment, depression, delirium, vitamin deficiencies, hypothyroidism, adverse drug effects, normal pressure hydrocephalus, and sensory deficits.
Management of dementia involves a multi-disciplinary approach that includes non-pharmacological and pharmacological measures. Non-pharmacological interventions may include driving assessment, modifiable risk factor management, and non-pharmacological therapies to promote cognition and independence. Drug treatments for dementia should be initiated by specialists and may include acetylcholinesterase inhibitors, memantine, and antipsychotics in certain cases.
In summary, dementia is a progressive and irreversible syndrome characterized by cognitive and behavioral symptoms. It has various causes and risk factors, and its management involves a multi-disciplinary approach.
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This question is part of the following fields:
- Neurology
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Question 27
Incorrect
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A 25-year-old woman presents with a persistent sore throat that has been bothering her for the past five days. She denies having any symptoms of a cold and does not have a cough. She has a clean medical history, does not take any medications, and has no known drug allergies. During the examination, she has a normal body temperature and a few tender lymph nodes in her neck. Her throat and tonsils appear red and inflamed, with a significant amount of exudate on her left tonsil.
Using the FeverPAIN Score to evaluate her sore throat, what would be the most appropriate course of action for her at this point?Your Answer:
Correct Answer: She should be offered a 'back-up prescription' for penicillin V
Explanation:The FeverPAIN score is a scoring system recommended by the current NICE guidelines for assessing acute sore throats. It consists of five items: fever in the last 24 hours, purulence, attendance within three days, inflamed tonsils, and no cough or coryza. Based on the score, recommendations for antibiotic use are as follows: a score of 0-1 indicates an unlikely streptococcal infection, with antibiotics not recommended; a score of 2-3 suggests a 34-40% chance of streptococcus, and delayed prescribing of antibiotics may be considered; a score of 4 or higher indicates a 62-65% chance of streptococcus, and immediate antibiotic use is recommended for severe cases, or a short back-up prescription may be given for 48 hours.
The Fever PAIN score was developed through a study involving 1760 adults and children aged three and over. It was tested in a trial comparing three prescribing strategies: empirical delayed prescribing, score-directed prescribing, and a combination of the score with a near-patient test (NPT) for streptococcus. The use of the score resulted in faster symptom resolution and reduced antibiotic prescribing by one third. The addition of the NPT did not provide any additional benefit.
According to the current NICE guidelines, if antibiotics are necessary, phenoxymethylpenicillin is recommended as the first-choice antibiotic. In cases of true penicillin allergy, clarithromycin can be used as an alternative. For pregnant women with a penicillin allergy, erythromycin is prescribed. It is important to note that the threshold for prescribing antibiotics should be lower for individuals at risk of rheumatic fever and vulnerable groups managed in primary care, such as infants, the elderly, and those who are immunosuppressed or immunocompromised. Antibiotics should not be withheld if the person has severe symptoms and there are concerns about their clinical condition.
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This question is part of the following fields:
- Ear, Nose & Throat
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Question 28
Incorrect
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You evaluate a 72-year-old in the emergency department who has come in with complaints of back pain. After conducting a thorough assessment, you observe that the patient possesses several risk factors for osteoporosis. You recommend that the patient undergo a formal evaluation to determine their risk of osteoporotic fractures. Which tool is considered the gold standard for this assessment?
Your Answer:
Correct Answer: Qfracture
Explanation:QFracture is a highly regarded tool used to predict the risk of osteoporotic fractures and determine if a DXA bone assessment is necessary. It is considered the preferred and gold standard tool by NICE and SIGN. FRAX is another fracture risk assessment tool that is also used to determine the need for a DXA bone assessment. The Rockwood score and electronic frailty Index (eFI) are both frailty scores. The informant questionnaire on cognitive decline in the elderly is a tool used to assess cognitive decline in older individuals.
Further Reading:
Fragility fractures are fractures that occur following a fall from standing height or less, and may be atraumatic. They often occur in the presence of osteoporosis, a disease characterized by low bone mass and structural deterioration of bone tissue. Fragility fractures commonly affect the wrist, spine, hip, and arm.
Osteoporosis is defined as a bone mineral density (BMD) of 2.5 standard deviations below the mean peak mass, as measured by dual-energy X-ray absorptiometry (DXA). Osteopenia, on the other hand, refers to low bone mass between normal bone mass and osteoporosis, with a T-score between -1 to -2.5.
The pathophysiology of osteoporosis involves increased osteoclast activity relative to bone production by osteoblasts. The prevalence of osteoporosis increases with age, from approximately 2% at 50 years to almost 50% at 80 years.
There are various risk factors for fragility fractures, including endocrine diseases, GI causes of malabsorption, chronic kidney and liver diseases, menopause, immobility, low body mass index, advancing age, oral corticosteroids, smoking, alcohol consumption, previous fragility fractures, rheumatological conditions, parental history of hip fracture, certain medications, visual impairment, neuromuscular weakness, cognitive impairment, and unsafe home environment.
Assessment of a patient with a possible fragility fracture should include evaluating the risk of further falls, the risk of osteoporosis, excluding secondary causes of osteoporosis, and ruling out non-osteoporotic causes for fragility fractures such as metastatic bone disease, multiple myeloma, osteomalacia, and Paget’s disease.
Management of fragility fractures involves initial management by the emergency clinician, while treatment of low bone density is often delegated to the medical team or general practitioner. Management considerations include determining who needs formal risk assessment, who needs a DXA scan to measure BMD, providing lifestyle advice, and deciding who requires drug treatment.
Medication for osteoporosis typically includes vitamin D, calcium, and bisphosphonates. Vitamin D and calcium supplementation should be considered based on individual needs, while bisphosphonates are advised for postmenopausal women and men over 50 years with confirmed osteoporosis or those taking high doses of oral corticosteroids.
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This question is part of the following fields:
- Elderly Care / Frailty
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Question 29
Incorrect
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A 42-year-old woman comes in with back pain and a fever. After a thorough evaluation and tests, the patient is diagnosed with discitis. She has no significant medical history and does not take any medications regularly.
What is the most probable organism responsible for this patient's condition?Your Answer:
Correct Answer: Staphylococcus aureus
Explanation:Discitis is an infection that affects the space between the intervertebral discs in the spine. This condition can have serious consequences, including the formation of abscesses and sepsis. The most common cause of discitis is usually Staphylococcus aureus, but other organisms like Streptococcus viridans and Pseudomonas aeruginosa may be responsible in certain cases, especially in immunocompromised individuals and intravenous drug users. Gram-negative organisms like Escherichia coli and Mycobacterium tuberculosis can also cause discitis, particularly in cases of Pott’s disease.
There are several risk factors that increase the likelihood of developing discitis. These include having undergone spinal surgery (which occurs in about 1-2% of patients post-operatively), having an immunodeficiency, being an intravenous drug user, being under the age of eight, having diabetes mellitus, or having a malignancy.
The typical symptoms of discitis include back or neck pain (which occurs in over 90% of cases), pain that often wakes the patient from sleep, fever (present in 60-70% of cases), and neurological deficits (which can occur in up to 50% of cases). In children, a refusal to walk may also be a symptom.
When diagnosing discitis, magnetic resonance imaging (MRI) is the preferred imaging modality due to its high sensitivity and specificity. It is important to image the entire spine, as discitis often affects multiple levels. Plain radiographs are not very sensitive to the early changes of discitis and may appear normal for 2-4 weeks. Computed tomography (CT) scanning is also not very sensitive in detecting discitis.
Treatment for discitis involves hospital admission for intravenous antibiotics. Before starting the antibiotics, it is recommended to send three sets of blood cultures and a full set of blood tests, including a C-reactive protein (CRP) test, to the laboratory.
A typical antibiotic regimen for discitis would include intravenous flucloxacillin 2 g every 6 hours as the first-line treatment if there is no penicillin allergy. Intravenous vancomycin may be used if the infection was acquired in the hospital, if there is a high risk of methicillin-resistant Staphylococcus aureus (MRSA) infection, or if there is a documented penicillin allergy.
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This question is part of the following fields:
- Musculoskeletal (non-traumatic)
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Question 30
Incorrect
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A toddler develops a palsy of his left leg following a fall. On examination, there is a loss of hip abduction, external rotation and knee flexion. The leg is noticeably dragging with the knee extended and the foot turned inward.
What is the SINGLE most likely diagnosis?Your Answer:
Correct Answer: Erb’s palsy
Explanation:Erb’s palsy, also known as Erb-Duchenne palsy, is a condition where the arm becomes paralyzed due to an injury to the upper roots of the brachial plexus. The primary root affected is usually C5, although C6 may also be involved in some cases. The main cause of Erb’s palsy is when the arm experiences excessive force during a difficult childbirth, but it can also occur in adults as a result of shoulder trauma.
Clinically, the affected arm will hang by the side with the elbow extended and the forearm turned inward (known as the waiter’s tip sign). Upon examination, there will be a loss of certain movements:
– Shoulder abduction (involving the deltoid and supraspinatus muscles)
– Shoulder external rotation (infraspinatus muscle)
– Elbow flexion (biceps and brachialis muscles)It is important to differentiate Erb’s palsy from Klumpke’s palsy, which affects the lower roots of the brachial plexus (C8 and T1). Klumpke’s palsy presents with a claw hand due to paralysis of the intrinsic hand muscles, along with sensory loss along the ulnar side of the forearm and hand. If T1 is affected, there may also be the presence of Horner’s syndrome.
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This question is part of the following fields:
- Neurology
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