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Question 1
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A 29-year-old woman comes to the Emergency Department complaining of right-sided chest pain. She reports experiencing fever and shortness of breath for the past week. Upon examination, there are reduced breath sounds on the right side, and a chest X-ray reveals a right pleural effusion without loculation. The patient consents to a thoracentesis to obtain a sample of the pleural fluid.
What is the optimal location for needle insertion?Your Answer: Above the fifth rib in the mid-axillary line
Explanation:Proper Placement for Thoracentesis: Avoiding Nerve and Vessel Damage
When performing a thoracentesis to sample pleural fluid, it is crucial to ensure that the needle is inserted into a pocket of fluid. This is typically done with ultrasound guidance, but in some cases, doctors must percuss the thorax to identify an area of increased density. However, it is important to remember that the intercostal neurovascular bundle runs inferior to the rib, so the needle should be inserted above the rib to avoid damaging nearby nerves and vessels. The needle is generally inserted through the patient’s back to minimize discomfort and decrease the risk of damaging the neurovascular bundle. The BTS guidelines recommend aspirating from the triangle of safety under the axilla, but it is common practice to aspirate more posteriorly. Of the options listed, only inserting the needle above the fifth rib in the mid-axillary line meets all of these criteria. Other options are either too high, too low, or risk damaging nearby nerves and vessels. Proper placement is crucial for a successful and safe thoracentesis procedure.
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This question is part of the following fields:
- Respiratory
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Question 2
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A 78-year-old man with known alcohol dependence presents to the Emergency Department with a few weeks of productive cough, weight loss, fever and haemoptysis. He is a heavy smoker, consuming 30 cigarettes per day. On a chest X-ray, multiple nodules 1-3 mm in size are visible throughout both lung fields. What is the best treatment option to effectively address the underlying cause of this man's symptoms?
Your Answer: Anti-tuberculous (TB) chemotherapy
Explanation:Choosing the Right Treatment: Evaluating Options for a Patient with Suspected TB
A patient presents with a subacute history of fever, productive cough, weight loss, and haemoptysis, along with a chest X-ray description compatible with miliary TB. Given the patient’s risk factors for TB, such as alcohol dependence and smoking, anti-TB chemotherapy is the most appropriate response, despite the possibility of lung cancer. IV antibiotics may be used until sputum staining and culture results are available, but systemic chemotherapy would likely lead to overwhelming infection and death. Tranexamic acid may be useful for significant haemoptysis, but it will not treat the underlying diagnosis. acyclovir is not indicated, as the patient does not have a history of rash, and a diagnosis of miliary TB is more likely than varicella pneumonia. Careful evaluation of the patient’s history and symptoms is crucial in choosing the right treatment.
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This question is part of the following fields:
- Respiratory
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Question 3
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A 65-year-old man comes to the Emergency Department with confusion and difficulty breathing, with an AMTS score of 9. During the examination, his respiratory rate is 32 breaths/minute, and his blood pressure is 100/70 mmHg. His blood test shows a urea level of 6 mmol/l. What is a predictive factor for increased mortality in this pneumonia patient?
Your Answer: Respiratory rate >30 breaths/minute
Explanation:Prognostic Indicators in Pneumonia: Understanding the CURB 65 Score
The CURB 65 score is a widely used prognostic tool for patients with pneumonia. It consists of five indicators, including confusion, urea levels, respiratory rate, blood pressure, and age. A respiratory rate of >30 breaths/minute and new-onset confusion with an AMTS score of <8 are two of the indicators that make up the CURB 65 score. However, in the case of a patient with a respiratory rate of 32 breaths/minute and an AMTS score of 9, these indicators still suggest a poor prognosis. A urea level of >7 mmol/l and a blood pressure of <90 mmHg systolic and/or 60 mmHg diastolic are also indicators of a poor prognosis. Finally, age >65 is another indicator that contributes to the CURB 65 score. Understanding these indicators can help healthcare professionals assess the severity of pneumonia and determine appropriate treatment plans.
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This question is part of the following fields:
- Respiratory
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Question 4
Incorrect
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A 67-year-old woman presents with right-sided pleural effusion. Thoracentesis is performed and the pleural fluid analysis reveals the following results:
Pleural fluid Pleural fluid analysis Serum Normal value
Protein 2.5 g/dl 7.3 g/dl 6-7.8 g/dl
Lactate dehydrogenase (LDH) 145 IU/l 350 IU/l 100-250 IU/l
What is the probable diagnosis for this patient?Your Answer: Viral pleuritic
Correct Answer: Heart failure
Explanation:Causes of Transudative and Exudative Pleural Effusions
Pleural effusion is the accumulation of fluid in the pleural space, which can be classified as transudative or exudative based on Light’s criteria. The most common cause of transudative pleural effusion is congestive heart failure, which can also cause bilateral or unilateral effusions. Other causes of transudative effusions include cirrhosis and nephrotic syndrome. Exudative pleural effusions are typically caused by pneumonia, malignancy, or pleural infections. Nephrotic syndrome can also cause transudative effusions, while breast cancer and viral pleuritis are associated with exudative effusions. Proper identification of the underlying cause is crucial for appropriate management of pleural effusions.
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This question is part of the following fields:
- Respiratory
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Question 5
Correct
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The blood gases with pH 7.38, pO2 6.2 kPa, pCO2 9.2 kPa, and HCO3– 44 mmol/l are indicative of a respiratory condition. Which respiratory condition is most likely responsible for these blood gas values?
Your Answer: Chronic obstructive pulmonary disease (COPD)
Explanation:Respiratory Failure in Common Lung Conditions
When analyzing blood gases, it is important to consider the type of respiratory failure present in order to determine the underlying cause. In cases of low oxygen and high carbon dioxide, known as type 2 respiratory failure, chronic obstructive pulmonary disease (COPD) is the most likely culprit. Asthma, on the other hand, typically causes type 1 respiratory failure, although severe cases may progress to type 2 as the patient tires. Pulmonary embolism and pneumonia are also more likely to cause type 1 respiratory failure, while pulmonary fibrosis is associated with this type of failure as well. Understanding the type of respiratory failure can aid in the diagnosis and management of these common lung conditions.
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This question is part of the following fields:
- Respiratory
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Question 6
Incorrect
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A 25-year-old male graduate student comes to the clinic complaining of shortness of breath during physical activity for the past two months. He denies any other symptoms and is a non-smoker. Upon examination, there are no abnormalities found, and his full blood count and chest x-ray are normal. What diagnostic test would be most useful in confirming the suspected diagnosis?
Your Answer: Spirometry before and after administration of bronchodilators
Correct Answer: Spirometry before and after exercise
Explanation:Confirming Exercise-Induced Asthma Diagnosis
To confirm the suspected diagnosis of exercise-induced asthma, the most appropriate investigation would be spirometry before and after exercise. This patient is likely to have exercise-induced asthma, which means that his asthma symptoms are triggered by physical activity. Spirometry is a lung function test that measures how much air a person can inhale and exhale. By performing spirometry before and after exercise, doctors can compare the results and determine if there is a significant decrease in lung function after physical activity. If there is a significant decrease, it confirms the diagnosis of exercise-induced asthma. This test is important because it helps doctors develop an appropriate treatment plan for the patient. With the right treatment, patients with exercise-induced asthma can still participate in physical activity and lead a healthy lifestyle.
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This question is part of the following fields:
- Respiratory
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Question 7
Incorrect
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A 55-year old complains of difficulty breathing. A CT scan of the chest reveals the presence of an air-crescent sign. Which microorganism is commonly linked to this sign?
Your Answer: Mycobacterium tuberculosis
Correct Answer: Aspergillus
Explanation:Radiological Findings in Pulmonary Infections: Air-Crescent Sign and More
Different pulmonary infections can cause distinct radiological findings that aid in their diagnosis and management. Here are some examples:
– Aspergillosis: This fungal infection can lead to the air-crescent sign, which shows air filling the space left by necrotic lung tissue as the immune system fights back. It indicates a sign of recovery and is found in about half of cases. Aspergilloma, a different form of aspergillosis, can also present with a similar radiological finding called the monad sign.
– Mycobacterium avium intracellulare: This organism causes non-tuberculous mycobacterial infection in the lungs, which tends to affect patients with pre-existing chronic obstructive pulmonary disease or immunocompromised states.
– Staphylococcus aureus: This bacterium can cause cavitating lung lesions and abscesses, which appear as round cavities with an air-fluid level.
– Pseudomonas aeruginosa: This bacterium can cause pneumonia in patients with chronic lung disease, and CT scans may show ground-glass attenuation, bronchial wall thickening, peribronchial infiltration, and pleural effusions.
– Mycobacterium tuberculosis: This bacterium may cause cavitation in the apical regions of the lungs, but it does not typically lead to the air-crescent sign.Understanding these radiological findings can help clinicians narrow down the possible causes of pulmonary infections and tailor their treatment accordingly.
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This question is part of the following fields:
- Respiratory
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Question 8
Incorrect
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A 65-year-old man snores at night and his wife reports it is so loud that he often wakes her up. She notes that her husband sometimes appears to not take a breath for a long time and then gasps for air before continuing to snore. He suffers from daytime headaches and sleepiness. He has a body mass index (BMI) of 40 kg/m2.
What would the most likely arterial blood gas result be if it was measured in this patient?Your Answer: Compensated respiratory alkalosis
Correct Answer: Compensated respiratory acidosis
Explanation:Understanding Compensated and Uncompensated Acid-Base Disorders
Acid-base disorders are a group of conditions that affect the pH balance of the body. Compensation is the body’s natural response to maintain a normal pH level. Here are some examples of compensated and uncompensated acid-base disorders:
Compensated respiratory acidosis occurs in patients with obstructive sleep apnea. The kidney compensates for the chronic respiratory acidosis by increasing bicarbonate production, which buffers the increase in acid caused by carbon dioxide.
Compensated respiratory alkalosis is seen in high-altitude areas. The kidney compensates by reducing the rate of bicarbonate reabsorption and increasing reabsorption of H+.
Compensated metabolic acidosis occurs in patients with diabetic ketoacidosis. The body compensates by hyperventilating to release carbon dioxide and reduce the acid burden. The kidney also compensates by increasing bicarbonate production and sequestering acid into proteins.
Uncompensated respiratory acidosis occurs in patients with Guillain–Barré syndrome, an obstructed airway, or respiratory depression from opiate toxicity. There is an abrupt failure in ventilation, leading to an acute respiratory acidosis.
Uncompensated metabolic acidosis occurs in patients with lactic acidosis or diabetic ketoacidosis. The body cannot produce enough bicarbonate to buffer the added acid, leading to an acute metabolic acidosis.
Understanding these different types of acid-base disorders and their compensatory mechanisms is crucial in diagnosing and treating patients with these conditions.
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This question is part of the following fields:
- Respiratory
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Question 9
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An 80-year-old man comes to the Emergency Department complaining of difficulty breathing. His vital signs show a pulse rate of 105 bpm, a respiratory rate of 30 breaths per minute, and SpO2 saturations of 80% on pulse oximetry. He has a history of COPD for the past 10 years. Upon examination, there is reduced air entry bilaterally and coarse crackles. What would be the most crucial investigation to conduct next?
Your Answer: Arterial blood gas (ABG)
Explanation:Importance of Different Investigations in Assessing Acute Respiratory Failure
When a patient presents with acute respiratory failure, it is important to conduct various investigations to determine the underlying cause and severity of the condition. Among the different investigations, arterial blood gas (ABG) is the most important as it helps assess the partial pressures of oxygen and carbon dioxide, as well as the patient’s pH level. This information can help classify respiratory failure into type I or II and identify potential causes of respiratory deterioration. In patients with a history of COPD, ABG can also determine if they are retaining carbon dioxide, which affects their target oxygen saturations.
While a chest X-ray may be considered to assess for underlying pathology, it is not the most important investigation. A D-dimer may be used to rule out pulmonary embolism, and an electrocardiogram (ECG) may be done to assess for cardiac causes of respiratory failure. However, ABG should be prioritized before these investigations.
Pulmonary function tests may be required after initial assessment of oxygen saturations to predict potential respiratory failure based on the peak expiratory flow rate. Overall, a combination of these investigations can help diagnose and manage acute respiratory failure effectively.
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This question is part of the following fields:
- Respiratory
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Question 10
Correct
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A 35-year-old woman with a history of asthma and eczema visits her General Practitioner and inquires about the reason for her continued wheezing hours after being exposed to pollen. She has a known allergy to tree pollen.
What is the most suitable explanation for this?Your Answer: Inflammation followed by mucosal oedema
Explanation:Understanding the Mechanisms of Allergic Asthma
Allergic asthma is a condition that is mediated by immunoglobulin E (IgE). When IgE binds to an antigen, it triggers mast cells to release histamine, leukotrienes, and prostaglandins, which cause bronchospasm and vasodilation. This leads to inflammation and edema of the mucosal lining of the airways, resulting in persistent symptoms or late symptoms after an acute asthma attack.
While exposure to another allergen could trigger an asthma attack, it is not the most appropriate answer if you are only aware of a known allergy to tree pollen. Smooth muscle hypertrophy may occur in the long-term, but the exact mechanism and functional effects of airway remodeling in asthma are not fully understood. Pollen stuck on Ciliary would act as a cough stimulant, clearing the pollen from the respiratory tract. Additionally, the Ciliary would clear the pollen up the respiratory tract as part of the mucociliary escalator.
It is important to note that pollen inhaled into the respiratory system is not systemically absorbed. Instead, it binds to immune cells and exhibits immune effects through cytokines produced by Th1 and Th2 cells. Understanding the mechanisms of allergic asthma can help individuals manage their symptoms and prevent future attacks.
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This question is part of the following fields:
- Respiratory
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