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Question 1
Incorrect
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A 55-year-old man is admitted to the ICU after emergency surgery for an abdominal aortic aneurysm. He presents with abdominal pain and diarrhea and is in a critical condition. Despite the absence of peritonism, which of the following arterial blood gas patterns is most likely to be observed?
Your Answer: pH 7.45, pO2 10.1, pCO2 3.2, Base excess 0, Lactate 0
Correct Answer: pH 7.20, pO2 9.0, pCO2 3.5, Base excess -10, Lactate 8
Explanation:It is probable that this individual is experiencing metabolic acidosis as a result of a mesenteric infarction.
Disorders of Acid-Base Balance
The acid-base nomogram is a useful tool for categorizing the various disorders of acid-base balance. Metabolic acidosis is the most common surgical acid-base disorder, characterized by a reduction in plasma bicarbonate levels. This can be caused by a gain of strong acid or loss of base, and is classified according to the anion gap. A normal anion gap indicates hyperchloraemic metabolic acidosis, which can be caused by gastrointestinal bicarbonate loss, renal tubular acidosis, drugs, or Addison’s disease. A raised anion gap indicates lactate, ketones, urate, or acid poisoning. Metabolic alkalosis, on the other hand, is usually caused by a rise in plasma bicarbonate levels due to a loss of hydrogen ions or a gain of bicarbonate. It is mainly caused by problems of the kidney or gastrointestinal tract. Respiratory acidosis is characterized by a rise in carbon dioxide levels due to alveolar hypoventilation, while respiratory alkalosis is caused by hyperventilation resulting in excess loss of carbon dioxide. These disorders have various causes, such as COPD, sedative drugs, anxiety, hypoxia, and pregnancy.
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This question is part of the following fields:
- Respiratory System
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Question 2
Incorrect
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A patient on the medical ward was waiting for a cardiac procedure. On discussing the procedure with the consultant before the procedure, the patient started to feel anxious and had difficulty breathing. The resident obtained an arterial blood gas:
pH 7.55
pCO2 2.7kPa
pO2 11.2kPa
HCO3 24mmol/l
What is the most appropriate interpretation of these results?Your Answer: Mixed respiratory and metabolic alkalosis
Correct Answer: Respiratory alkalosis
Explanation:The respiratory alkalosis observed in the arterial blood gas results is most likely a result of hyperventilation, as indicated by the patient’s medical history.
Arterial Blood Gas Interpretation: A 5-Step Approach
Arterial blood gas interpretation is a crucial aspect of patient care, particularly in critical care settings. The Resuscitation Council (UK) recommends a 5-step approach to interpreting arterial blood gas results. The first step is to assess the patient’s overall condition. The second step is to determine if the patient is hypoxaemic, with a PaO2 on air of less than 10 kPa. The third step is to assess if the patient is acidaemic (pH <7.35) or alkalaemic (pH >7.45).
The fourth step is to evaluate the respiratory component of the arterial blood gas results. A PaCO2 level greater than 6.0 kPa suggests respiratory acidosis, while a PaCO2 level less than 4.7 kPa suggests respiratory alkalosis. The fifth step is to assess the metabolic component of the arterial blood gas results. A bicarbonate level less than 22 mmol/l or a base excess less than -2mmol/l suggests metabolic acidosis, while a bicarbonate level greater than 26 mmol/l or a base excess greater than +2mmol/l suggests metabolic alkalosis.
To remember the relationship between pH, PaCO2, and bicarbonate, the acronym ROME can be used. Respiratory acidosis or alkalosis is opposite to the pH level, while metabolic acidosis or alkalosis is equal to the pH level. This 5-step approach and the ROME acronym can aid healthcare professionals in interpreting arterial blood gas results accurately and efficiently.
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This question is part of the following fields:
- Respiratory System
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Question 3
Incorrect
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What is the embryonic origin of the pulmonary artery?
Your Answer: First pharyngeal arch
Correct Answer: Sixth pharyngeal arch
Explanation:The right pulmonary artery originates from the proximal portion of the sixth pharyngeal arch on the right side, while the distal portion of the same arch gives rise to the left pulmonary artery and the ductus arteriosus.
The Development and Contributions of Pharyngeal Arches
During the fourth week of embryonic growth, a series of mesodermal outpouchings develop from the pharynx, forming the pharyngeal arches. These arches fuse in the ventral midline, while pharyngeal pouches form on the endodermal side between the arches. There are six pharyngeal arches, with the fifth arch not contributing any useful structures and often fusing with the sixth arch.
Each pharyngeal arch has its own set of muscular and skeletal contributions, as well as an associated endocrine gland, artery, and nerve. The first arch contributes muscles of mastication, the maxilla, Meckel’s cartilage, and the incus and malleus bones. The second arch contributes muscles of facial expression, the stapes bone, and the styloid process and hyoid bone. The third arch contributes the stylopharyngeus muscle, the greater horn and lower part of the hyoid bone, and the thymus gland. The fourth arch contributes the cricothyroid muscle, all intrinsic muscles of the soft palate, the thyroid and epiglottic cartilages, and the superior parathyroids. The sixth arch contributes all intrinsic muscles of the larynx (except the cricothyroid muscle), the cricoid, arytenoid, and corniculate cartilages, and is associated with the pulmonary artery and recurrent laryngeal nerve.
Overall, the development and contributions of pharyngeal arches play a crucial role in the formation of various structures in the head and neck region.
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This question is part of the following fields:
- Respiratory System
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Question 4
Incorrect
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An 80-year-old man is brought to the emergency department in respiratory arrest. According to his partner, he has a history of congestive heart failure and has recently been battling an infection. After being placed on mechanical ventilation, you observe that the patient has decreased lung compliance.
What could be the cause of this observation?Your Answer: Emphysema
Correct Answer: Pulmonary oedema
Explanation:Reduced lung compliance is a common consequence of pulmonary edema, which occurs when fluid accumulates in the alveoli and exerts mechanical stress on the air-filled alveoli. This can happen in patients with acute decompensation of congestive cardiac failure, often triggered by an infection. On the other hand, emphysema can increase compliance due to long-term damage that reduces the elastic recoil of the lungs. Additionally, lung surfactant produced by type II pneumocytes can increase lung compliance. Finally, aging can also lead to increased compliance as the loss of lung connective tissue can reduce elastic recoil.
Understanding Lung Compliance in Respiratory Physiology
Lung compliance refers to the extent of change in lung volume in response to a change in airway pressure. An increase in lung compliance can be caused by factors such as aging and emphysema, which is characterized by the loss of alveolar walls and associated elastic tissue. On the other hand, a decrease in lung compliance can be attributed to conditions such as pulmonary edema, pulmonary fibrosis, pneumonectomy, and kyphosis. These conditions can affect the elasticity of the lungs and make it more difficult for them to expand and contract properly. Understanding lung compliance is important in respiratory physiology as it can help diagnose and manage various respiratory conditions. Proper management of lung compliance can improve lung function and overall respiratory health.
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This question is part of the following fields:
- Respiratory System
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Question 5
Incorrect
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A 35-year-old man is stabbed in the right chest and requires a thoracotomy. During the procedure, the right lung is mobilized and the pleural reflection at the lung hilum is opened. Which of the following structures is not located in this area?
Your Answer: Bronchus
Correct Answer: Azygos vein
Explanation:The pulmonary ligament extends from the pleural reflections surrounding the hilum of the lung and covers the pulmonary vessels and bronchus. However, it does not contain the azygos vein.
Anatomy of the Lungs
The lungs are a pair of organs located in the chest cavity that play a vital role in respiration. The right lung is composed of three lobes, while the left lung has two lobes. The apex of both lungs is approximately 4 cm superior to the sternocostal joint of the first rib. The base of the lungs is in contact with the diaphragm, while the costal surface corresponds to the cavity of the chest. The mediastinal surface contacts the mediastinal pleura and has the cardiac impression. The hilum is a triangular depression above and behind the concavity, where the structures that form the root of the lung enter and leave the viscus. The right main bronchus is shorter, wider, and more vertical than the left main bronchus. The inferior borders of both lungs are at the 6th rib in the mid clavicular line, 8th rib in the mid axillary line, and 10th rib posteriorly. The pleura runs two ribs lower than the corresponding lung level. The bronchopulmonary segments of the lungs are divided into ten segments, each with a specific function.
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This question is part of the following fields:
- Respiratory System
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Question 6
Correct
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A 9-month-old girl is brought to the hospital due to recurrent episodes of breathing difficulties. She has been experiencing a gradual worsening of symptoms, including a wet cough and expiratory wheezing, for the past 4 days.
During the examination, her temperature is recorded at 38.2°C, and her respiratory rate is 60 breaths per minute. Oxygen saturation levels are at 92% on air. Chest examination reveals mild intercostal retractions, scattered crackles, and expiratory wheezing in both lungs.
What is the most probable causative agent responsible for the symptoms?Your Answer: Respiratory syncytial virus
Explanation:Bronchiolitis is commonly caused by respiratory syncytial virus, which accounts for the majority of cases of serious lower respiratory tract infections in children under one.
Understanding Bronchiolitis
Bronchiolitis is a condition that is characterized by inflammation of the bronchioles. It is a serious lower respiratory tract infection that is most common in children under the age of one year. The pathogen responsible for 75-80% of cases is respiratory syncytial virus (RSV), while other causes include mycoplasma and adenoviruses. Bronchiolitis is more serious in children with bronchopulmonary dysplasia, congenital heart disease, or cystic fibrosis.
The symptoms of bronchiolitis include coryzal symptoms, dry cough, increasing breathlessness, and wheezing. Fine inspiratory crackles may also be present. Children with bronchiolitis may experience feeding difficulties associated with increasing dyspnoea, which is often the reason for hospital admission.
Immediate referral to hospital is recommended if the child has apnoea, looks seriously unwell to a healthcare professional, has severe respiratory distress, central cyanosis, or persistent oxygen saturation of less than 92% when breathing air. Clinicians should consider referring to hospital if the child has a respiratory rate of over 60 breaths/minute, difficulty with breastfeeding or inadequate oral fluid intake, or clinical dehydration.
The investigation for bronchiolitis involves immunofluorescence of nasopharyngeal secretions, which may show RSV. Management of bronchiolitis is largely supportive, with humidified oxygen given via a head box if oxygen saturations are persistently < 92%. Nasogastric feeding may be needed if children cannot take enough fluid/feed by mouth, and suction is sometimes used for excessive upper airway secretions.
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This question is part of the following fields:
- Respiratory System
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Question 7
Incorrect
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A 60-year-old male patient complains of chronic productive cough and difficulty breathing. He has been smoking 10 cigarettes per day for the past 30 years. What is the number of pack years equivalent to his smoking history?
Your Answer: 300
Correct Answer: 15
Explanation:Pack Year Calculation
Pack year calculation is a tool used to estimate the risk of tobacco exposure. It is calculated by multiplying the number of packs of cigarettes smoked per day by the number of years of smoking. One pack of cigarettes contains 20 cigarettes. For instance, if a person smoked half a pack of cigarettes per day for 30 years, their pack year history would be 15 (1/2 x 30 = 15).
The pack year calculation is a standardized method of measuring tobacco exposure. It helps healthcare professionals to estimate the risk of developing smoking-related diseases such as lung cancer, chronic obstructive pulmonary disease (COPD), and heart disease. The higher the pack year history, the greater the risk of developing these diseases. Therefore, it is important for individuals who smoke or have a history of smoking to discuss their pack year history with their healthcare provider to determine appropriate screening and prevention measures.
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This question is part of the following fields:
- Respiratory System
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Question 8
Incorrect
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A 70-year-old man visits a respiratory clinic complaining of shortness of breath even with minimal activity. Upon conducting a thorough assessment, you suspect that he may have idiopathic pulmonary fibrosis. To aid in your diagnosis, you decide to review his previous medical records. You come across the following spirometry results:
Measurement volume (ml)
Vital Capacity (VC) 4400
Inspiratory Reserve Volume (IRV) 3000
Functional Residual Capacity (FRC) 2800
Residual Volume (RV) 1200
What is the total lung capacity (TLC) of this patient?Your Answer: 7400ml
Correct Answer: 5600ml
Explanation:The correct answer is 5600ml, which represents the total lung capacity. This value is obtained by adding the vital capacity, which is the maximum amount of air that can be breathed out after a deep inhalation, to the residual volume, which is the amount of air that remains in the lungs after a maximal exhalation. The vital capacity is composed of three volumes: the inspiratory reserve volume, the tidal volume, and the expiratory reserve volume. Other formulas are available to calculate different lung volumes, but they are not as commonly used.
Understanding Lung Volumes in Respiratory Physiology
In respiratory physiology, lung volumes can be measured to determine the amount of air that moves in and out of the lungs during breathing. The diagram above shows the different lung volumes that can be measured.
Tidal volume (TV) refers to the amount of air that is inspired or expired with each breath at rest. In males, the TV is 500ml while in females, it is 350ml.
Inspiratory reserve volume (IRV) is the maximum volume of air that can be inspired at the end of a normal tidal inspiration. The inspiratory capacity is the sum of TV and IRV. On the other hand, expiratory reserve volume (ERV) is the maximum volume of air that can be expired at the end of a normal tidal expiration.
Residual volume (RV) is the volume of air that remains in the lungs after maximal expiration. It increases with age and can be calculated by subtracting ERV from FRC. Speaking of FRC, it is the volume in the lungs at the end-expiratory position and is equal to the sum of ERV and RV.
Vital capacity (VC) is the maximum volume of air that can be expired after a maximal inspiration. It decreases with age and can be calculated by adding inspiratory capacity and ERV. Lastly, total lung capacity (TLC) is the sum of vital capacity and residual volume.
Physiological dead space (VD) is calculated by multiplying tidal volume by the difference between arterial carbon dioxide pressure (PaCO2) and end-tidal carbon dioxide pressure (PeCO2) and then dividing the result by PaCO2.
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This question is part of the following fields:
- Respiratory System
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Question 9
Incorrect
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A 14-year-old girl presents to her GP with complaints of earache and hearing difficulty in her left ear. Upon examination, her GP observes a bulging tympanic membrane and diagnoses her with acute otitis media. The GP prescribes a course of oral antibiotics.
However, after a few days, the girl's fever persists and her pain worsens, prompting her to visit the emergency department. Upon examination, the girl has a tender and erythematous retro-auricular swelling with a temperature of 38.9ºC. She has no ear discharge, and the rest of her examination is unremarkable.
What complication has developed in this case?Your Answer: Facial nerve palsy
Correct Answer: Mastoiditis
Explanation:Mastoiditis is a potential complication of acute otitis media, which can cause pain and swelling behind the ear over the mastoid bone. However, there is no evidence of tympanic membrane perforation, neurological symptoms or signs of meningitis or brain abscess, or facial nerve injury in this case.
Acute otitis media is a common condition in young children, often caused by bacterial infections following viral upper respiratory tract infections. Symptoms include ear pain, fever, and hearing loss, and diagnosis is based on criteria such as the presence of a middle ear effusion and inflammation of the tympanic membrane. Antibiotics may be prescribed in certain cases, and complications can include perforation of the tympanic membrane, hearing loss, and more serious conditions such as meningitis and brain abscess.
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This question is part of the following fields:
- Respiratory System
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Question 10
Incorrect
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A patient in her 50s undergoes spirometry, during which she is instructed to perform a maximum forced exhalation following a maximum inhalation. The volume of exhaled air is measured. What is the term used to describe the difference between this volume and her total lung capacity?
Your Answer: Inspiratory reserve volume
Correct Answer: Residual volume
Explanation:The total lung capacity can be calculated by adding the vital capacity and residual volume. The expiratory reserve volume refers to the amount of air that can be exhaled after a normal breath compared to a maximal exhalation. The functional residual capacity is the amount of air remaining in the lungs after a normal exhalation. The inspiratory reserve volume is the difference between the amount of air in the lungs after a normal breath and a maximal inhalation. The residual volume is the amount of air left in the lungs after a maximal exhalation, which is the difference between the total lung capacity and vital capacity. The vital capacity is the maximum amount of air that can be inhaled and exhaled, measured by the volume of air exhaled after a maximal inhalation.
Understanding Lung Volumes in Respiratory Physiology
In respiratory physiology, lung volumes can be measured to determine the amount of air that moves in and out of the lungs during breathing. The diagram above shows the different lung volumes that can be measured.
Tidal volume (TV) refers to the amount of air that is inspired or expired with each breath at rest. In males, the TV is 500ml while in females, it is 350ml.
Inspiratory reserve volume (IRV) is the maximum volume of air that can be inspired at the end of a normal tidal inspiration. The inspiratory capacity is the sum of TV and IRV. On the other hand, expiratory reserve volume (ERV) is the maximum volume of air that can be expired at the end of a normal tidal expiration.
Residual volume (RV) is the volume of air that remains in the lungs after maximal expiration. It increases with age and can be calculated by subtracting ERV from FRC. Speaking of FRC, it is the volume in the lungs at the end-expiratory position and is equal to the sum of ERV and RV.
Vital capacity (VC) is the maximum volume of air that can be expired after a maximal inspiration. It decreases with age and can be calculated by adding inspiratory capacity and ERV. Lastly, total lung capacity (TLC) is the sum of vital capacity and residual volume.
Physiological dead space (VD) is calculated by multiplying tidal volume by the difference between arterial carbon dioxide pressure (PaCO2) and end-tidal carbon dioxide pressure (PeCO2) and then dividing the result by PaCO2.
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This question is part of the following fields:
- Respiratory System
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Question 11
Incorrect
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What is the term used to describe the area between the vocal cords?
Your Answer: Piriform recess
Correct Answer: Rima glottidis
Explanation:The narrowest part of the laryngeal cavity is known as the rima glottidis.
Anatomy of the Larynx
The larynx is located in the front of the neck, between the third and sixth cervical vertebrae. It is made up of several cartilaginous segments, including the paired arytenoid, corniculate, and cuneiform cartilages, as well as the single thyroid, cricoid, and epiglottic cartilages. The cricoid cartilage forms a complete ring. The laryngeal cavity extends from the laryngeal inlet to the inferior border of the cricoid cartilage and is divided into three parts: the laryngeal vestibule, the laryngeal ventricle, and the infraglottic cavity.
The vocal folds, also known as the true vocal cords, control sound production. They consist of the vocal ligament and the vocalis muscle, which is the most medial part of the thyroarytenoid muscle. The glottis is composed of the vocal folds, processes, and rima glottidis, which is the narrowest potential site within the larynx.
The larynx is also home to several muscles, including the posterior cricoarytenoid, lateral cricoarytenoid, thyroarytenoid, transverse and oblique arytenoids, vocalis, and cricothyroid muscles. These muscles are responsible for various actions, such as abducting or adducting the vocal folds and relaxing or tensing the vocal ligament.
The larynx receives its arterial supply from the laryngeal arteries, which are branches of the superior and inferior thyroid arteries. Venous drainage is via the superior and inferior laryngeal veins. Lymphatic drainage varies depending on the location within the larynx, with the vocal cords having no lymphatic drainage and the supraglottic and subglottic parts draining into different lymph nodes.
Overall, understanding the anatomy of the larynx is important for proper diagnosis and treatment of various conditions affecting this structure.
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This question is part of the following fields:
- Respiratory System
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Question 12
Incorrect
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Which of the following physiological changes does not take place after a tracheostomy?
Your Answer:
Correct Answer: Work of breathing is increased.
Explanation:HFNC is a popular option for weaning ventilated patients as it reduces work of breathing and humidified air helps to reduce mucous viscosity.
Anatomy of the Trachea
The trachea, also known as the windpipe, is a tube-like structure that extends from the C6 vertebrae to the upper border of the T5 vertebrae where it bifurcates into the left and right bronchi. It is supplied by the inferior thyroid arteries and the thyroid venous plexus, and innervated by branches of the vagus, sympathetic, and recurrent nerves.
In the neck, the trachea is anterior to the isthmus of the thyroid gland, inferior thyroid veins, and anastomosing branches between the anterior jugular veins. It is also surrounded by the sternothyroid, sternohyoid, and cervical fascia. Posteriorly, it is related to the esophagus, while laterally, it is in close proximity to the common carotid arteries, right and left lobes of the thyroid gland, inferior thyroid arteries, and recurrent laryngeal nerves.
In the thorax, the trachea is anterior to the manubrium, the remains of the thymus, the aortic arch, left common carotid arteries, and the deep cardiac plexus. Laterally, it is related to the pleura and right vagus on the right side, and the left recurrent nerve, aortic arch, and left common carotid and subclavian arteries on the left side.
Overall, understanding the anatomy of the trachea is important for various medical procedures and interventions, such as intubation and tracheostomy.
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This question is part of the following fields:
- Respiratory System
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Question 13
Incorrect
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Which one of the following does not cause a normal anion gap acidosis?
Your Answer:
Correct Answer: Uraemia
Explanation:Normal Gap Acidosis can be remembered using the acronym HARDUP, which stands for Hyperalimentation/hyperventilation, Acetazolamide, and R (which is currently blank).
Disorders of Acid-Base Balance
The acid-base nomogram is a useful tool for categorizing the various disorders of acid-base balance. Metabolic acidosis is the most common surgical acid-base disorder, characterized by a reduction in plasma bicarbonate levels. This can be caused by a gain of strong acid or loss of base, and is classified according to the anion gap. A normal anion gap indicates hyperchloraemic metabolic acidosis, which can be caused by gastrointestinal bicarbonate loss, renal tubular acidosis, drugs, or Addison’s disease. A raised anion gap indicates lactate, ketones, urate, or acid poisoning. Metabolic alkalosis, on the other hand, is usually caused by a rise in plasma bicarbonate levels due to a loss of hydrogen ions or a gain of bicarbonate. It is mainly caused by problems of the kidney or gastrointestinal tract. Respiratory acidosis is characterized by a rise in carbon dioxide levels due to alveolar hypoventilation, while respiratory alkalosis is caused by hyperventilation resulting in excess loss of carbon dioxide. These disorders have various causes, such as COPD, sedative drugs, anxiety, hypoxia, and pregnancy.
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This question is part of the following fields:
- Respiratory System
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Question 14
Incorrect
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A 12-year-old girl is referred to a respiratory specialist due to persistent episodes of shortness of breath. She also suffers from severe hay fever and eczema. After undergoing a peak expiratory flow test, signs of outflow obstruction of her lungs are detected. The doctor prescribes beclomethasone and salbutamol for her and advises her mother to keep her away from dust, as asthma is often linked to hypersensitivity to dust. Which type of hypersensitivity is associated with asthma?
Your Answer:
Correct Answer: Type 1 hypersensitivity
Explanation:Asthma is linked to type 1 hypersensitivity, which is caused by the binding of IgE to Mast cells, resulting in an inflammatory reaction. Other types of hypersensitivity include type 2, which involves the binding of IgG or IgM to cell surface antigens, type 3, which is immune complex-mediated, and type 4, which is T-cell mediated.
Asthma is a common respiratory disorder that affects both children and adults. It is characterized by chronic inflammation of the airways, resulting in reversible bronchospasm and airway obstruction. While asthma can develop at any age, it typically presents in childhood and may improve or resolve with age. However, it can also persist into adulthood and cause significant morbidity, with around 1,000 deaths per year in the UK.
Several risk factors can increase the likelihood of developing asthma, including a personal or family history of atopy, antenatal factors such as maternal smoking or viral infections, low birth weight, not being breastfed, exposure to allergens and air pollution, and the hygiene hypothesis. Patients with asthma may also suffer from other atopic conditions such as eczema and hay fever, and some may be sensitive to aspirin. Occupational asthma is also a concern for those exposed to allergens in the workplace.
Symptoms of asthma include coughing, dyspnea, wheezing, and chest tightness, with coughing often worse at night. Signs may include expiratory wheezing on auscultation and reduced peak expiratory flow rate. Diagnosis is typically made through spirometry, which measures the volume and speed of air during exhalation and inhalation.
Management of asthma typically involves the use of inhalers to deliver drug therapy directly to the airways. Short-acting beta-agonists such as salbutamol are the first-line treatment for relieving symptoms, while inhaled corticosteroids like beclometasone dipropionate and fluticasone propionate are used for daily maintenance therapy. Long-acting beta-agonists like salmeterol and leukotriene receptor antagonists like montelukast may also be used in combination with other medications. Maintenance and reliever therapy (MART) is a newer approach that combines ICS and a fast-acting LABA in a single inhaler for both daily maintenance and symptom relief. Recent guidelines recommend offering a leukotriene receptor antagonist instead of a LABA for patients on SABA + ICS whose asthma is not well controlled, and considering MART for those with poorly controlled asthma.
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This question is part of the following fields:
- Respiratory System
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Question 15
Incorrect
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A 25-year-old man with a history of asthma since childhood visited his doctor for his routine check-up. He is planning to go on a hiking trip with his friends in a month and wants to ensure that it is safe for him. Can you describe the scenarios that accurately depict the hemoglobin saturation of blood and the ability of body tissues to extract oxygen from the blood in response to different situations?
Your Answer:
Correct Answer: If the man is not able to breathe properly and, his blood carbon dioxide level increases, this will cause his body tissues to extract more oxygen from his blood
Explanation:Hypercapnia causes a shift in the oxygen dissociation curve to the right. This means that for the same partial pressure of oxygen, the hemoglobin saturation will be less. Other factors that can cause a right shift in the curve include high altitudes, anaerobic metabolism resulting in the production of lactic acid, physical activity, and an increase in temperature. These shifts allow the body tissues to extract more oxygen from the blood, resulting in a lower hemoglobin saturation of the blood leaving the body tissues. Carbon dioxide is also known to produce a right shift in the curve, further contributing to this effect.
Understanding the Oxygen Dissociation Curve
The oxygen dissociation curve is a graphical representation of the relationship between the percentage of saturated haemoglobin and the partial pressure of oxygen in the blood. It is not influenced by the concentration of haemoglobin. The curve can shift to the left or right, indicating changes in oxygen delivery to tissues. When the curve shifts to the left, there is increased saturation of haemoglobin with oxygen, resulting in decreased oxygen delivery to tissues. Conversely, when the curve shifts to the right, there is reduced saturation of haemoglobin with oxygen, leading to enhanced oxygen delivery to tissues.
The L rule is a helpful mnemonic to remember the factors that cause a shift to the left, resulting in lower oxygen delivery. These factors include low levels of hydrogen ions (alkali), low partial pressure of carbon dioxide, low levels of 2,3-diphosphoglycerate, and low temperature. On the other hand, the mnemonic ‘CADET, face Right!’ can be used to remember the factors that cause a shift to the right, leading to raised oxygen delivery. These factors include carbon dioxide, acid, 2,3-diphosphoglycerate, exercise, and temperature.
Understanding the oxygen dissociation curve is crucial in assessing the oxygen-carrying capacity of the blood and the delivery of oxygen to tissues. By knowing the factors that can shift the curve to the left or right, healthcare professionals can make informed decisions in managing patients with respiratory and cardiovascular diseases.
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This question is part of the following fields:
- Respiratory System
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Question 16
Incorrect
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A 49-year-old woman of African descent visits her primary care physician with concerns about a lump in her neck that has been present for a week. She reports no significant increase in size and denies any pain or difficulty swallowing. The patient has no notable medical history, except for a visit to the eye doctor last year for a red-eye that required treatment with topical steroid drops. During the examination, the doctor observes some red, tender nodules on the patient's shin, which the patient says come and go and do not cause much discomfort. A chest x-ray reveals bilateral hilar lymphadenopathy with no other significant findings. What is typically linked to this patient's condition?
Your Answer:
Correct Answer: Elevated angiotensin-converting enzyme levels
Explanation:Sarcoidosis is likely in this patient based on their symptoms and examination findings, including a neck lump, tender nodules on the shin, and a history of red-eye. Bilateral lymphadenopathy on chest X-ray further supports the diagnosis, as does the presence of elevated angiotensin-converting enzyme levels, which are commonly seen in sarcoidosis. Hypercalcemia, fatigue, and uveitis are also associated with sarcoidosis, while exposure to silica is not supported by this patient’s presentation.
Investigating Sarcoidosis
Sarcoidosis is a disease that does not have a single diagnostic test, and therefore, diagnosis is mainly based on clinical observations. Although ACE levels may be used to monitor disease activity, they are not reliable in diagnosing sarcoidosis due to their low sensitivity and specificity. Routine blood tests may show hypercalcemia and a raised ESR.
A chest x-ray is a common investigation for sarcoidosis and may reveal different stages of the disease. Stage 0 is normal, stage 1 shows bilateral hilar lymphadenopathy (BHL), stage 2 shows BHL and interstitial infiltrates, stage 3 shows diffuse interstitial infiltrates only, and stage 4 shows diffuse fibrosis. Other investigations, such as spirometry, may show a restrictive defect, while a tissue biopsy may reveal non-caseating granulomas. However, the Kveim test, which involves injecting part of the spleen from a patient with known sarcoidosis under the skin, is no longer performed due to concerns about cross-infection.
In addition, a gallium-67 scan is not routinely used to investigate sarcoidosis. CT scans may also be used to investigate sarcoidosis, and they may show diffuse areas of nodularity predominantly in a peribronchial distribution with patchy areas of consolidation, particularly in the upper lobes. Ground glass opacities may also be present, but there are no gross reticular changes to suggest fibrosis.
Overall, investigating sarcoidosis involves a combination of clinical observations, blood tests, chest x-rays, and other investigations such as spirometry and tissue biopsy. CT scans may also be used to provide more detailed information about the disease.
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This question is part of the following fields:
- Respiratory System
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Question 17
Incorrect
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A 65-year-old man visits his doctor complaining of a productive cough and difficulty breathing for the past 10 days. The doctor prescribes antibiotics, but after a week, the patient's symptoms persist and he develops a fever and pain when breathing in. The doctor orders a chest x-ray, which indicates the presence of an empyema. What is the probable causative agent responsible for this condition?
Your Answer:
Correct Answer: Streptococcus pneumoniae
Explanation:An accumulation of pus in the pleural space, known as empyema, is a possible complication of pneumonia and is responsible for the patient’s pleurisy. Streptococcus pneumoniae, the most frequent cause of pneumonia, is also the leading cause of empyema.
Pneumonia is a common condition that affects the alveoli of the lungs, usually caused by a bacterial infection. Other causes include viral and fungal infections. Streptococcus pneumoniae is the most common organism responsible for pneumonia, accounting for 80% of cases. Haemophilus influenzae is common in patients with COPD, while Staphylococcus aureus often occurs in patients following influenzae infection. Mycoplasma pneumoniae and Legionella pneumophilia are atypical pneumonias that present with dry cough and other atypical symptoms. Pneumocystis jiroveci is typically seen in patients with HIV. Idiopathic interstitial pneumonia is a group of non-infective causes of pneumonia.
Patients who develop pneumonia outside of the hospital have community-acquired pneumonia (CAP), while those who develop it within hospitals are said to have hospital-acquired pneumonia. Symptoms of pneumonia include cough, sputum, dyspnoea, chest pain, and fever. Signs of systemic inflammatory response, tachycardia, reduced oxygen saturations, and reduced breath sounds may also be present. Chest x-ray is used to diagnose pneumonia, with consolidation being the classical finding. Blood tests, such as full blood count, urea and electrolytes, and CRP, are also used to check for infection.
Patients with pneumonia require antibiotics to treat the underlying infection and supportive care, such as oxygen therapy and intravenous fluids. Risk stratification is done using a scoring system called CURB-65, which stands for confusion, respiration rate, blood pressure, age, and is used to determine the management of patients with community-acquired pneumonia. Home-based care is recommended for patients with a CRB65 score of 0, while hospital assessment is recommended for all other patients, particularly those with a CRB65 score of 2 or more. The CURB-65 score also correlates with an increased risk of mortality at 30 days.
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This question is part of the following fields:
- Respiratory System
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Question 18
Incorrect
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Samantha is a 67-year-old woman who visits her doctor complaining of muscle weakness and blurred vision. She works as a librarian, drinks about 15 units of alcohol per week, and has smoked about 25 cigarettes a day for 35 years.
During the examination, her blood pressure is found to be elevated at 152/98 mmHg. There are reduced breath sounds over the area of the right lower lobe. Some of her blood test results are as follows:
- Hb 120 g/L (Female: 115-160)
- Platelets 420 * 109/L (150-400)
- WBC 9.1 * 109/L (4.0-11.0)
- Na+ 148 mmol/L (135-145)
- K+ 3.2 mmol/L (3.5-5.0)
- Urea 8.5 mmol/L (2.0-7.0)
- Creatinine 150 µmol/L (55-120)
- 24-hour urine free cortisol 260 ug/l (10-100)
- Glucose 17.8 mmol/l (4.0-7.0)
She mentions that, aside from a persistent cough due to smoking, which occasionally produces blood, she feels fine.
What is the most probable diagnosis?Your Answer:
Correct Answer: Small cell lung carcinoma
Explanation:A small cell lung carcinoma that secretes ACTH can lead to Cushing’s syndrome, as seen in this patient. The history and examination findings suggest lung cancer, and the raised cortisol level can be explained by the paraneoplastic syndrome caused by ACTH release. Muscle weakness and blurred vision are typical symptoms of Cushing’s syndrome. Squamous cell lung carcinoma and adrenal adenoma are less likely causes, while Cushing’s disease is not applicable in this case.
Lung cancer can present with paraneoplastic features, which are symptoms caused by the cancer but not directly related to the tumor itself. Small cell lung cancer can cause the secretion of ADH and, less commonly, ACTH, which can lead to hypertension, hyperglycemia, hypokalemia, alkalosis, and muscle weakness. Lambert-Eaton syndrome is also associated with small cell lung cancer. Squamous cell lung cancer can cause the secretion of parathyroid hormone-related protein, leading to hypercalcemia, as well as clubbing and hypertrophic pulmonary osteoarthropathy. Adenocarcinoma can cause gynecomastia and hypertrophic pulmonary osteoarthropathy. Hypertrophic pulmonary osteoarthropathy is a painful condition involving the proliferation of periosteum in the long bones. Although traditionally associated with squamous cell carcinoma, some studies suggest that adenocarcinoma is the most common cause.
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This question is part of the following fields:
- Respiratory System
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Question 19
Incorrect
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John, a 55-year-old man, arrives at the emergency department complaining of chest pain that is relieved by leaning forward. He also mentions that the pain spreads to his left shoulder. The diagnosis is pericarditis.
Which nerve is accountable for the referred pain in this case?Your Answer:
Correct Answer: Phrenic nerve
Explanation:The phrenic nerve provides motor innervation to the diaphragm and sensory innervation to the pleura and pericardium. Pericarditis can cause referred pain to the shoulder due to the supraclavicular nerves originating at C3-4. It is important to note that there are no pericardial nerves. The spinal accessory nerve innervates the trapezius and sternocleidomastoid muscles, while the trochlear nerve supplies the superior oblique muscle. Although the vagus nerve has various functions, it does not supply the pericardium.
The Phrenic Nerve: Origin, Path, and Supplies
The phrenic nerve is a crucial nerve that originates from the cervical spinal nerves C3, C4, and C5. It supplies the diaphragm and provides sensation to the central diaphragm and pericardium. The nerve passes with the internal jugular vein across scalenus anterior and deep to the prevertebral fascia of the deep cervical fascia.
The right phrenic nerve runs anterior to the first part of the subclavian artery in the superior mediastinum and laterally to the superior vena cava. In the middle mediastinum, it is located to the right of the pericardium and passes over the right atrium to exit the diaphragm at T8. On the other hand, the left phrenic nerve passes lateral to the left subclavian artery, aortic arch, and left ventricle. It passes anterior to the root of the lung and pierces the diaphragm alone.
Understanding the origin, path, and supplies of the phrenic nerve is essential in diagnosing and treating conditions that affect the diaphragm and pericardium.
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This question is part of the following fields:
- Respiratory System
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Question 20
Incorrect
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Cystic fibrosis is caused by a mutation in the CFTR gene. On which chromosome is this gene located?
Your Answer:
Correct Answer: Chromosome 7
Explanation:Understanding Cystic Fibrosis
Cystic fibrosis is a genetic disorder that causes thickened secretions in the lungs and pancreas. It is an autosomal recessive condition that occurs due to a defect in the cystic fibrosis transmembrane conductance regulator gene (CFTR), which regulates a chloride channel. In the UK, 80% of CF cases are caused by delta F508 on chromosome 7, and the carrier rate is approximately 1 in 25.
CF patients are at risk of colonization by certain organisms, including Staphylococcus aureus, Pseudomonas aeruginosa, Burkholderia cepacia (previously known as Pseudomonas cepacia), and Aspergillus. These organisms can cause infections and exacerbate symptoms in CF patients. It is important for healthcare providers to monitor and manage these infections to prevent further complications.
Overall, understanding cystic fibrosis and its associated risks can help healthcare providers provide better care for patients with this condition.
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This question is part of the following fields:
- Respiratory System
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Question 21
Incorrect
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Which one of the following is not a cause of increased anion gap acidosis?
Your Answer:
Correct Answer: Acetazolamide
Explanation:Causes of anion gap acidosis can be remembered using the acronym MUDPILES, which stands for Methanol, Uraemia, DKA/AKA, Paraldehyde/phenformin, Iron/INH, Lactic acidosis, Ethylene glycol, and Salicylates.
Disorders of Acid-Base Balance
The acid-base nomogram is a useful tool for categorizing the various disorders of acid-base balance. Metabolic acidosis is the most common surgical acid-base disorder, characterized by a reduction in plasma bicarbonate levels. This can be caused by a gain of strong acid or loss of base, and is classified according to the anion gap. A normal anion gap indicates hyperchloraemic metabolic acidosis, which can be caused by gastrointestinal bicarbonate loss, renal tubular acidosis, drugs, or Addison’s disease. A raised anion gap indicates lactate, ketones, urate, or acid poisoning. Metabolic alkalosis, on the other hand, is usually caused by a rise in plasma bicarbonate levels due to a loss of hydrogen ions or a gain of bicarbonate. It is mainly caused by problems of the kidney or gastrointestinal tract. Respiratory acidosis is characterized by a rise in carbon dioxide levels due to alveolar hypoventilation, while respiratory alkalosis is caused by hyperventilation resulting in excess loss of carbon dioxide. These disorders have various causes, such as COPD, sedative drugs, anxiety, hypoxia, and pregnancy.
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This question is part of the following fields:
- Respiratory System
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Question 22
Incorrect
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A 50-year-old woman comes to see you at the clinic with progressive muscle weakness, numbness, and tingling in her left arm. She reports experiencing neck and shoulder pain on the left side as well. She has no significant medical history and is generally healthy. She denies any recent injuries or trauma. Based on your clinical assessment, you suspect that she may have thoracic outlet syndrome.
What additional physical finding is most likely to confirm your suspicion of thoracic outlet syndrome in this patient?Your Answer:
Correct Answer: Absent radial pulse
Explanation:Compression of the subclavian artery by a cervical rib can result in an absent radial pulse, which is a common symptom of thoracic outlet syndrome. Adson’s test can be used to diagnose this condition, which can be mistaken for cervical radiculopathy. Flapping tremors are typically observed in patients with encephalopathy caused by liver failure or carbon dioxide retention. An irregular pulse may indicate an arrhythmia like atrial fibrillation or heart block. Aortic stenosis, which is characterized by an ejection systolic murmur, often causes older patients to experience loss of consciousness during physical activity. A bounding pulse, on the other hand, is a sign of strong myocardial contractions that may be caused by heart failure, arrhythmias, pregnancy, or thyroid disease.
Cervical ribs are a rare anomaly that affects only 0.2-0.4% of the population. They are often associated with neurological symptoms and are caused by an anomalous fibrous band that originates from the seventh cervical vertebrae and may arc towards the sternum. While most cases are congenital and present around the third decade of life, some cases have been reported to occur following trauma. Bilateral cervical ribs are present in up to 70% of cases. Compression of the subclavian artery can lead to absent radial pulse and a positive Adsons test, which involves lateral flexion of the neck towards the symptomatic side and traction of the symptomatic arm. Treatment is usually only necessary when there is evidence of neurovascular compromise, and the traditional operative method for excision is a transaxillary approach.
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This question is part of the following fields:
- Respiratory System
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Question 23
Incorrect
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A 59-year-old woman visits the respiratory clinic for spirometry testing. As part of the testing, what is the definition of functional residual capacity?
Your Answer:
Correct Answer: Functional residual capacity = expiratory reserve volume + residual volume
Explanation:To calculate the volume of air in the lungs after a normal relaxed expiration, one can use the formula for functional residual capacity (FRC), which is determined by the balance between the lungs’ tendency to recoil inwards and the chest wall’s tendency to pull outwards. FRC can be calculated by adding the expiratory reserve volume and the residual volume. In individuals with tetraplegia, decreases in FRC are primarily caused by a reduction in the outward pull of the chest wall, which occurs over time due to the inability to regularly expand the chest wall to large lung volumes. This reduction in FRC can increase the risk of atelectasis.
Understanding Lung Volumes in Respiratory Physiology
In respiratory physiology, lung volumes can be measured to determine the amount of air that moves in and out of the lungs during breathing. The diagram above shows the different lung volumes that can be measured.
Tidal volume (TV) refers to the amount of air that is inspired or expired with each breath at rest. In males, the TV is 500ml while in females, it is 350ml.
Inspiratory reserve volume (IRV) is the maximum volume of air that can be inspired at the end of a normal tidal inspiration. The inspiratory capacity is the sum of TV and IRV. On the other hand, expiratory reserve volume (ERV) is the maximum volume of air that can be expired at the end of a normal tidal expiration.
Residual volume (RV) is the volume of air that remains in the lungs after maximal expiration. It increases with age and can be calculated by subtracting ERV from FRC. Speaking of FRC, it is the volume in the lungs at the end-expiratory position and is equal to the sum of ERV and RV.
Vital capacity (VC) is the maximum volume of air that can be expired after a maximal inspiration. It decreases with age and can be calculated by adding inspiratory capacity and ERV. Lastly, total lung capacity (TLC) is the sum of vital capacity and residual volume.
Physiological dead space (VD) is calculated by multiplying tidal volume by the difference between arterial carbon dioxide pressure (PaCO2) and end-tidal carbon dioxide pressure (PeCO2) and then dividing the result by PaCO2.
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This question is part of the following fields:
- Respiratory System
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Question 24
Incorrect
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Which one of the following does not decrease the functional residual capacity?
Your Answer:
Correct Answer: Upright position
Explanation:When a patient is in an upright position, the functional residual capacity (FRC) can increase due to less pressure from the diaphragm and abdominal organs on the lung bases. This increase in FRC can also be caused by emphysema and asthma. On the other hand, factors such as abdominal swelling, pulmonary edema, reduced muscle tone of the diaphragm, and aging can lead to a decrease in FRC. Additionally, laparoscopic surgery, obesity, and muscle relaxants can also contribute to a reduction in FRC.
Understanding Lung Volumes in Respiratory Physiology
In respiratory physiology, lung volumes can be measured to determine the amount of air that moves in and out of the lungs during breathing. The diagram above shows the different lung volumes that can be measured.
Tidal volume (TV) refers to the amount of air that is inspired or expired with each breath at rest. In males, the TV is 500ml while in females, it is 350ml.
Inspiratory reserve volume (IRV) is the maximum volume of air that can be inspired at the end of a normal tidal inspiration. The inspiratory capacity is the sum of TV and IRV. On the other hand, expiratory reserve volume (ERV) is the maximum volume of air that can be expired at the end of a normal tidal expiration.
Residual volume (RV) is the volume of air that remains in the lungs after maximal expiration. It increases with age and can be calculated by subtracting ERV from FRC. Speaking of FRC, it is the volume in the lungs at the end-expiratory position and is equal to the sum of ERV and RV.
Vital capacity (VC) is the maximum volume of air that can be expired after a maximal inspiration. It decreases with age and can be calculated by adding inspiratory capacity and ERV. Lastly, total lung capacity (TLC) is the sum of vital capacity and residual volume.
Physiological dead space (VD) is calculated by multiplying tidal volume by the difference between arterial carbon dioxide pressure (PaCO2) and end-tidal carbon dioxide pressure (PeCO2) and then dividing the result by PaCO2.
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This question is part of the following fields:
- Respiratory System
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Question 25
Incorrect
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A 65-year-old man with uncontrolled diabetes complains of severe otalgia and headaches. During examination, granulation tissue is observed in the external auditory meatus. What is the probable causative agent of the infection?
Your Answer:
Correct Answer: Pseudomonas aeruginosa
Explanation:The primary cause of malignant otitis externa is typically Pseudomonas aeruginosa. Symptoms of this condition include intense pain, headaches, and the presence of granulation tissue in the external auditory meatus. Individuals with diabetes mellitus are at a higher risk for developing this condition.
Malignant Otitis Externa: A Rare but Serious Infection
Malignant otitis externa is a type of ear infection that is uncommon but can be serious. It is typically found in individuals who are immunocompromised, with 90% of cases occurring in diabetics. The infection starts in the soft tissues of the external auditory meatus and can progress to involve the soft tissues and bony ear canal, eventually leading to temporal bone osteomyelitis.
Key features in the patient’s history include diabetes or immunosuppression, severe and persistent ear pain, temporal headaches, and purulent otorrhea. In some cases, patients may also experience dysphagia, hoarseness, and facial nerve dysfunction.
Diagnosis is typically done through a CT scan, and non-resolving otitis externa with worsening pain should be referred urgently to an ENT specialist. Treatment involves intravenous antibiotics that cover pseudomonal infections.
In summary, malignant otitis externa is a rare but serious infection that requires prompt diagnosis and treatment. Patients with diabetes or immunosuppression should be particularly vigilant for symptoms and seek medical attention if they experience persistent ear pain or other related symptoms.
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This question is part of the following fields:
- Respiratory System
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Question 26
Incorrect
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A 29-year-old pregnant woman is admitted to the hospital and delivers a baby girl at 32 weeks gestation. The newborn displays signs of distress including tachypnoea, tachycardia, expiratory grunting, nasal flaring, and chest wall recession.
What is the cell type responsible for producing the substance that the baby is lacking?Your Answer:
Correct Answer: Type 2 pneumocytes
Explanation:Types of Pneumocytes and Their Functions
Pneumocytes are specialized cells found in the lungs that play a crucial role in gas exchange. There are two main types of pneumocytes: type 1 and type 2. Type 1 pneumocytes are very thin squamous cells that cover around 97% of the alveolar surface. On the other hand, type 2 pneumocytes are cuboidal cells that secrete surfactant, a substance that reduces surface tension in the alveoli and prevents their collapse during expiration.
Type 2 pneumocytes start to develop around 24 weeks gestation, but adequate surfactant production does not take place until around 35 weeks. This is why premature babies are prone to respiratory distress syndrome. In addition, type 2 pneumocytes can differentiate into type 1 pneumocytes during lung damage, helping to repair and regenerate damaged lung tissue.
Apart from pneumocytes, there are also club cells (previously termed Clara cells) found in the bronchioles. These non-ciliated dome-shaped cells have a varied role, including protecting against the harmful effects of inhaled toxins and secreting glycosaminoglycans and lysozymes. Understanding the different types of pneumocytes and their functions is essential in comprehending the complex mechanisms involved in respiration.
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This question is part of the following fields:
- Respiratory System
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Question 27
Incorrect
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A 50-year-old female presents to her GP with complaints of shortness of breath and weakness during mild-moderate exercise. She reports that these episodes have been getting progressively worse and now often result in dizziness. The patient has no significant medical history but was a previous smoker for 15 years, smoking 15 cigarettes per day. Spirometry testing reveals a restrictive lung pattern. What is the most probable diagnosis?
Your Answer:
Correct Answer: Myasthenia gravis
Explanation:Myasthenia gravis can result in a restrictive pattern of lung disease due to weakness of the respiratory muscles, which causes difficulty in breathing air in. Asthma and COPD are incorrect as they cause an obstructive pattern on spirometry, with asthma being characterized by small bronchiole obstruction from inflammation and increased mucus production, and COPD causing small airway inflammation and emphysema that restricts outward airflow. Alpha-1 antitrypsin deficiency also leads to an obstructive pattern, as it results in pulmonary tissue degradation and panlobular emphysema.
Understanding the Differences between Obstructive and Restrictive Lung Diseases
Obstructive and restrictive lung diseases are two distinct categories of respiratory conditions that affect the lungs in different ways. Obstructive lung diseases are characterized by a reduction in the flow of air through the airways due to narrowing or blockage, while restrictive lung diseases are characterized by a decrease in lung volume or capacity, making it difficult to breathe in enough air.
Spirometry is a common diagnostic tool used to differentiate between obstructive and restrictive lung diseases. In obstructive lung diseases, the ratio of forced expiratory volume in one second (FEV1) to forced vital capacity (FVC) is less than 80%, indicating a reduced ability to exhale air. In contrast, restrictive lung diseases are characterized by an FEV1/FVC ratio greater than 80%, indicating a reduced ability to inhale air.
Examples of obstructive lung diseases include chronic obstructive pulmonary disease (COPD), chronic bronchitis, and emphysema, while asthma and bronchiectasis are also considered obstructive. Restrictive lung diseases include intrapulmonary conditions such as idiopathic pulmonary fibrosis, extrinsic allergic alveolitis, and drug-induced fibrosis, as well as extrapulmonary conditions such as neuromuscular diseases, obesity, and scoliosis.
Understanding the differences between obstructive and restrictive lung diseases is important for accurate diagnosis and appropriate treatment. While both types of conditions can cause difficulty breathing, the underlying causes and treatment approaches can vary significantly.
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This question is part of the following fields:
- Respiratory System
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Question 28
Incorrect
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A 24-year-old female arrives at the emergency department in a state of panic following a recent breakup with her partner. She complains of chest tightness and dizziness, fearing that she may be experiencing a heart attack. Upon examination, her vital signs are stable except for a respiratory rate of 34 breaths per minute. What compensatory mechanism is expected in response to the change in her oxyhaemoglobin dissociation curve, and what is the underlying cause?
Your Answer:
Correct Answer: Left shift, respiratory alkalosis
Explanation:The patient’s oxygen dissociation curve has shifted to the left, indicating respiratory alkalosis. This is likely due to the patient experiencing a panic attack and hyperventilating, leading to a decrease in carbon dioxide levels and an increase in the affinity of haemoglobin for oxygen. Respiratory acidosis, hypercapnia, and a right shift of the curve are not appropriate explanations for this patient’s condition.
Understanding the Oxygen Dissociation Curve
The oxygen dissociation curve is a graphical representation of the relationship between the percentage of saturated haemoglobin and the partial pressure of oxygen in the blood. It is not influenced by the concentration of haemoglobin. The curve can shift to the left or right, indicating changes in oxygen delivery to tissues. When the curve shifts to the left, there is increased saturation of haemoglobin with oxygen, resulting in decreased oxygen delivery to tissues. Conversely, when the curve shifts to the right, there is reduced saturation of haemoglobin with oxygen, leading to enhanced oxygen delivery to tissues.
The L rule is a helpful mnemonic to remember the factors that cause a shift to the left, resulting in lower oxygen delivery. These factors include low levels of hydrogen ions (alkali), low partial pressure of carbon dioxide, low levels of 2,3-diphosphoglycerate, and low temperature. On the other hand, the mnemonic ‘CADET, face Right!’ can be used to remember the factors that cause a shift to the right, leading to raised oxygen delivery. These factors include carbon dioxide, acid, 2,3-diphosphoglycerate, exercise, and temperature.
Understanding the oxygen dissociation curve is crucial in assessing the oxygen-carrying capacity of the blood and the delivery of oxygen to tissues. By knowing the factors that can shift the curve to the left or right, healthcare professionals can make informed decisions in managing patients with respiratory and cardiovascular diseases.
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This question is part of the following fields:
- Respiratory System
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Question 29
Incorrect
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Which one of the following is true regarding the phrenic nerves?
Your Answer:
Correct Answer: They both lie anterior to the hilum of the lungs
Explanation:The phrenic nerves, located in the anterior region of the lung’s hilum, play a crucial role in keeping the diaphragm functioning properly. These nerves have both sensory and motor functions, and any issues in the sub diaphragmatic area may result in referred pain in the shoulder.
The Phrenic Nerve: Origin, Path, and Supplies
The phrenic nerve is a crucial nerve that originates from the cervical spinal nerves C3, C4, and C5. It supplies the diaphragm and provides sensation to the central diaphragm and pericardium. The nerve passes with the internal jugular vein across scalenus anterior and deep to the prevertebral fascia of the deep cervical fascia.
The right phrenic nerve runs anterior to the first part of the subclavian artery in the superior mediastinum and laterally to the superior vena cava. In the middle mediastinum, it is located to the right of the pericardium and passes over the right atrium to exit the diaphragm at T8. On the other hand, the left phrenic nerve passes lateral to the left subclavian artery, aortic arch, and left ventricle. It passes anterior to the root of the lung and pierces the diaphragm alone.
Understanding the origin, path, and supplies of the phrenic nerve is essential in diagnosing and treating conditions that affect the diaphragm and pericardium.
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This question is part of the following fields:
- Respiratory System
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Question 30
Incorrect
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An 75-year-old woman presents to her GP with a 4-month history of dysphagia, weight loss, and a change in her voice tone. After a nasendoscopy, laryngeal carcinoma is confirmed. The surgical team plans her operation based on a head and neck CT scan. Which vertebrae are likely located posterior to the carcinoma?
Your Answer:
Correct Answer: C3-C6
Explanation:The larynx is situated in the front of the neck, specifically at the level of the C3-C6 vertebrae. It is positioned below the pharynx and contains the vocal cords that produce sound. The C1-C3 vertebrae are located much higher than the larynx, while the C2-C4 vertebrae cover the area from the oropharynx to the first part of the larynx. The C6-T1 vertebrae are situated behind the larynx and the upper portions of the trachea and esophagus.
Anatomy of the Larynx
The larynx is located in the front of the neck, between the third and sixth cervical vertebrae. It is made up of several cartilaginous segments, including the paired arytenoid, corniculate, and cuneiform cartilages, as well as the single thyroid, cricoid, and epiglottic cartilages. The cricoid cartilage forms a complete ring. The laryngeal cavity extends from the laryngeal inlet to the inferior border of the cricoid cartilage and is divided into three parts: the laryngeal vestibule, the laryngeal ventricle, and the infraglottic cavity.
The vocal folds, also known as the true vocal cords, control sound production. They consist of the vocal ligament and the vocalis muscle, which is the most medial part of the thyroarytenoid muscle. The glottis is composed of the vocal folds, processes, and rima glottidis, which is the narrowest potential site within the larynx.
The larynx is also home to several muscles, including the posterior cricoarytenoid, lateral cricoarytenoid, thyroarytenoid, transverse and oblique arytenoids, vocalis, and cricothyroid muscles. These muscles are responsible for various actions, such as abducting or adducting the vocal folds and relaxing or tensing the vocal ligament.
The larynx receives its arterial supply from the laryngeal arteries, which are branches of the superior and inferior thyroid arteries. Venous drainage is via the superior and inferior laryngeal veins. Lymphatic drainage varies depending on the location within the larynx, with the vocal cords having no lymphatic drainage and the supraglottic and subglottic parts draining into different lymph nodes.
Overall, understanding the anatomy of the larynx is important for proper diagnosis and treatment of various conditions affecting this structure.
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This question is part of the following fields:
- Respiratory System
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Question 31
Incorrect
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A 26-year-old man has been referred to ENT by his doctor as he has swallowed a small chicken bone that feels stuck in his throat. During laryngoscopy, a chicken bone is observed lodged in the piriform recess. Which of the following nerves is most likely to be affected by the chicken bone?
Your Answer:
Correct Answer: Internal laryngeal nerve
Explanation:When foreign objects get stuck in the piriform recess, particularly sharp items like bones from fish or chicken, they can harm the internal laryngeal nerve that lies beneath the mucous membrane in that area. Retrieving these objects also poses a risk of damaging the internal laryngeal nerve. However, the other nerves are not likely to be impacted.
Anatomy of the Larynx
The larynx is located in the front of the neck, between the third and sixth cervical vertebrae. It is made up of several cartilaginous segments, including the paired arytenoid, corniculate, and cuneiform cartilages, as well as the single thyroid, cricoid, and epiglottic cartilages. The cricoid cartilage forms a complete ring. The laryngeal cavity extends from the laryngeal inlet to the inferior border of the cricoid cartilage and is divided into three parts: the laryngeal vestibule, the laryngeal ventricle, and the infraglottic cavity.
The vocal folds, also known as the true vocal cords, control sound production. They consist of the vocal ligament and the vocalis muscle, which is the most medial part of the thyroarytenoid muscle. The glottis is composed of the vocal folds, processes, and rima glottidis, which is the narrowest potential site within the larynx.
The larynx is also home to several muscles, including the posterior cricoarytenoid, lateral cricoarytenoid, thyroarytenoid, transverse and oblique arytenoids, vocalis, and cricothyroid muscles. These muscles are responsible for various actions, such as abducting or adducting the vocal folds and relaxing or tensing the vocal ligament.
The larynx receives its arterial supply from the laryngeal arteries, which are branches of the superior and inferior thyroid arteries. Venous drainage is via the superior and inferior laryngeal veins. Lymphatic drainage varies depending on the location within the larynx, with the vocal cords having no lymphatic drainage and the supraglottic and subglottic parts draining into different lymph nodes.
Overall, understanding the anatomy of the larynx is important for proper diagnosis and treatment of various conditions affecting this structure.
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This question is part of the following fields:
- Respiratory System
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Question 32
Incorrect
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A 55-year-old woman comes to your clinic seeking help to quit smoking. She has been using nicotine patches for 6 months but has not been successful in her attempts. You decide to prescribe bupropion.
What is a typical side effect of bupropion?Your Answer:
Correct Answer: Gastrointestinal disturbance
Explanation:Side Effects of Buproprion
Buproprion is a medication that can cause aggression and hallucination in some patients. However, the more common side effects are gastrointestinal disturbances such as diarrhoea, nausea, and dry mouth. These side effects are often experienced by patients taking buproprion. It is important to be aware of the potential side effects of any medication and to speak with a healthcare provider if any concerns arise. Additional information on buproprion and its potential side effects can be found in the electronic Medicines Compendium and Medicines Complete.
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This question is part of the following fields:
- Respiratory System
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Question 33
Incorrect
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A 26-year-old male is brought to the emergency department by his mother. He is agitated, restless, and anxious.
Upon examination, dilated pupils are observed, and an ECG reveals sinus tachycardia.
The patient has a medical history of chronic asthma and is currently taking modified-release theophylline tablets.
According to his mother, he returned from a trip to Pakistan last night and has been taking antibiotics for bacterial gastroenteritis for the past four days. He has three days left on his antibiotic course.
What could be the cause of his current presentation?Your Answer:
Correct Answer: Ciprofloxacin
Explanation:Terbinafine is frequently prescribed for the treatment of fungal nail infections as an antifungal medication.
Theophylline and its Poisoning
Theophylline is a naturally occurring methylxanthine that is commonly used as a bronchodilator in the management of asthma and COPD. Its exact mechanism of action is still unknown, but it is believed to be a non-specific inhibitor of phosphodiesterase, resulting in an increase in cAMP. Other proposed mechanisms include antagonism of adenosine and prostaglandin inhibition.
However, theophylline poisoning can occur and is characterized by symptoms such as acidosis, hypokalemia, vomiting, tachycardia, arrhythmias, and seizures. In such cases, gastric lavage may be considered if the ingestion occurred less than an hour prior. Activated charcoal is also recommended, while whole-bowel irrigation can be performed if theophylline is in sustained-release form. Charcoal hemoperfusion is preferable to hemodialysis in managing theophylline poisoning.
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This question is part of the following fields:
- Respiratory System
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Question 34
Incorrect
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A 67-year-old man is admitted to the acute stroke unit following a haemorrhagic stroke. Three days after admission he complains of pain and swelling in the left calf. A Doppler ultrasound shows large DVT with extension into the upper leg. Given his recent stroke, anticoagulation is contraindicated, however, there is a significant risk of him developing a pulmonary embolus. The decision is made to insert an inferior vena cava (IVC) filter. The registrar inserting the filter is fairly junior, he plans to insert this just above the renal veins, however, asks the consultant if there are any landmarks he can use to guide him. The consultant advises him if he reaches the diaphragm he has gone too far!
At which vertebral level would the diaphragm be encountered when inserting an IVC filter?Your Answer:
Correct Answer: T8
Explanation:The point at which the inferior vena cava passes through the diaphragm is being asked in this question. The correct answer is T8, which is where the IVC crosses the diaphragm through the caval opening. The IVC is formed by the joining of the left and right common iliac veins at around L5.
In patients who are at high risk of pulmonary embolus and for whom anticoagulation is not effective or contraindicated, an IVC filter can be used. This filter is usually inserted above the renal veins, but it can be placed at any level, including the superior vena cava, if necessary.
The other options provided in the question, T6, T10, and T11, are not associated with any significant structures. The oesophagus passes through the diaphragm with the vagal trunk at T10.
Structures Perforating the Diaphragm
The diaphragm is a dome-shaped muscle that separates the thoracic and abdominal cavities. It plays a crucial role in breathing by contracting and relaxing to create negative pressure in the lungs. However, there are certain structures that perforate the diaphragm, allowing them to pass through from the thoracic to the abdominal cavity. These structures include the inferior vena cava at the level of T8, the esophagus and vagal trunk at T10, and the aorta, thoracic duct, and azygous vein at T12.
To remember these structures and their corresponding levels, a helpful mnemonic is I 8(ate) 10 EGGS AT 12. This means that the inferior vena cava is at T8, the esophagus and vagal trunk are at T10, and the aorta, thoracic duct, and azygous vein are at T12. Knowing these structures and their locations is important for medical professionals, as they may need to access or treat them during surgical procedures or diagnose issues related to them.
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This question is part of the following fields:
- Respiratory System
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Question 35
Incorrect
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A 9-month-old girl is brought to the emergency department by her mother due to difficulty in breathing. The mother reports that her daughter has been restless, with a runny nose, feeling warm and a dry cough for the past 4 days. However, the mother is now quite worried because her daughter has not eaten since last night and her breathing seems to have worsened throughout the morning.
During the examination, the infant has a respiratory rate of 70/min, heart rate of 155/min, oxygen saturation of 92% and a temperature of 37.9ºC. The infant shows signs of nasal flaring and subcostal recession while breathing. On auscultation, widespread wheezing is heard. The infant is admitted, treated with humidified oxygen via nasal cannula and discharged home after 2 days.
What is the probable causative agent of this infant's illness?Your Answer:
Correct Answer: Respiratory syncytial virus
Explanation:Bronchiolitis typically presents with symptoms such as coryza and increased breathing effort, leading to feeding difficulties in children under one year of age. The majority of cases of bronchiolitis are caused by respiratory syncytial virus, while adenovirus is a less frequent culprit. On the other hand, croup is most commonly caused by parainfluenza virus.
Understanding Bronchiolitis
Bronchiolitis is a condition that is characterized by inflammation of the bronchioles. It is a serious lower respiratory tract infection that is most common in children under the age of one year. The pathogen responsible for 75-80% of cases is respiratory syncytial virus (RSV), while other causes include mycoplasma and adenoviruses. Bronchiolitis is more serious in children with bronchopulmonary dysplasia, congenital heart disease, or cystic fibrosis.
The symptoms of bronchiolitis include coryzal symptoms, dry cough, increasing breathlessness, and wheezing. Fine inspiratory crackles may also be present. Children with bronchiolitis may experience feeding difficulties associated with increasing dyspnoea, which is often the reason for hospital admission.
Immediate referral to hospital is recommended if the child has apnoea, looks seriously unwell to a healthcare professional, has severe respiratory distress, central cyanosis, or persistent oxygen saturation of less than 92% when breathing air. Clinicians should consider referring to hospital if the child has a respiratory rate of over 60 breaths/minute, difficulty with breastfeeding or inadequate oral fluid intake, or clinical dehydration.
The investigation for bronchiolitis involves immunofluorescence of nasopharyngeal secretions, which may show RSV. Management of bronchiolitis is largely supportive, with humidified oxygen given via a head box if oxygen saturations are persistently < 92%. Nasogastric feeding may be needed if children cannot take enough fluid/feed by mouth, and suction is sometimes used for excessive upper airway secretions.
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This question is part of the following fields:
- Respiratory System
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Question 36
Incorrect
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A 48-year-old male presents for a preoperative evaluation for an inguinal hernia repair. During the assessment, you observe a loculated left pleural effusion on his chest x-ray. Upon further inquiry, the patient discloses that he worked as a builder three decades ago. What is the probable reason for the effusion?
Your Answer:
Correct Answer: Mesothelioma
Explanation:Due to his profession as a builder, this individual is at risk of being exposed to asbestos. Given the 30-year latent period and the presence of a complex effusion, it is highly probable that the underlying cause is mesothelioma.
Understanding Mesothelioma
Mesothelioma is a type of cancer that affects the mesothelial layer of the pleural cavity, which is commonly linked to asbestos exposure. Although it is rare, other mesothelial layers in the abdomen may also be affected. Symptoms of mesothelioma include dyspnoea, weight loss, chest wall pain, and clubbing. In some cases, patients may present with painless pleural effusion. It is important to note that only 20% of patients have pre-existing asbestosis, but 85-90% have a history of asbestos exposure, with a latent period of 30-40 years.
Diagnosis of mesothelioma is typically made through a chest x-ray, which may show pleural effusion or pleural thickening. A pleural CT is then performed to confirm the diagnosis. If a pleural effusion is present, fluid is sent for MC&S, biochemistry, and cytology. However, cytology is only helpful in 20-30% of cases. Local anaesthetic thoracoscopy is increasingly used to investigate cytology negative exudative effusions as it has a high diagnostic yield of around 95%. If an area of pleural nodularity is seen on CT, an image-guided pleural biopsy may be used.
Management of mesothelioma is mainly symptomatic, with industrial compensation available for those who have been exposed to asbestos. Chemotherapy and surgery may be options for those who are operable. Unfortunately, the prognosis for mesothelioma is poor, with a median survival of only 12 months.
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This question is part of the following fields:
- Respiratory System
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Question 37
Incorrect
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Which of the following paraneoplastic manifestations is the LEAST frequent in individuals diagnosed with squamous cell lung carcinoma?
Your Answer:
Correct Answer: Lambert-Eaton syndrome
Explanation:Small cell lung cancer is strongly associated with Lambert-Eaton syndrome, while squamous cell lung cancer is more commonly associated with paraneoplastic features such as PTHrp, clubbing, and HPOA.
Lung cancer can present with paraneoplastic features, which are symptoms caused by the cancer but not directly related to the tumor itself. Small cell lung cancer can cause the secretion of ADH and, less commonly, ACTH, which can lead to hypertension, hyperglycemia, hypokalemia, alkalosis, and muscle weakness. Lambert-Eaton syndrome is also associated with small cell lung cancer. Squamous cell lung cancer can cause the secretion of parathyroid hormone-related protein, leading to hypercalcemia, as well as clubbing and hypertrophic pulmonary osteoarthropathy. Adenocarcinoma can cause gynecomastia and hypertrophic pulmonary osteoarthropathy. Hypertrophic pulmonary osteoarthropathy is a painful condition involving the proliferation of periosteum in the long bones. Although traditionally associated with squamous cell carcinoma, some studies suggest that adenocarcinoma is the most common cause.
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This question is part of the following fields:
- Respiratory System
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Question 38
Incorrect
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A 70-year-old man presents with haemoptysis and undergoes a bronchoscopy. The carina is noted to be widened. Where does the trachea bifurcate?
Your Answer:
Correct Answer: T5
Explanation:The trachea divides into two branches at the fifth thoracic vertebrae, or sometimes the sixth in individuals who are tall.
Anatomy of the Trachea
The trachea, also known as the windpipe, is a tube-like structure that extends from the C6 vertebrae to the upper border of the T5 vertebrae where it bifurcates into the left and right bronchi. It is supplied by the inferior thyroid arteries and the thyroid venous plexus, and innervated by branches of the vagus, sympathetic, and recurrent nerves.
In the neck, the trachea is anterior to the isthmus of the thyroid gland, inferior thyroid veins, and anastomosing branches between the anterior jugular veins. It is also surrounded by the sternothyroid, sternohyoid, and cervical fascia. Posteriorly, it is related to the esophagus, while laterally, it is in close proximity to the common carotid arteries, right and left lobes of the thyroid gland, inferior thyroid arteries, and recurrent laryngeal nerves.
In the thorax, the trachea is anterior to the manubrium, the remains of the thymus, the aortic arch, left common carotid arteries, and the deep cardiac plexus. Laterally, it is related to the pleura and right vagus on the right side, and the left recurrent nerve, aortic arch, and left common carotid and subclavian arteries on the left side.
Overall, understanding the anatomy of the trachea is important for various medical procedures and interventions, such as intubation and tracheostomy.
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This question is part of the following fields:
- Respiratory System
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Question 39
Incorrect
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A 24-year-old man is admitted to the emergency department after a car accident. During the initial evaluation, he complains of difficulty breathing. A portable chest X-ray shows a 3 cm gap between the right lung margin and the chest wall, indicating a significant traumatic pneumothorax. The medical team administers high-flow oxygen and performs a right-sided chest drain insertion to drain the pneumothorax.
What is a potential negative outcome that could arise from the insertion of a chest drain?Your Answer:
Correct Answer: Winging of the scapula
Explanation:Insertion of a chest drain poses a risk of damaging the long thoracic nerve, which runs from the neck to the serratus anterior muscle. This can result in weakness or paralysis of the muscle, causing a winged scapula that is noticeable along the medial border of the scapula. It is important to use aseptic technique during the procedure to prevent hospital-acquired pleural infection. Chylothorax, pneumothorax, and pyothorax are all conditions that may require chest drain insertion, but they are not known complications of the procedure. Therefore, these options are not applicable.
Anatomy of Chest Drain Insertion
Chest drain insertion is necessary for various medical conditions such as trauma, haemothorax, pneumothorax, and pleural effusion. The size of the chest drain used depends on the specific condition being treated. While ultrasound guidance is an option, the anatomical method is typically tested in exams.
It is recommended that chest drains are placed in the safe triangle, which is located in the mid axillary line of the 5th intercostal space. This triangle is bordered by the anterior edge of the latissimus dorsi, the lateral border of pectoralis major, a line superior to the horizontal level of the nipple, and the apex below the axilla. Another triangle, known as the triangle of auscultation, is situated behind the scapula and is bounded by the trapezius, latissimus dorsi, and vertebral border of the scapula. By folding the arms across the chest and bending forward, parts of the sixth and seventh ribs and the interspace between them become subcutaneous and available for auscultation.
References:
– Prof Harold Ellis. The applied anatomy of chest drains insertions. British Journal of hospital medicine 2007; (68): 44-45.
– Laws D, Neville E, Duffy J. BTS guidelines for insertion of chest drains. Thorax, 2003; (58): 53-59. -
This question is part of the following fields:
- Respiratory System
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Question 40
Incorrect
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A 75-year-old man presents with a 2-month history of progressive shortness of breath and a recent episode of coughing up blood in the morning. He has also experienced significant weight loss of over 12 lbs and loss of appetite. Upon physical examination, conjunctival pallor is noted. The patient has a 30 pack year history of smoking. A chest x-ray reveals a mediastinal mass and ipsilateral elevation of the right diaphragm. What structure is being compressed by the mediastinal mass to explain these findings?
Your Answer:
Correct Answer: Phrenic nerve
Explanation:Lung cancer can cause the hemidiaphragm on the same side to rise due to pressure on the phrenic nerve. Haemoptysis is a common symptom of lung cancer, along with significant weight loss and a history of smoking. A chest x-ray can confirm the presence of a mediastinal mass, which is likely to be lung cancer.
A rapidly expanding lung mass can cause compression of surrounding structures, leading to complications. For example, an apical tumor can compress the brachial plexus, causing sensory symptoms in the arms or Erb’s or Klumpke’s palsies. Compression of the cervical sympathetic chain can cause Horner’s syndrome, which includes meiosis, anhidrosis, ptosis, and enophthalmos.
A mediastinal mass can also compress the recurrent laryngeal nerve as it winds around the aortic arch, resulting in hoarseness of voice or aphonia. Superior vena caval syndrome is a medical emergency that can cause swelling of the face, neck, upper chest, and arms, as well as the development of collaterals on the chest wall. Malignancy is the most common cause, but non-malignant causes can include an aortic aneurysm, fibrosing mediastinitis, or iatrogenic factors.
The Phrenic Nerve: Origin, Path, and Supplies
The phrenic nerve is a crucial nerve that originates from the cervical spinal nerves C3, C4, and C5. It supplies the diaphragm and provides sensation to the central diaphragm and pericardium. The nerve passes with the internal jugular vein across scalenus anterior and deep to the prevertebral fascia of the deep cervical fascia.
The right phrenic nerve runs anterior to the first part of the subclavian artery in the superior mediastinum and laterally to the superior vena cava. In the middle mediastinum, it is located to the right of the pericardium and passes over the right atrium to exit the diaphragm at T8. On the other hand, the left phrenic nerve passes lateral to the left subclavian artery, aortic arch, and left ventricle. It passes anterior to the root of the lung and pierces the diaphragm alone.
Understanding the origin, path, and supplies of the phrenic nerve is essential in diagnosing and treating conditions that affect the diaphragm and pericardium.
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This question is part of the following fields:
- Respiratory System
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