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  • Question 1 - Which of the following laryngeal tumors is unlikely to spread to the cervical...

    Incorrect

    • Which of the following laryngeal tumors is unlikely to spread to the cervical lymph nodes?

      Your Answer: Subglottic

      Correct Answer: Glottic

      Explanation:

      The area of the vocal cords lacks lymphatic drainage, making it a lymphatic boundary. The upper portion above the vocal cords drains to the deep cervical nodes through vessels that penetrate the thyrohyoid membrane. The lower portion below the vocal cords drains to the pre-laryngeal, pre-tracheal, and inferior deep cervical nodes. The aryepiglottic and vestibular folds have a significant lymphatic drainage and are prone to early metastasis.

      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.

    • This question is part of the following fields:

      • Respiratory System
      12
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  • Question 2 - A 25-year-old man with a history of asthma since childhood visited his doctor...

    Incorrect

    • 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: If the hiking involves areas of relatively high altitude the hemoglobin saturation of blood after flowing through body tissues will be higher

      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.

    • This question is part of the following fields:

      • Respiratory System
      70.2
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  • Question 3 - You are on call for the pediatric ward at night and are urgently...

    Correct

    • You are on call for the pediatric ward at night and are urgently called to a child who is choking on a piece of hot dog visible in their oropharynx. The child is in extremis with saturations of 87% and there is no effective cough.

      What is the most appropriate immediate management for this pediatric patient?

      Your Answer: Back blows

      Explanation:

      Resuscitation Council (UK) Recommendations for Choking Emergencies

      When faced with a choking emergency, the Resuscitation Council (UK) recommends a specific course of action. If the patient is able to cough effectively, encourage them to do so. If not, but they are conscious, try five back blows followed by five abdominal thrusts (Heimlich manoeuvre) and repeat if necessary. However, if the patient becomes unconscious, begin CPR immediately. It is important to note that a finger sweep is no longer recommended as it can push the obstruction further into the airway. Additionally, high flow oxygen is necessary for breathing, but nasopharyngeal airways will not help in this situation. Removal with forceps is also not recommended as it can be hazardous. If the Heimlich manoeuvre fails, a cricothyroidotomy should be considered. While this procedure is recommended in the US and UK, it is not encouraged in some countries like Australia due to the risk of internal injury from over-vigorous use.

    • This question is part of the following fields:

      • Respiratory System
      47.2
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  • Question 4 - A 25-year-old female patient visits your clinic complaining of hearing loss. According to...

    Incorrect

    • A 25-year-old female patient visits your clinic complaining of hearing loss. According to her, her hearing has been declining for about two years, with her left ear being worse than the right. She struggles to hear her partner when he is on her left side. Additionally, she has been experiencing tinnitus in her left ear for a year. She mentions that her mother also has hearing difficulties and uses hearing aids on both ears. During the examination, the Rinne test shows a negative result on the left and a positive result on the right. On the other hand, the Weber test indicates that the sound is louder on the left. What is the probable impairment?

      Your Answer: Can not tell which side is affected.

      Correct Answer: Conductive hearing loss on the left.

      Explanation:

      Based on the results of the Weber and Rinne tests, the patient in the question is likely experiencing conductive hearing loss on the left side. The Weber test revealed that the patient hears sound better on the left side, which could indicate a conductive hearing loss or sensorineural hearing loss on the right side. However, the Rinne test was negative on the left side, indicating a conductive hearing loss. This is further supported by the patient’s reported symptoms of hearing loss in the left ear. This presentation, along with a family history of hearing loss, suggests a possible diagnosis of otosclerosis, a condition that affects the stapes bone and can lead to severe or total hearing loss.

      Understanding the Different Causes of Deafness

      Deafness can be caused by various factors, with ear wax, otitis media, and otitis externa being the most common. However, there are other conditions that can lead to hearing loss, each with its own characteristic features. Presbycusis, for instance, is age-related sensorineural hearing loss that often makes it difficult for patients to follow conversations. Otosclerosis, on the other hand, is an autosomal dominant condition that replaces normal bone with vascular spongy bone, causing conductive deafness, tinnitus, and a flamingo tinge in the tympanic membrane. Glue ear, also known as otitis media with effusion, is the most common cause of conductive hearing loss in children, while Meniere’s disease is characterized by recurrent episodes of vertigo, tinnitus, and sensorineural hearing loss. Drug ototoxicity, noise damage, and acoustic neuroma are other factors that can lead to deafness.

      Understanding the different causes of deafness is crucial in diagnosing and treating the condition. By knowing the characteristic features of each condition, healthcare professionals can determine the appropriate interventions to help patients manage their hearing loss. It is also important for individuals to protect their hearing by avoiding exposure to loud noises and seeking medical attention when they experience any symptoms of hearing loss. With proper care and management, people with deafness can still lead fulfilling lives.

    • This question is part of the following fields:

      • Respiratory System
      7.2
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  • Question 5 - A 26-year-old woman comes to your clinic complaining of feeling dizzy for the...

    Incorrect

    • A 26-year-old woman comes to your clinic complaining of feeling dizzy for the past two days. She describes a sensation of the room spinning and has been experiencing nausea. The dizziness is relieved when she lies down and has no apparent triggers. She denies any hearing loss or aural fullness and is otherwise healthy. Upon examination, she has no fever and otoscopy reveals no abnormalities. You suspect she may have viral labyrinthitis and prescribe prochlorperazine to alleviate her vertigo symptoms. What class of antiemetic does prochlorperazine belong to?

      Your Answer: Antihistamine

      Correct Answer: Dopamine receptor antagonist

      Explanation:

      Prochlorperazine belongs to a class of drugs known as dopamine receptor antagonists, which work by inhibiting stimulation of the chemoreceptor trigger zone (CTZ) through D2 receptors. Other drugs in this class include domperidone, metoclopramide, and olanzapine.

      Antihistamine antiemetics, such as cyclizine and promethazine, are H1 histamine receptor antagonists.

      5-HT3 receptor antagonists, such as ondansetron and granisetron, are effective both centrally and peripherally. They work by blocking serotonin receptors in the central nervous system and gastrointestinal tract.

      Antimuscarinic antiemetics are anticholinergic drugs, with hyoscine (scopolamine) being a common example.

      Vertigo is a condition characterized by a false sensation of movement in the body or environment. There are various causes of vertigo, each with its own unique characteristics. Viral labyrinthitis, for example, is typically associated with a recent viral infection, sudden onset, nausea and vomiting, and possible hearing loss. Vestibular neuronitis, on the other hand, is characterized by recurrent vertigo attacks lasting hours or days, but with no hearing loss. Benign paroxysmal positional vertigo is triggered by changes in head position and lasts for only a few seconds. Meniere’s disease, meanwhile, is associated with hearing loss, tinnitus, and a feeling of fullness or pressure in the ears. Elderly patients with vertigo may be experiencing vertebrobasilar ischaemia, which is accompanied by dizziness upon neck extension. Acoustic neuroma, which is associated with hearing loss, vertigo, and tinnitus, is also a possible cause of vertigo. Other causes include posterior circulation stroke, trauma, multiple sclerosis, and ototoxicity from medications like gentamicin.

    • This question is part of the following fields:

      • Respiratory System
      9
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  • Question 6 - As the pregnancy progresses, at what stage does the foetus typically begin producing...

    Incorrect

    • As the pregnancy progresses, at what stage does the foetus typically begin producing surfactant?

      A mother has been informed that she will have to deliver her baby prematurely due to complications in the pregnancy. To decrease the chances of neonatal distress syndrome, doctors have administered steroids to stimulate surfactant production in the foetus. They clarify that the foetus is already generating its own surfactant, and these steroids will enhance the process.

      Your Answer: Week 30

      Correct Answer: Week 22

      Explanation:

      Lung development in humans begins at week 4 with the formation of the respiratory diverticulum. By week 10, the lungs start to grow as tertiary bronchial buds form. Terminal bronchioles begin to form around week 18. The saccular stage of lung development, which marks the earliest viability for a human fetus, occurs at around 22-24 weeks when type 2 alveolar cells start producing surfactant. By week 30, the primary alveoli form as the mesenchyme surrounding the lungs becomes highly vascular.

      The Importance of Pulmonary Surfactant in Breathing

      Pulmonary surfactant is a substance composed of phospholipids, carbohydrates, and proteins that is released by type 2 pneumocytes. Its main component, dipalmitoyl phosphatidylcholine (DPPC), plays a crucial role in reducing alveolar surface tension. This substance is first detectable around 28 weeks and increases in concentration as the alveoli decrease in size. This helps prevent the alveoli from collapsing and reduces the muscular force needed to expand the lungs, ultimately decreasing the work of breathing. Additionally, pulmonary surfactant lowers the elastic recoil at low lung volumes, preventing the alveoli from collapsing at the end of each expiration. Overall, pulmonary surfactant is essential in maintaining proper lung function and preventing respiratory distress.

    • This question is part of the following fields:

      • Respiratory System
      18.8
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  • Question 7 - A middle-aged woman who is obese comes in with complaints of polyuria. She...

    Correct

    • A middle-aged woman who is obese comes in with complaints of polyuria. She has a history of squamous cell lung carcinoma. What could be the possible reason for her polyuria?

      Your Answer: Hyperparathyroidism

      Explanation:

      Polyuria is caused by all the options listed above, except for syndrome of inappropriate ADH secretion. However, the patient’s age does not match the typical onset of type 1 diabetes, which usually occurs in young individuals. Furthermore, squamous cell lung carcinoma is commonly associated with a paraneoplastic syndrome that results in the release of excess parathyroid hormone by the tumor, leading to hypercalcemia and subsequent polyuria, along with other symptoms such as renal and biliary stones, bone pain, abdominal discomfort, nausea, vomiting, depression, and anxiety.

      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.

    • This question is part of the following fields:

      • Respiratory System
      15.6
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  • Question 8 - A 70-year-old man is admitted to the respiratory ward with an exacerbation of...

    Incorrect

    • A 70-year-old man is admitted to the respiratory ward with an exacerbation of COPD. He has been experiencing increased breathlessness and a productive cough for the past week. He is currently on day three of his rescue medication regimen consisting of amoxicillin and prednisolone. According to his previous discharge summary, this patient has a history of carbon dioxide retention. He is currently receiving controlled oxygen therapy via a 28% venturi mask. What is the target oxygen saturation level for this patient?

      Your Answer: 94%-98%

      Correct Answer: 88%-92%

      Explanation:

      As a junior doctor, you will often encounter patients who retain carbon dioxide and depend on their hypoxic drive to breathe. When using Venturi masks to deliver controlled oxygen, it is important to set a target that balances the patient’s need for oxygen with their reliance on hypoxia to stimulate breathing. Answer 4 is the correct choice in this scenario. Providing too much oxygen, as in answers 2 and 3, can cause the patient to lose their hypoxic drive and become drowsy or confused. Answer 5 does not provide enough oxygen to properly perfuse the tissues. Failing to set a target for these patients is not good clinical practice.

      Guidelines for Oxygen Therapy in Emergency Situations

      In 2017, the British Thoracic Society updated its guidelines for emergency oxygen therapy. The guidelines state that in critically ill patients, such as those experiencing anaphylaxis or shock, oxygen should be administered through a reservoir mask at a rate of 15 liters per minute. However, certain conditions, such as stable myocardial infarction, are excluded from this recommendation.

      The guidelines also provide specific oxygen saturation targets for different patient populations. Acutely ill patients should have a saturation level between 94-98%, while patients at risk of hypercapnia, such as those with COPD, should have a saturation level between 88-92%. Oxygen levels should be reduced in stable patients with satisfactory oxygen saturation.

      For COPD patients, a 28% Venturi mask at 4 liters per minute should be used prior to the availability of blood gases. The target oxygen saturation level for these patients should be 88-92% if they have risk factors for hypercapnia but no prior history of respiratory acidosis. If the patient’s pCO2 is normal, the target range should be adjusted to 94-98%.

      The guidelines also state that oxygen therapy should not be used routinely in certain situations where there is no evidence of hypoxia, such as in cases of myocardial infarction, acute coronary syndromes, stroke, obstetric emergencies, and anxiety-related hyperventilation.

      Overall, these guidelines provide important recommendations for the appropriate use of oxygen therapy in emergency situations, taking into account the specific needs of different patient populations.

    • This question is part of the following fields:

      • Respiratory System
      22.3
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  • Question 9 - A 65-year-old woman comes to the COPD clinic complaining of increasing breathlessness over...

    Incorrect

    • A 65-year-old woman comes to the COPD clinic complaining of increasing breathlessness over the past 3 months. She is currently receiving long-term oxygen therapy at home.

      During the examination, the patient's face appears plethoric, but there is no evidence of dyspnea at rest.

      The patient's FEV1/FVC ratio remains unchanged at 0.4, and her peak flow is 50% of the predicted value. However, her transfer factor is unexpectedly elevated.

      What could be the possible cause of this unexpected finding?

      Your Answer: Exacerbation of COPD

      Correct Answer: Polycythaemia

      Explanation:

      The transfer factor is typically low in most conditions that impair alveolar diffusion, except for polycythaemia, asthma, haemorrhage, and left-to-right shunts, which can cause an increased transfer of carbon monoxide. In this case, the patient’s plethoric facies suggest polycythaemia as the cause of their increased transfer factor. It’s important to note that exacerbations of COPD, pneumonia, and pulmonary fibrosis typically result in a low transfer factor, not an increased one.

      Understanding Transfer Factor in Lung Function Testing

      The transfer factor is a measure of how quickly a gas diffuses from the alveoli into the bloodstream. This is typically tested using carbon monoxide, and the results can be given as either the total gas transfer (TLCO) or the transfer coefficient corrected for lung volume (KCO). A raised TLCO may be caused by conditions such as asthma, pulmonary haemorrhage, left-to-right cardiac shunts, polycythaemia, hyperkinetic states, male gender, or exercise. On the other hand, a lower TLCO may be indicative of pulmonary fibrosis, pneumonia, pulmonary emboli, pulmonary oedema, emphysema, anaemia, or low cardiac output.

      KCO tends to increase with age, and certain conditions may cause an increased KCO with a normal or reduced TLCO. These conditions include pneumonectomy/lobectomy, scoliosis/kyphosis, neuromuscular weakness, and ankylosis of costovertebral joints (such as in ankylosing spondylitis). Understanding transfer factor is important in lung function testing, as it can provide valuable information about a patient’s respiratory health and help guide treatment decisions.

    • This question is part of the following fields:

      • Respiratory System
      25.6
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  • Question 10 - A 56-year-old woman comes to the clinic complaining of a persistent cough and...

    Correct

    • A 56-year-old woman comes to the clinic complaining of a persistent cough and increased production of sputum over the past year. She also reports feeling fatigued and experiencing shortness of breath. The patient mentions having had four chest infections in the last 12 months, all of which were treated with antibiotics. She has no personal or family history of lung issues and has never smoked.

      The healthcare provider suspects that bronchiectasis may be the underlying cause of her symptoms and orders appropriate tests.

      Which test is most likely to provide a definitive diagnosis?

      Your Answer: High-resolution computerised tomography

      Explanation:

      Bronchiectasis can be diagnosed through various methods, including chest radiography, histopathology, and pulmonary function tests.

      Chest radiography can reveal thickened bronchial walls, cystic lesions with fluid levels, collapsed areas with crowded pulmonary vasculature, and scarring, which are characteristic features of bronchiectasis.

      Histopathology, which is a more invasive investigation often done through autopsy or surgery, can show irreversible dilation of bronchial airways and bronchial wall thickening.

      However, high-resolution computerised tomography is a more favorable imaging technique as it is less invasive than histopathology.

      Pulmonary function tests are commonly used to diagnose bronchiectasis, but they should be used in conjunction with other investigations as they are not sensitive or specific enough to provide sufficient diagnostic evidence on their own. An obstructive pattern is the most common pattern encountered, but a restrictive pattern is also possible.

      Understanding the Causes of Bronchiectasis

      Bronchiectasis is a condition characterized by the permanent dilation of the airways due to chronic inflammation or infection. There are various factors that can lead to this condition, including post-infective causes such as tuberculosis, measles, pertussis, and pneumonia. Cystic fibrosis, bronchial obstruction caused by lung cancer or foreign bodies, and immune deficiencies like selective IgA and hypogammaglobulinaemia can also contribute to bronchiectasis. Additionally, allergic bronchopulmonary aspergillosis (ABPA), ciliary dyskinetic syndromes like Kartagener’s syndrome and Young’s syndrome, and yellow nail syndrome are other potential causes. Understanding the underlying causes of bronchiectasis is crucial in developing effective treatment plans for patients.

    • This question is part of the following fields:

      • Respiratory System
      41.5
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  • Question 11 - A 50-year-old man suffers a closed head injury and experiences a decline in...

    Incorrect

    • A 50-year-old man suffers a closed head injury and experiences a decline in consciousness upon arrival at the hospital. To monitor his intracranial pressure, an ICP monitor is inserted. What is the normal range for intracranial pressure?

      Your Answer: 25 - 30 mm Hg

      Correct Answer: 7 - 15mm Hg

      Explanation:

      The typical range for intracranial pressure is 7 to 15 mm Hg, with the brain able to tolerate increases up to 24 mm Hg before displaying noticeable clinical symptoms.

      Understanding the Monro-Kelly Doctrine and Autoregulation in the CNS

      The Monro-Kelly doctrine governs the pressure within the cranium by considering the skull as a closed box. The loss of cerebrospinal fluid (CSF) can accommodate increases in mass until a critical point is reached, usually at 100-120ml of CSF lost. Beyond this point, intracranial pressure (ICP) rises sharply, and pressure will eventually equate with mean arterial pressure (MAP), leading to neuronal death and herniation.

      The central nervous system (CNS) has the ability to autoregulate its own blood supply through vasoconstriction and dilation of cerebral blood vessels. However, extreme blood pressure levels can exceed this capacity, increasing the risk of stroke. Additionally, metabolic factors such as hypercapnia can cause vasodilation, which is crucial in ventilating head-injured patients.

      It is important to note that the brain can only metabolize glucose, and a decrease in glucose levels can lead to impaired consciousness. Understanding the Monro-Kelly doctrine and autoregulation in the CNS is crucial in managing intracranial pressure and preventing neurological damage.

    • This question is part of the following fields:

      • Respiratory System
      22.3
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  • Question 12 - A 55-year-old man visits his GP complaining of shortness of breath, haemoptysis, and...

    Incorrect

    • A 55-year-old man visits his GP complaining of shortness of breath, haemoptysis, and unintentional weight loss over the past 3 months. The GP refers him to the respiratory clinic for suspected lung cancer, and further investigations reveal a stage 2 squamous cell carcinoma of the lung. What is the most frequently associated paraneoplastic phenomenon with this type of cancer?

      Your Answer: Acanthosis nigricans

      Correct Answer: Parathyroid hormone-related protein (PTHrP)

      Explanation:

      The correct answer is PTHrP, which is a paraneoplastic syndrome often associated with squamous cell lung cancer. PTHrP is a protein that functions similarly to parathyroid hormone and can cause hypercalcaemia when secreted by cancer cells.

      Acanthosis nigricans is another paraneoplastic phenomenon that is commonly associated with gastric adenocarcinoma. This condition causes hyperpigmentation of skin folds, such as the armpits.

      The syndrome of inappropriate ADH secretion is often linked to small cell lung cancer. This condition involves the hypersecretion of ADH, which leads to dilutional hyponatraemia and its associated symptoms.

      Carcinoid syndrome is a paraneoplastic syndrome that is typically associated with neuroendocrine tumours that have metastasised to the liver. This condition causes hypersecretion of serotonin and other substances, resulting in facial flushing, palpitations, and gastrointestinal upset.

      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.

    • This question is part of the following fields:

      • Respiratory System
      6.3
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  • Question 13 - A 53-year-old man arrives at the Emergency Department with jaundice and a distended...

    Incorrect

    • A 53-year-old man arrives at the Emergency Department with jaundice and a distended abdomen. He has a history of alcoholism and has been hospitalized before for acute alcohol withdrawal. During the examination, you observe spider naevi on his upper chest wall and detect a shifting dullness on abdominal percussion, indicating ascites. Further imaging and investigation reveal portal vein hypertension and cirrhosis.

      Where does this vessel start?

      Your Answer: L3

      Correct Answer: L1

      Explanation:

      Portal hypertension is commonly caused by liver cirrhosis, often due to alcohol abuse. The causes of this condition can be categorized as pre-hepatic, hepatic, or post-hepatic, depending on the location of the underlying pathology. The primary factors contributing to portal hypertension are increased vascular resistance in the portal venous system and elevated blood flow in the portal veins. The portal vein originates at the transpyloric plane, which is situated at the level of the body of L1. Other significant structures found at this location include the neck of the pancreas, the spleen, the duodenojejunal flexure, and the superior mesenteric artery.

      The Transpyloric Plane and its Anatomical Landmarks

      The transpyloric plane is an imaginary horizontal line that passes through the body of the first lumbar vertebrae (L1) and the pylorus of the stomach. It is an important anatomical landmark used in clinical practice to locate various organs and structures in the abdomen.

      Some of the structures that lie on the transpyloric plane include the left and right kidney hilum (with the left one being at the same level as L1), the fundus of the gallbladder, the neck of the pancreas, the duodenojejunal flexure, the superior mesenteric artery, and the portal vein. The left and right colic flexure, the root of the transverse mesocolon, and the second part of the duodenum also lie on this plane.

      In addition, the upper part of the conus medullaris (the tapered end of the spinal cord) and the spleen are also located on the transpyloric plane. Knowing the location of these structures is important for various medical procedures, such as abdominal surgeries and diagnostic imaging.

      Overall, the transpyloric plane serves as a useful reference point for clinicians to locate important anatomical structures in the abdomen.

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      • Respiratory System
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  • Question 14 - A 28-year-old man is found on his bathroom floor next to needles and...

    Incorrect

    • A 28-year-old man is found on his bathroom floor next to needles and syringes and is brought into the hospital. He has a Glasgow coma score of 10 and a bedside oxygen saturation of 88%. On physical examination, he has pinpoint pupils and needle track marks on his left arm. His arterial blood gases are as follows: PaO2 7.4 kPa (11.3-12.6), PaCO2 9.6 kPa (4.7-6.0), pH 7.32 (7.36-7.44), and HCO3 25 mmol/L (20-28). What do these results indicate?

      Your Answer: Acute type I respiratory failure

      Correct Answer: Acute type II respiratory failure

      Explanation:

      Opiate Overdose

      Opiate overdose is a common occurrence that can lead to slowed breathing, inadequate oxygen saturation, and CO2 retention. This classic picture of opiate overdose can be reversed with the use of naloxone. The condition is often caused by the use of illicit drugs and can have serious consequences if left untreated.

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      • Respiratory System
      47.6
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  • Question 15 - An 85-year-old woman visits her doctor with a complaint of worsening breathlessness in...

    Incorrect

    • An 85-year-old woman visits her doctor with a complaint of worsening breathlessness in the past 6 months. She has been smoking 10 cigarettes a day for the last 40 years. The doctor suspects that she may have chronic obstructive pulmonary disease. What is one of the mechanisms by which smoking damages the lungs and leads to emphysema?

      Your Answer: Basal cell metaplasia

      Correct Answer: Inactivation of alpha-1 antitrypsin

      Explanation:

      The function of alpha-1 antitrypsin is to inhibit elastase. However, smoke has a negative impact on this protein in the lungs, resulting in increased activity of elastases and the breakdown of elastic tissue, which leads to emphysema.

      Contrary to popular belief, smoke actually activates polymorphonuclear leucocytes, which contributes to the development of emphysema.

      Mucous gland hyperplasia, basal cell metaplasia, and basement membrane thickening are all examples of how smoke affects the lungs to cause chronic bronchitis, not emphysema.

      COPD, or chronic obstructive pulmonary disease, can be caused by a variety of factors. The most common cause is smoking, which can lead to inflammation and damage in the lungs over time. Another potential cause is alpha-1 antitrypsin deficiency, a genetic condition that can result in lung damage. Additionally, exposure to certain substances such as cadmium (used in smelting), coal, cotton, cement, and grain can also contribute to the development of COPD. It is important to identify and address these underlying causes in order to effectively manage and treat COPD.

    • This question is part of the following fields:

      • Respiratory System
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  • Question 16 - What causes a cervical rib? ...

    Correct

    • What causes a cervical rib?

      Your Answer: Elongation of the transverse processes of the 7th cervical vertebrae

      Explanation:

      Cervical ribs are formed when the transverse process of the 7th cervical vertebrae becomes elongated, resulting in a fibrous band that connects to the first thoracic rib.

      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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      • Respiratory System
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  • Question 17 - A 44-year-old woman is scheduled for a thyroidectomy due to symptomatic tracheal compression....

    Incorrect

    • A 44-year-old woman is scheduled for a thyroidectomy due to symptomatic tracheal compression. She has a history of hyperthyroidism that was controlled with carbimazole. However, she was deemed a suitable candidate for thyroidectomy after presenting to the emergency department with dyspnoea and stridor.

      As a surgical resident assisting the ENT surgeon, you need to ligate the superior thyroid artery before removing the thyroid glands to prevent excessive bleeding. However, the superior laryngeal artery, a branch of the superior thyroid artery, is closely related to a structure that, if injured, can lead to loss of sensation in the laryngeal mucosa.

      What is the correct identification of this structure?

      Your Answer:

      Correct Answer: Internal laryngeal nerve

      Explanation:

      The internal laryngeal nerve and the superior laryngeal artery are closely associated with each other. The superior laryngeal artery travels alongside the internal laryngeal branch of the superior laryngeal nerve, beneath the thyrohyoid muscle. It originates from the superior thyroid artery near its separation from the external carotid artery.

      If the internal laryngeal nerve is damaged, it can result in a loss of sensation to the laryngeal mucosa. The nerve is situated beneath the mucous membrane of the piriform recess, making it vulnerable to injury from sharp objects like fish and chicken bones that may become stuck in the recess.

      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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      • Respiratory System
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  • Question 18 - A 9-month-old infant comes to your clinic with her mother who is concerned...

    Incorrect

    • A 9-month-old infant comes to your clinic with her mother who is concerned about her irritability, lack of appetite, and unusual behavior. The baby has been crying excessively and having trouble sleeping. The mother also noticed her pulling at her right ear. Upon examination, the baby appears tired but not sick and has no fever. During otoscopy, you observe erythema in the external auditory canal, but the tympanic membrane looks normal. Can you identify the correct order of the ossicles from lateral to medial as sound is transmitted?

      Your Answer:

      Correct Answer: Malleus, incus, stapes.

      Explanation:

      The correct order of the three middle ear bones is malleus, incus, and stapes, with the malleus being the most lateral and attaching to the tympanic membrane. The incus lies between the other two bones and articulates with both the malleus and stapes, while the stapes is the most medial and has a stirrup-like shape, connecting to the oval window of the cochlea. When a young child presents with ear pain, it may not be obvious, so it is important to use an otoscope to examine the ears. In this case, the otoscopy showed redness in the external auditory canal, indicating otitis externa.

      Anatomy of the Ear

      The ear is divided into three distinct regions: the external ear, middle ear, and internal ear. The external ear consists of the auricle and external auditory meatus, which are innervated by the greater auricular nerve and auriculotemporal branch of the trigeminal nerve. The middle ear is the space between the tympanic membrane and cochlea, and is connected to the nasopharynx by the eustachian tube. The tympanic membrane is composed of three layers and is approximately 1 cm in diameter. The middle ear is innervated by the glossopharyngeal nerve. The ossicles, consisting of the malleus, incus, and stapes, transmit sound vibrations from the tympanic membrane to the inner ear. The internal ear contains the cochlea, which houses the organ of corti, the sense organ of hearing. The vestibule accommodates the utricule and saccule, which contain endolymph and are surrounded by perilymph. The semicircular canals, which share a common opening into the vestibule, lie at various angles to the petrous temporal bone.

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      • Respiratory System
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  • Question 19 - During a schoolyard brawl a boy is hit in the chest. The stick...

    Incorrect

    • During a schoolyard brawl a boy is hit in the chest. The stick passes through the posterior mediastinum (from left to right). Which one of the following structures is least likely to be injured?

      Your Answer:

      Correct Answer: Arch of the azygos vein

      Explanation:

      The azygos vein’s arch is located within the middle mediastinum.

      The mediastinum is the area located between the two pulmonary cavities and is covered by the mediastinal pleura. It extends from the thoracic inlet at the top to the diaphragm at the bottom. The mediastinum is divided into four regions: the superior mediastinum, middle mediastinum, posterior mediastinum, and anterior mediastinum.

      The superior mediastinum is the area between the manubriosternal angle and T4/5. It contains important structures such as the superior vena cava, brachiocephalic veins, arch of aorta, thoracic duct, trachea, oesophagus, thymus, vagus nerve, left recurrent laryngeal nerve, and phrenic nerve. The anterior mediastinum contains thymic remnants, lymph nodes, and fat. The middle mediastinum contains the pericardium, heart, aortic root, arch of azygos vein, and main bronchi. The posterior mediastinum contains the oesophagus, thoracic aorta, azygos vein, thoracic duct, vagus nerve, sympathetic nerve trunks, and splanchnic nerves.

      In summary, the mediastinum is a crucial area in the thorax that contains many important structures and is divided into four regions. Each region contains different structures that are essential for the proper functioning of the body.

    • This question is part of the following fields:

      • Respiratory System
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  • Question 20 - Which of the structures listed below are not located within the mediastinum? ...

    Incorrect

    • Which of the structures listed below are not located within the mediastinum?

      Your Answer:

      Correct Answer: Vertebral bodies

      Explanation:

      Both the lungs and vertebral bodies are located outside of the mediastinum.

      The mediastinum is the area located between the two pulmonary cavities and is covered by the mediastinal pleura. It extends from the thoracic inlet at the top to the diaphragm at the bottom. The mediastinum is divided into four regions: the superior mediastinum, middle mediastinum, posterior mediastinum, and anterior mediastinum.

      The superior mediastinum is the area between the manubriosternal angle and T4/5. It contains important structures such as the superior vena cava, brachiocephalic veins, arch of aorta, thoracic duct, trachea, oesophagus, thymus, vagus nerve, left recurrent laryngeal nerve, and phrenic nerve. The anterior mediastinum contains thymic remnants, lymph nodes, and fat. The middle mediastinum contains the pericardium, heart, aortic root, arch of azygos vein, and main bronchi. The posterior mediastinum contains the oesophagus, thoracic aorta, azygos vein, thoracic duct, vagus nerve, sympathetic nerve trunks, and splanchnic nerves.

      In summary, the mediastinum is a crucial area in the thorax that contains many important structures and is divided into four regions. Each region contains different structures that are essential for the proper functioning of the body.

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      • Respiratory System
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  • Question 21 - A 65-year-old male with a diagnosis of lung cancer presents with fatigue and...

    Incorrect

    • A 65-year-old male with a diagnosis of lung cancer presents with fatigue and lightheadedness. Upon examination, the following results are obtained:

      Plasma sodium concentration 115 mmol/L (137-144)
      Potassium 3.5 mmol/L (3.5-4.9)
      Urea 3.2 mmol/L (2.5-7.5)
      Creatinine 67 µmol/L (60-110)

      What is the probable reason for his symptoms based on these findings?

      Your Answer:

      Correct Answer: Syndrome of inappropriate ADH secretion

      Explanation:

      Syndrome of Inappropriate ADH Secretion

      Syndrome of inappropriate ADH secretion (SIADH) is a condition characterized by low levels of sodium in the blood. This is caused by the overproduction of antidiuretic hormone (ADH) by the posterior pituitary gland. Tumors such as bronchial carcinoma can cause the ectopic elaboration of ADH, leading to dilutional hyponatremia. The diagnosis of SIADH is one of exclusion, but it can be supported by a high urine sodium concentration with high urine osmolality.

      Hypoadrenalism is less likely to cause hyponatremia, as it is usually associated with hyperkalemia and mild hyperuricemia. On the other hand, diabetes insipidus is a condition where the kidneys are unable to reabsorb water, leading to excessive thirst and urination.

      It is important to diagnose and treat SIADH promptly to prevent complications such as seizures, coma, and even death. Treatment options include fluid restriction, medications to block the effects of ADH, and addressing the underlying cause of the condition.

      In conclusion, SIADH is a condition that can cause low levels of sodium in the blood due to the overproduction of ADH. It is important to differentiate it from other conditions that can cause hyponatremia and to treat it promptly to prevent complications.

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  • Question 22 - A 10-year-old boy comes to the clinic with his mother. He complained of...

    Incorrect

    • A 10-year-old boy comes to the clinic with his mother. He complained of ear pain during the night, but there is no discharge, hearing loss, or other symptoms. Upon examination, he has no fever. The pinna of his ear appears red and swollen, and pressing on the tragus causes pain. Otoscopy reveals a healthy tympanic membrane, but the external auditory canal is inflamed. The external auditory canal consists of a cartilaginous outer part and a bony inner part. Which bone does the bony external canal pass through?

      Your Answer:

      Correct Answer: Temporal bone

      Explanation:

      The temporal bone is the correct answer. It contains the bony external auditory canal and middle ear, which are composed of a cartilaginous outer third and a bony inner two-thirds. The temporal bone articulates with the parietal, occipital, sphenoid, zygomatic, and mandible bones.

      The sphenoid bone is a complex bone that articulates with 12 other bones. It is divided into four parts: the body, greater wings, lesser wings, and pterygoid plates.

      The zygomatic bone is located on the anterior and lateral aspects of the face and articulates with the frontal, sphenoid, temporal, and maxilla bones.

      The parietal bone forms the sides and roof of the cranium and articulates with the parietal on the opposite side, as well as the frontal, temporal, occipital, and sphenoid bones.

      The occipital bone is situated at the rear of the cranium and articulates with the temporal, sphenoid, parietals, and the first cervical vertebrae.

      The patient’s symptoms of ear pain, erythematous pinna and external auditory canal, and tender tragus on palpation are consistent with otitis externa, which has numerous possible causes. The patient is not febrile and has no loss of hearing or dizziness.

      Anatomy of the Ear

      The ear is divided into three distinct regions: the external ear, middle ear, and internal ear. The external ear consists of the auricle and external auditory meatus, which are innervated by the greater auricular nerve and auriculotemporal branch of the trigeminal nerve. The middle ear is the space between the tympanic membrane and cochlea, and is connected to the nasopharynx by the eustachian tube. The tympanic membrane is composed of three layers and is approximately 1 cm in diameter. The middle ear is innervated by the glossopharyngeal nerve. The ossicles, consisting of the malleus, incus, and stapes, transmit sound vibrations from the tympanic membrane to the inner ear. The internal ear contains the cochlea, which houses the organ of corti, the sense organ of hearing. The vestibule accommodates the utricule and saccule, which contain endolymph and are surrounded by perilymph. The semicircular canals, which share a common opening into the vestibule, lie at various angles to the petrous temporal bone.

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  • Question 23 - An 83-year-old man is on the stroke ward after suffering a total anterior...

    Incorrect

    • An 83-year-old man is on the stroke ward after suffering a total anterior circulation stroke of the left hemisphere. He is receiving assistance from the physiotherapists to mobilize, but the speech and language team has determined that he has an unsafe swallow. On the 6th day of his hospital stay, he begins to feel unwell.

      Upon examination, his temperature is 38.4ºC, heart rate of 112/min, respiratory rate of 18, and his blood pressure is 100/76 mmHg. Aspiration pneumonia is suspected. Which area of the body is most likely affected?

      Your Answer:

      Correct Answer: Right middle lobe

      Explanation:

      Aspiration pneumonia is a common occurrence in stroke patients during the recovery phase, with a higher likelihood of affecting the right lung due to the steeper course of the right bronchus. This type of pneumonia is often caused by unsafe swallowing and can lead to prolonged hospital stays and increased mortality rates. The right middle and lower lobes are the most susceptible to aspirated gastric contents, while the right upper lobe is less likely due to gravity. It’s important to consider aspiration pneumonia as a differential diagnosis when assessing stroke patients, especially those with severe pathology.

      Aspiration pneumonia is a type of pneumonia that occurs when foreign substances, such as food or saliva, enter the bronchial tree. This can lead to inflammation and a chemical pneumonitis, as well as the introduction of bacterial pathogens. The condition is often caused by an impaired swallowing mechanism, which can be a result of neurological disease or injury, intoxication, or medical procedures such as intubation. Risk factors for aspiration pneumonia include poor dental hygiene, swallowing difficulties, prolonged hospitalization or surgery, impaired consciousness, and impaired mucociliary clearance. The right middle and lower lung lobes are typically the most affected areas. The bacteria involved in aspiration pneumonia can be aerobic or anaerobic, with examples including Streptococcus pneumoniae, Staphylococcus aureus, Haemophilus influenzae, Pseudomonas aeruginosa, Klebsiella, Bacteroides, Prevotella, Fusobacterium, and Peptostreptococcus.

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      • Respiratory System
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  • Question 24 - Which one of the following is associated with increased lung compliance in elderly...

    Incorrect

    • Which one of the following is associated with increased lung compliance in elderly individuals?

      Your Answer:

      Correct Answer: Emphysema

      Explanation:

      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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  • Question 25 - A 65-year-old man is undergoing an upper GI endoscopy due to difficulty swallowing....

    Incorrect

    • A 65-year-old man is undergoing an upper GI endoscopy due to difficulty swallowing. During the procedure, a suspicious-looking blockage is found at 33 cm from the incisors. The endoscopist tries to widen the area with a balloon, but the tumor causes a rupture in the oesophageal wall. Where will the contents of the oesophagus now drain?

      Your Answer:

      Correct Answer: Posterior mediastinum

      Explanation:

      The oesophagus is expected to remain within the thoracic cavity and situated in the posterior mediastinum at this point.

      The mediastinum is the area located between the two pulmonary cavities and is covered by the mediastinal pleura. It extends from the thoracic inlet at the top to the diaphragm at the bottom. The mediastinum is divided into four regions: the superior mediastinum, middle mediastinum, posterior mediastinum, and anterior mediastinum.

      The superior mediastinum is the area between the manubriosternal angle and T4/5. It contains important structures such as the superior vena cava, brachiocephalic veins, arch of aorta, thoracic duct, trachea, oesophagus, thymus, vagus nerve, left recurrent laryngeal nerve, and phrenic nerve. The anterior mediastinum contains thymic remnants, lymph nodes, and fat. The middle mediastinum contains the pericardium, heart, aortic root, arch of azygos vein, and main bronchi. The posterior mediastinum contains the oesophagus, thoracic aorta, azygos vein, thoracic duct, vagus nerve, sympathetic nerve trunks, and splanchnic nerves.

      In summary, the mediastinum is a crucial area in the thorax that contains many important structures and is divided into four regions. Each region contains different structures that are essential for the proper functioning of the body.

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      • Respiratory System
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  • Question 26 - A 59-year-old woman visits the respiratory clinic for spirometry testing. As part of...

    Incorrect

    • 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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  • Question 27 - A 20-year-old male arrives at the emergency department with a sudden worsening of...

    Incorrect

    • A 20-year-old male arrives at the emergency department with a sudden worsening of his asthma symptoms. He is experiencing difficulty in speaking and breathing, with cyanosis of the lips and a respiratory rate of 33 breaths per minute. He reports feeling lightheaded. Although his airways are open, his chest sounds are faint upon auscultation. The patient is administered oxygen, nebulized salbutamol, and intravenous aminophylline.

      What is the mechanism of action of aminophylline?

      Your Answer:

      Correct Answer: Binds to adenosine receptors and blocks adenosine-mediated bronchoconstriction

      Explanation:

      Aminophylline works by binding to adenosine receptors and preventing adenosine-induced bronchoconstriction. This mode of action is different from antihistamines like loratadine, which is an incorrect option. Theophylline, a shorter acting form of aminophylline, competitively inhibits type III and type IV phosphodiesterase enzymes responsible for breaking down cyclic AMP in smooth muscle cells, leading to possible bronchodilation. Additionally, theophylline binds to the adenosine A2B receptor and blocks adenosine-mediated bronchoconstriction. In inflammatory conditions, theophylline activates histone deacetylase, which prevents the transcription of inflammatory genes that require histone acetylation for transcription to begin. Therefore, the last three options are incorrect. (Source: Drugbank)

      Aminophylline infusions are utilized to manage acute asthma and COPD. In patients who have not received xanthines (theophylline or aminophylline) before, a loading dose of 5 mg/kg is administered through a slow intravenous injection lasting at least 20 minutes. For the maintenance infusion, 1g of aminophylline is mixed with 1 litre of normal saline to create a solution of 1 mg/ml. The recommended dose is 500-700 mcg/kg/hour, or 300 mcg/kg/hour for elderly patients. It is important to monitor plasma theophylline concentrations.

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  • Question 28 - A 25-year-old patient is undergoing routine pulmonary function testing to assess her chronic...

    Incorrect

    • A 25-year-old patient is undergoing routine pulmonary function testing to assess her chronic condition. The results are compared to a standardised predicted value and presented in the table below:

      FEV1 75% of predicted
      FVC 70% of predicted
      FEV1/FVC 105%

      What is the probable condition that this patient is suffering from, which can account for the above findings?

      Your Answer:

      Correct Answer: Neuromuscular disorder

      Explanation:

      The patient’s pulmonary function tests indicate a restrictive pattern, as both FEV1 and FVC are reduced. This suggests a possible neuromuscular disorder, as all other options would result in an obstructive pattern on the tests. Asthma, bronchiectasis, and COPD are unlikely diagnoses for a 20-year-old and would not match the test results. Pneumonia may affect the patient’s ability to perform the tests, but it is typically an acute condition that requires immediate treatment with antibiotics.

      Understanding Pulmonary Function Tests

      Pulmonary function tests are a useful tool in determining whether a respiratory disease is obstructive or restrictive. These tests measure various aspects of lung function, such as forced expiratory volume in one second (FEV1) and forced vital capacity (FVC). By analyzing the results of these tests, doctors can diagnose and monitor conditions such as asthma, COPD, pulmonary fibrosis, and neuromuscular disorders.

      In obstructive lung diseases, such as asthma and COPD, the FEV1 is significantly reduced, while the FVC may be reduced or normal. The FEV1% (FEV1/FVC) is also reduced. On the other hand, in restrictive lung diseases, such as pulmonary fibrosis and asbestosis, the FEV1 is reduced, but the FVC is significantly reduced. The FEV1% (FEV1/FVC) may be normal or increased.

      It is important to note that there are many conditions that can affect lung function, and pulmonary function tests are just one tool in diagnosing and managing respiratory diseases. However, understanding the results of these tests can provide valuable information for both patients and healthcare providers.

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  • Question 29 - A 25-year-old man comes to the doctor complaining of frequent urination, unquenchable thirst,...

    Incorrect

    • A 25-year-old man comes to the doctor complaining of frequent urination, unquenchable thirst, and recent weight loss of around 5 kilograms in the last 2 months. The patient reports feeling extremely tired, although he acknowledges that work has been stressful lately, and his eating habits have been poor. The patient has a medical history of cystic fibrosis, with a Pseudomonas aeruginosa flare-up last year that required a brief hospital stay.

      What could be the probable reason for this patient's clinical presentation?

      Your Answer:

      Correct Answer: Diabetes mellitus

      Explanation:

      Cystic fibrosis can lead to the development of a unique type of diabetes mellitus known as cystic fibrosis-related diabetes mellitus. This is caused by the destruction of pancreatic islets due to abnormal chloride channel function, which leads to thickened bodily secretions that damage the exocrine pancreas over time. As a result, there is a gradual reduction in islet cell function and relative insulin deficiency, which can cause symptoms such as polydipsia, polyuria, fatigue, and weight loss.

      It is important to note that this type of diabetes is distinct from type 1 or type 2 diabetes. Additionally, it is not associated with other conditions such as diabetes insipidus, primary hyperparathyroidism, or prostatitis, which have their own unique symptoms and causes.

      Understanding Cystic Fibrosis: Symptoms and Other Features

      Cystic fibrosis is a genetic disorder that affects various organs in the body, particularly the lungs and digestive system. The symptoms of cystic fibrosis can vary from person to person, but some common presenting features include recurrent chest infections, malabsorption, and liver disease. In some cases, infants may experience meconium ileus or prolonged jaundice. It is important to note that while many patients are diagnosed during newborn screening or early childhood, some may not be diagnosed until adulthood.

      Aside from the presenting features, there are other symptoms and features associated with cystic fibrosis. These include short stature, diabetes mellitus, delayed puberty, rectal prolapse, nasal polyps, and infertility. It is important for individuals with cystic fibrosis to receive proper medical care and management to address these symptoms and improve their quality of life.

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  • Question 30 - A 35-year-old man is stabbed in the right chest and requires a thoracotomy....

    Incorrect

    • 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:

      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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SESSION STATS - PERFORMANCE PER SPECIALTY

Respiratory System (4/16) 25%
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