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  • Question 1 - A 32-year-old woman arrives at the emergency department complaining of sudden shortness of...

    Correct

    • A 32-year-old woman arrives at the emergency department complaining of sudden shortness of breath and a sharp pain on the right side of her chest that worsens with inspiration. Upon examination, the doctor observes hyper-resonance and reduced breath sounds on the right side of her chest.

      What is a risk factor for this condition, considering the probable diagnosis?

      Your Answer: Cystic fibrosis

      Explanation:

      Pneumothorax can be identified by reduced breath sounds and a hyper-resonant chest on the same side as the pain. Cystic fibrosis is a significant risk factor for pneumothorax due to the frequent chest infections, lung remodeling, and air trapping associated with the disease. While tall, male smokers are also at increased risk, Marfan’s syndrome, not Turner syndrome, is a known risk factor.

      Pneumothorax: Characteristics and Risk Factors

      Pneumothorax is a medical condition characterized by the presence of air in the pleural cavity, which is the space between the lungs and the chest wall. This condition can occur spontaneously or as a result of trauma or medical procedures. There are several risk factors associated with pneumothorax, including pre-existing lung diseases such as COPD, asthma, cystic fibrosis, lung cancer, and Pneumocystis pneumonia. Connective tissue diseases like Marfan’s syndrome and rheumatoid arthritis can also increase the risk of pneumothorax. Ventilation, including non-invasive ventilation, can also be a risk factor.

      Symptoms of pneumothorax tend to come on suddenly and can include dyspnoea, chest pain (often pleuritic), sweating, tachypnoea, and tachycardia. In some cases, catamenial pneumothorax can be the cause of spontaneous pneumothoraces occurring in menstruating women. This type of pneumothorax is thought to be caused by endometriosis within the thorax. Early diagnosis and treatment of pneumothorax are crucial to prevent complications and improve outcomes.

    • This question is part of the following fields:

      • Respiratory System
      9
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  • Question 2 - A 65-year-old man is having a left pneumonectomy for bronchogenic carcinoma. When the...

    Incorrect

    • A 65-year-old man is having a left pneumonectomy for bronchogenic carcinoma. When the surgeons reach the root of the lung, which structure will be situated furthest back in the anatomical plane?

      Your Answer: Main bronchus

      Correct Answer: Vagus nerve

      Explanation:

      At the lung root, the phrenic nerve is situated in the most anterior position while the vagus nerve is located at the posterior end.

      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.

    • This question is part of the following fields:

      • Respiratory System
      22.1
      Seconds
  • Question 3 - Which of the following laryngeal tumors is unlikely to spread to the cervical...

    Correct

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

      Your 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
      3.7
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  • Question 4 - A senior citizen who has been a lifelong smoker visits the respiratory clinic...

    Incorrect

    • A senior citizen who has been a lifelong smoker visits the respiratory clinic for a check-up on his emphysema. What alterations in his lung function test results would you anticipate?

      Your Answer: Reduced residual volume and reduced vital capacity

      Correct Answer: Increased residual volume and reduced vital capacity

      Explanation:

      Emphysema causes an increase in residual volume, leading to a decrease in vital capacity. This is due to damage to the alveolar walls, which results in the formation of large air sacs called bullae. The lungs lose their compliance, making it difficult to fully exhale and causing air to become trapped in the bullae. As a result, the total volume that can be exhaled is reduced, leading to a decrease in vital capacity.

      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.

    • This question is part of the following fields:

      • Respiratory System
      9.5
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  • Question 5 - During a clinical trial examining oxygen consumption during exercise, participants aged 50 and...

    Incorrect

    • During a clinical trial examining oxygen consumption during exercise, participants aged 50 and above engage in high-intensity interval training exercises for 20 minutes while physiological measurements are recorded. What is the primary factor that is likely to restrict oxygen supply to tissues after the training session?

      Your Answer: Raised 2,3-DPG

      Correct Answer: Low pCO2

      Explanation:

      When the pCO2 is low, the oxygen dissociation curve shifts to the left, which increases the affinity of haemoglobin for oxygen. This can limit the amount of oxygen available to tissues. On the other hand, high levels of pCO2 (hypercarbia) shift the curve to the right, decreasing the affinity of haemoglobin for oxygen and increasing oxygen availability to tissues.

      In acidosis, the concentration of 2,3-diphosphoglycerate (DPG) increases, which binds to deoxyhaemoglobin and shifts the oxygen dissociation curve to the right. This results in increased oxygen release from the blood into tissues.

      Hyperthermia also shifts the oxygen dissociation curve to the right, while the performance-enhancing substance myo-inositol trispyrophosphate (ITPP) has a similar 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
      32.6
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  • Question 6 - A 75-year-old man visits his doctor complaining of a productive cough that has...

    Correct

    • A 75-year-old man visits his doctor complaining of a productive cough that has lasted for 5 days. He has also been feeling generally unwell and has had a fever for the past 2 days. The doctor suspects a bacterial respiratory tract infection and orders a blood panel, sputum microscopy, and culture. What is the most likely abnormality to be found in the blood results?

      Your Answer: Neutrophils

      Explanation:

      Neutrophils are typically elevated during an acute bacterial infection, while eosinophils are commonly elevated in response to parasitic infections and allergies. Lymphocytes tend to increase during acute viral infections and chronic inflammation. IgE levels are raised in cases of allergic asthma, malaria, and type 1 hypersensitivity reactions. Anti-CCP antibody is a diagnostic tool for Rheumatoid arthritis.

      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.

    • This question is part of the following fields:

      • Respiratory System
      21.1
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  • Question 7 - What is the term used to describe the area between the vocal cords?...

    Correct

    • What is the term used to describe the area between the vocal cords?

      Your 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.

    • This question is part of the following fields:

      • Respiratory System
      4.4
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  • Question 8 - Sophie is a 15-year-old girl who has been brought to your GP clinic...

    Correct

    • Sophie is a 15-year-old girl who has been brought to your GP clinic by her father. She has not yet started to develop breasts or have her first period. She does not seem worried, but her father is concerned. Sophie has a history of eczema and has been using topical steroids for several years. When her father leaves the room, she also admits to occasionally using tanning beds.

      What could be a possible cause of delayed puberty in Sophie?

      Your Answer: Cystic fibrosis

      Explanation:

      Delayed puberty can be caused by various factors, with constitutional delay being the most common cause. However, other causes must be ruled out before diagnosing constitutional delay. Some of these causes include chronic illnesses like kidney disease and Crohn’s disease, malnutrition from conditions such as anorexia nervosa, cystic fibrosis, and coeliac disease, excessive physical exercise, psychosocial deprivation, steroid therapy, hypothyroidism, tumours near the hypothalamo-pituitary axis, congenital anomalies like septo-optic dysplasia and congenital panhypopituitarism, irradiation treatment, and trauma such as surgery or head injury.

      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.

    • This question is part of the following fields:

      • Respiratory System
      11.4
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  • Question 9 - A 70-year-old man is admitted to the respiratory ward with an exacerbation of...

    Correct

    • 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: 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
      8
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  • Question 10 - Which of the following muscles is not innervated by the ansa cervicalis? ...

    Incorrect

    • Which of the following muscles is not innervated by the ansa cervicalis?

      Your Answer: None of the above

      Correct Answer: Mylohyoid

      Explanation:

      The muscles of the ansa cervicalis are: GenioHyoid, ThyroidHyoid, Superior Omohyoid, SternoThyroid, SternoHyoid, and Inferior Omohyoid. The mylohyoid muscle is innervated by the mylohyoid branch of the inferior alveolar nerve. A mnemonic to remember these muscles is GHost THought SOmeone Stupid Shot Irene.

      The ansa cervicalis is a nerve that provides innervation to the sternohyoid, sternothyroid, and omohyoid muscles. It is composed of two roots: the superior root, which branches off from C1 and is located anterolateral to the carotid sheath, and the inferior root, which is derived from the C2 and C3 roots and passes posterolateral to the internal jugular vein. The inferior root enters the inferior aspect of the strap muscles, which are located in the neck, and should be divided in their upper half when exposing a large goitre. The ansa cervicalis is situated in front of the carotid sheath and is an important nerve for the proper functioning of the neck muscles.

    • This question is part of the following fields:

      • Respiratory System
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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: 35 - 45mm 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
      4
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  • Question 12 - A 65-year-old male with a history of chronic obstructive pulmonary disease (COPD) has...

    Correct

    • A 65-year-old male with a history of chronic obstructive pulmonary disease (COPD) has been admitted and treated for infective exacerbations of COPD three times in the past year. Despite his respiratory issues, he continues to smoke. He is currently receiving only short-acting beta2-agonist therapy. During his COPD patient review with the nurse practitioner at his local general practice, spirometry results reveal a drop in his FEV1 from 65% to 58%.

      What is the most effective approach to manage his condition and prevent further decline in his FEV1?

      Your Answer: Smoking cessation

      Explanation:

      The most effective intervention to slow the decrease in FEV1 experienced by patients with COPD is to stop smoking. If the patient has no asthmatic/steroid-responsive features, the next step in management would be to add a long-acting beta2-agonist (LABA) and a long-acting muscarinic antagonist. If the patient has asthmatic/steroid-responsive features, the next step would be to add a LABA and an inhaled corticosteroid. Oral theophylline is only considered if inhaled therapy is not possible, and oral prednisolone is only used during acute infective exacerbations of COPD to help with inflammation and is not a long-term solution to slow the reduction of FEV1.

      The National Institute for Health and Care Excellence (NICE) updated its guidelines on the management of chronic obstructive pulmonary disease (COPD) in 2018. The guidelines recommend general management strategies such as smoking cessation advice, annual influenzae vaccination, and one-off pneumococcal vaccination. Pulmonary rehabilitation is also recommended for patients who view themselves as functionally disabled by COPD.

      Bronchodilator therapy is the first-line treatment for patients who remain breathless or have exacerbations despite using short-acting bronchodilators. The next step is determined by whether the patient has asthmatic features or features suggesting steroid responsiveness. NICE suggests several criteria to determine this, including a previous diagnosis of asthma or atopy, a higher blood eosinophil count, substantial variation in FEV1 over time, and substantial diurnal variation in peak expiratory flow.

      If the patient does not have asthmatic features or features suggesting steroid responsiveness, a long-acting beta2-agonist (LABA) and long-acting muscarinic antagonist (LAMA) should be added. If the patient is already taking a short-acting muscarinic antagonist (SAMA), it should be discontinued and switched to a short-acting beta2-agonist (SABA). If the patient has asthmatic features or features suggesting steroid responsiveness, a LABA and inhaled corticosteroid (ICS) should be added. If the patient remains breathless or has exacerbations, triple therapy (LAMA + LABA + ICS) should be offered.

      NICE only recommends theophylline after trials of short and long-acting bronchodilators or to people who cannot use inhaled therapy. Azithromycin prophylaxis is recommended in select patients who have optimised standard treatments and continue to have exacerbations. Mucolytics should be considered in patients with a chronic productive cough and continued if symptoms improve.

      Cor pulmonale features include peripheral oedema, raised jugular venous pressure, systolic parasternal heave, and loud P2. Loop diuretics should be used for oedema, and long-term oxygen therapy should be considered. Smoking cessation, long-term oxygen therapy in eligible patients, and lung volume reduction surgery in selected patients may improve survival in patients with stable COPD. NICE does not recommend the use of ACE-inhibitors, calcium channel blockers, or alpha blockers

    • This question is part of the following fields:

      • Respiratory System
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  • Question 13 - A 25-year-old man with a history of asthma since childhood visited his doctor...

    Correct

    • 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 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
      116.6
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  • Question 14 - A 65-year-old man with a 45-pack-year history arrives at the hospital complaining of...

    Correct

    • A 65-year-old man with a 45-pack-year history arrives at the hospital complaining of increased difficulty breathing and cachexia. Upon examination, a chest X-ray reveals an elevated left hemidiaphragm, enlarged hilar lymph nodes, and a significant opacification. Which structure is most likely to have been affected?

      Your Answer: Left phrenic nerve

      Explanation:

      It is unlikely that direct injury would result in the elevation of the left hemidiaphragm, especially since there is no history of trauma or surgery. However, damage to the long thoracic nerve could cause winging of the scapula due to weakened serratus anterior muscle. On the other hand, injury to the thoracodorsal nerve, which innervates the latissimus dorsi muscle, can lead to weakened shoulder adduction and is a common complication of axillary surgery.

      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.

    • This question is part of the following fields:

      • Respiratory System
      18.5
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  • Question 15 - A 55-year-old man presents to his doctor with complaints of vertigo, which worsens...

    Correct

    • A 55-year-old man presents to his doctor with complaints of vertigo, which worsens when he rolls over in bed. The doctor diagnoses him with benign paroxysmal positional vertigo.

      What treatment options are available to alleviate the symptoms of this condition?

      Your Answer: Epley manoeuvre

      Explanation:

      The Epley manoeuvre is a treatment for BPPV, while the Dix-Hallpike manoeuvre is used for diagnosis. The Epley manoeuvre aims to move fluid in the inner ear to dislodge otoliths, while the Dix-Hallpike manoeuvre involves observing the patient for nystagmus when swiftly lowered from a sitting to supine position. Tinel’s sign is positive in those with carpal tunnel syndrome, where tapping the median nerve over the flexor retinaculum causes paraesthesia. The Trendelenburg test is used to assess venous valve competency in patients with varicose veins.

      Benign paroxysmal positional vertigo (BPPV) is a common cause of vertigo that occurs suddenly when there is a change in head position. It is more prevalent in individuals over the age of 55 and is less common in younger patients. Symptoms of BPPV include dizziness and vertigo, which can be accompanied by nausea. Each episode typically lasts for 10-20 seconds and can be triggered by rolling over in bed or looking upwards. A positive Dix-Hallpike manoeuvre, which is indicated by vertigo and rotatory nystagmus, can confirm the diagnosis of BPPV.

      Fortunately, BPPV has a good prognosis and usually resolves on its own within a few weeks to months. Treatment options include the Epley manoeuvre, which is successful in around 80% of cases, and vestibular rehabilitation exercises such as the Brandt-Daroff exercises. While medication such as Betahistine may be prescribed, it tends to have limited effectiveness. However, it is important to note that around half of individuals with BPPV may experience a recurrence of symptoms 3-5 years after their initial diagnosis.

    • This question is part of the following fields:

      • Respiratory System
      6
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  • Question 16 - A 67-year-old man visits his doctor complaining of dyspnoea. He experiences shortness of...

    Correct

    • A 67-year-old man visits his doctor complaining of dyspnoea. He experiences shortness of breath after walking just a few meters, whereas he can usually walk up to 200m. The man appears cyanosed in his extremities and his pulse oximeter shows a reading of 83%. What is the primary mode of carbon dioxide transportation in the bloodstream?

      Your Answer: Bound to haemoglobin as bicarbonate ions

      Explanation:

      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
      4.2
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  • Question 17 - Sophie, a 4-year-old patient with Down's syndrome, is brought to the general practitioner...

    Incorrect

    • Sophie, a 4-year-old patient with Down's syndrome, is brought to the general practitioner by her father. He is worried as Sophie has been crying more than usual and has started holding her right ear. She is diagnosed with acute bacterial otitis media.

      What is the most probable bacteria responsible for this infection?

      Your Answer: Neisseria meningitides

      Correct Answer: Haemophilus influenzae

      Explanation:

      Haemophilus influenzae is a frequent culprit behind bacterial otitis media, a common ear infection.

      The majority of cases of acute bacterial otitis media are caused by Streptococcus pneumoniae, Haemophilus influenzae, or Moraxella.

      Genital gonorrhoeae is caused by N. gonorrhoeae, a sexually transmitted infection that presents with discharge and painful urination.

      Meningococcal sepsis, a life-threatening condition, is caused by N. meningitides.

      Staph. aureus is responsible for superficial skin infections like impetigo.

      Syphilis, which typically manifests as a painless genital sore called a chancre, is caused by T. pallidum.

      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.

    • This question is part of the following fields:

      • Respiratory System
      7.5
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  • Question 18 - A 30-year-old female complains of weakness, weight gain, and cold intolerance. You suspect...

    Correct

    • A 30-year-old female complains of weakness, weight gain, and cold intolerance. You suspect hypothyroidism. What vocal change would you anticipate to have occurred, increasing the probability of this potential diagnosis?

      Your Answer: Hoarse voice

      Explanation:

      Hoarseness is a symptom that can be caused by hypothyroidism.

      When a patient presents with hoarseness, it can be difficult to determine the underlying cause. However, if the hoarseness is accompanied by other symptoms commonly associated with hypothyroidism, it can help narrow down the diagnosis.

      The reason for the voice change in hypothyroidism is due to the thickening of the vocal cords caused by the accumulation of mucopolysaccharide. This substance, also known as glycosaminoglycans, is found throughout the body in mucus and joint fluid. When it builds up in the vocal cords, it can lower the pitch of the voice. The thyroid hormone plays a role in preventing this buildup.

      Hoarseness can be caused by various factors such as overusing the voice, smoking, viral infections, hypothyroidism, gastro-oesophageal reflux, laryngeal cancer, and lung cancer. It is important to investigate the underlying cause of hoarseness, and a chest x-ray may be necessary to rule out any apical lung lesions.

      If laryngeal cancer is suspected, it is recommended to refer the patient to an ENT specialist through a suspected cancer pathway. This referral should be considered for individuals who are 45 years old and above and have persistent unexplained hoarseness or an unexplained lump in the neck. Early detection and treatment of laryngeal cancer can significantly improve the patient’s prognosis.

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      • Respiratory System
      3.8
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  • Question 19 - A 19-year-old male is admitted with acute asthma. He has been treated with...

    Incorrect

    • A 19-year-old male is admitted with acute asthma. He has been treated with steroid, bronchodilators and 15 l/min of oxygen.

      His pulse rate is 125/min, oxygen saturation 89%, respiratory rate 24/min, blood pressure 140/88 mmHg and he has a peak flow rate of 150 l/min. On auscultation of his chest, he has bilateral wheezes.

      Arterial blood gas (ABG) result taken on 15 l/min oxygen shows:

      pH 7.42 (7.36-7.44)
      PaO2 8.4 kPa (11.3-12.6)
      PaCO2 5.3 kPa (4.7-6.0)
      Standard HCO3 19 mmol/L (20-28)
      Base excess −4 (+/-2)
      Oxygen saturation 89%

      What is the most appropriate action for this man?

      Your Answer: Repeat arterial blood gas analysis, as it is likely to be a venous sample

      Correct Answer: Call ITU to consider intubation

      Explanation:

      Urgent Need for Ventilation in Life-Threatening Asthma

      This patient is experiencing life-threatening asthma with a dangerously low oxygen saturation level of less than 92%. Despite having a normal PaCO2 level, the degree of hypoxia is inappropriate and requires immediate consideration for ventilation. The arterial blood gas (ABG) result is consistent with the clinical presentation, making a venous blood sample unnecessary. Additionally, the ABG and bedside oxygen saturation readings are identical, indicating an arterialised sample.

      It is crucial to note that in cases of acute asthma, reducing the amount of oxygen below the maximum available is not recommended. Hypoxia can be fatal and must be addressed promptly. Therefore, urgent intervention is necessary to ensure the patient’s safety and well-being.

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      • Respiratory System
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  • Question 20 - A 24-year-old man is admitted to the emergency department after a car accident....

    Incorrect

    • 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: Hospital-acquired pneumonia

      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.

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      • Respiratory System
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  • Question 21 - A 55-year-old man comes to the hospital complaining of lethargy, headache, and shortness...

    Incorrect

    • A 55-year-old man comes to the hospital complaining of lethargy, headache, and shortness of breath. Upon examination, he is found to be cyanotic and hypoxic, and is admitted to the respiratory ward for oxygen therapy.

      Following some initial tests, the consultant informs the patient that his hemoglobin has a high affinity for oxygen, resulting in reduced oxygen delivery to the tissues.

      What is the probable reason for this alteration in the oxygen dissociation curve?

      Your Answer: High temperature

      Correct Answer: Low 2,3-DPG

      Explanation:

      The correct answer is low 2,3-DPG. The professor’s description refers to a left shift in the oxygen dissociation curve, which indicates that haemoglobin has a high affinity for oxygen and is less likely to release it to the tissues. Factors that cause a left shift include low temperature, high pH, low PCO2, and low 2,3-DPG. 2,3-DPG is a substance that helps release oxygen from haemoglobin, so low levels of it result in less oxygen being released, causing a left shift in the oxygen dissociation curve.

      The answer high temperature is incorrect because it causes a right shift in the oxygen dissociation curve, promoting oxygen delivery to the tissues. Hypercapnoea also causes a right shift in the curve, promoting oxygen delivery. Hyperglycaemia has no effect on haemoglobin’s ability to release oxygen, so it is also incorrect.

      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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      • Respiratory System
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  • Question 22 - An 80-year-old man visits the GP clinic for a routine hearing examination. He...

    Correct

    • An 80-year-old man visits the GP clinic for a routine hearing examination. He reports a decline in hearing ability in his left ear for the past few months. After conducting Rinne and Weber tests, you determine that he has conductive hearing loss in the left ear. Upon otoscopy, you observe cerumen impaction.

      What are the test findings for this patient?

      Your Answer: Rinne: bone conduction > air conduction in right ear; Weber: lateralising to right ear

      Explanation:

      Rinne’s and Weber’s Test for Differentiating Conductive and Sensorineural Deafness

      Rinne’s and Weber’s tests are used to differentiate between conductive and sensorineural deafness. Rinne’s test involves placing a tuning fork over the mastoid process until the sound is no longer heard, then repositioning it just over the external acoustic meatus. A positive test indicates that air conduction (AC) is better than bone conduction (BC), while a negative test indicates that BC is better than AC, suggesting conductive deafness.

      Weber’s test involves placing a tuning fork in the middle of the forehead equidistant from the patient’s ears and asking the patient which side is loudest. In unilateral sensorineural deafness, sound is localized to the unaffected side, while in unilateral conductive deafness, sound is localized to the affected side.

      The table below summarizes the interpretation of Rinne and Weber tests. A normal result indicates that AC is greater than BC bilaterally and the sound is midline. Conductive hearing loss is indicated by BC being greater than AC in the affected ear and AC being greater than BC in the unaffected ear, with the sound lateralizing to the affected ear. Sensorineural hearing loss is indicated by AC being greater than BC bilaterally, with the sound lateralizing to the unaffected ear.

      Overall, Rinne’s and Weber’s tests are useful tools for differentiating between conductive and sensorineural deafness, allowing for appropriate management and treatment.

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      • Respiratory System
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  • Question 23 - A 16-year-old girl presents to the Emergency department with her mother. The mother...

    Correct

    • A 16-year-old girl presents to the Emergency department with her mother. The mother reports that her daughter has been experiencing worsening breathlessness and facial puffiness for the past 30 minutes. Apart from eczema, the girl has been healthy and is currently taking oral contraceptives. On examination, the girl appears to be in distress, with laboured breathing and stridor but no wheezing. What is the probable cause of her breathlessness?

      Your Answer: Angio-oedema

      Explanation:

      Noisy Breathing and Atopy in Adolescents

      The presence of noisy breathing in an adolescent may indicate the possibility of stridor, which can be caused by an allergic reaction even in an otherwise healthy individual. The history of atopy, or a tendency to develop allergic reactions, further supports the diagnosis of angio-oedema. The sudden onset of symptoms also adds to the likelihood of this diagnosis.

      While asthma is a possible differential diagnosis, it typically presents with expiratory wheezing. However, if the chest is silent, it may indicate a severe and life-threatening form of asthma. Therefore, it is important to consider all possible causes of noisy breathing and atopy in adolescents to ensure prompt and appropriate treatment.

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      • Respiratory System
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  • Question 24 - A 72-year-old man is admitted to the hospital with symptoms of the flu,...

    Incorrect

    • A 72-year-old man is admitted to the hospital with symptoms of the flu, confusion, and vomiting. His finger prick glucose levels are within normal range. The physician suspects that the patient's living conditions, which include poor housing and lack of support at home, may have contributed to his symptoms.

      What physiological response is expected in this patient?

      Your Answer: A rightward shift of the oxygen dissociation curve

      Correct Answer: An increased affinity of haemoglobin for oxygen

      Explanation:

      Methaemoglobin causes a leftward shift of the oxygen dissociation curve, indicating an increased affinity of haemoglobin for oxygen. This results in reduced offloading of oxygen into the tissues, leading to decreased oxygen delivery. It is important to understand the oxygen-dissociation curve and the effects of carbon monoxide poisoning, which causes increased oxygen binding to methaemoglobin. A rightward shift of the curve indicates increased oxygen delivery to the tissues, which is not the case in methaemoglobinemia.

      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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      • Respiratory System
      26.1
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  • Question 25 - A 42-year-old man from Turkey visits his doctor complaining of chronic breathlessness and...

    Correct

    • A 42-year-old man from Turkey visits his doctor complaining of chronic breathlessness and a dry cough that has been worsening over the past 7 months. He has no significant medical history except for an allergy to penicillin. He is a non-smoker and does not consume alcohol. He works as a taxi driver and lives alone, but he is an avid collector of exotic pigeons and enjoys a cup of coffee every morning. The doctor suspects that his symptoms may be due to exposure to what causes pigeon fancier's lung?

      Your Answer: Avian proteins

      Explanation:

      Bird fanciers’ lung is caused by avian proteins found in bird droppings, which can lead to hypersensitivity pneumonitis. This is a type of pulmonary disorder that results from an inflammatory reaction to inhaling an allergen, which can be organic or inorganic particles such as animal or plant proteins, certain chemicals, or microbes. Similarly, other types of lung diseases such as tobacco worker’s lung, farmer’s lung, and hot tub lung are also caused by exposure to specific allergens in the environment.

      Extrinsic allergic alveolitis, also known as hypersensitivity pneumonitis, is a condition that occurs when the lungs are damaged due to hypersensitivity to inhaled organic particles. This damage is thought to be caused by immune-complex mediated tissue damage, although delayed hypersensitivity may also play a role. Examples of this condition include bird fanciers’ lung, farmers lung, malt workers’ lung, and mushroom workers’ lung. Symptoms can be acute or chronic and include dyspnoea, dry cough, fever, lethargy, and weight loss. Diagnosis is made through imaging, bronchoalveolar lavage, and serologic assays for specific IgG antibodies. Management involves avoiding the triggering factors and oral glucocorticoids.

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      • Respiratory System
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  • Question 26 - A 67-year-old man visits the respiratory clinic for spirometry testing to investigate possible...

    Correct

    • A 67-year-old man visits the respiratory clinic for spirometry testing to investigate possible COPD. The clinician observes that his breathing appears to be shallow even at rest.

      What specific lung volume would accurately describe the clinician's observation?

      Your Answer: Tidal volume (TV)

      Explanation:

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

    Correct

    • 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: 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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      • Respiratory System
      52.6
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  • Question 28 - A 7-year-old boy is brought to the clinic by his father, who is...

    Correct

    • A 7-year-old boy is brought to the clinic by his father, who is worried about his son's hearing. The father has noticed that his son frequently asks him to repeat himself and tends to turn up the volume on the TV. During Weber's test, the patient indicates that the sound is louder on the right side. What conclusion can be drawn from this finding?

      Your Answer: Can not tell which side is affected.

      Explanation:

      The Weber test alone cannot determine which side of the patient’s hearing is affected. The test involves placing a tuning fork on the forehead and asking the patient to report if the sound is symmetrical or louder on one side. If the sound is louder on the left side, it could indicate a conductive hearing loss on the left or a sensorineural hearing loss on the right. To obtain more information, the Weber test should be performed in conjunction with the Rinne test, which involves comparing air conduction and bone conduction.

      Rinne’s and Weber’s Test for Differentiating Conductive and Sensorineural Deafness

      Rinne’s and Weber’s tests are used to differentiate between conductive and sensorineural deafness. Rinne’s test involves placing a tuning fork over the mastoid process until the sound is no longer heard, then repositioning it just over the external acoustic meatus. A positive test indicates that air conduction (AC) is better than bone conduction (BC), while a negative test indicates that BC is better than AC, suggesting conductive deafness.

      Weber’s test involves placing a tuning fork in the middle of the forehead equidistant from the patient’s ears and asking the patient which side is loudest. In unilateral sensorineural deafness, sound is localized to the unaffected side, while in unilateral conductive deafness, sound is localized to the affected side.

      The table below summarizes the interpretation of Rinne and Weber tests. A normal result indicates that AC is greater than BC bilaterally and the sound is midline. Conductive hearing loss is indicated by BC being greater than AC in the affected ear and AC being greater than BC in the unaffected ear, with the sound lateralizing to the affected ear. Sensorineural hearing loss is indicated by AC being greater than BC bilaterally, with the sound lateralizing to the unaffected ear.

      Overall, Rinne’s and Weber’s tests are useful tools for differentiating between conductive and sensorineural deafness, allowing for appropriate management and treatment.

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      • Respiratory System
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  • Question 29 - A 75-year-old man visits his doctor complaining of weight loss and feeling full...

    Incorrect

    • A 75-year-old man visits his doctor complaining of weight loss and feeling full quickly. During the abdominal examination, the doctor notices a swollen lymph node in the left supraclavicular region. The doctor suspects that this could be a sign of gastric cancer with the spread of tumor emboli through the thoracic duct as it ascends from the abdomen into the mediastinum. Can you name the two other structures that pass through the diaphragm along with the thoracic duct?

      Your Answer: Sympathetic trunk and left phrenic nerve

      Correct Answer: Aorta and azygous vein

      Explanation:

      The point at which the aorta, thoracic duct, and azygous vein cross the diaphragm is at T12, specifically at the aortic opening. This is also where the oesophageal branches of the left gastric veins, the vagal trunk, and the oesophagus pass through the diaphragm, at the oesophageal opening located at T10. The left phrenic nerve and sympathetic trunk have their own separate openings in the diaphragm. A lymph node in the left supraclavicular fossa, known as Virchow’s node, is a characteristic sign of early gastric carcinoma.

      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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  • Question 30 - A 35-year-old man comes to the clinic complaining of worsening retrosternal chest pain...

    Correct

    • A 35-year-old man comes to the clinic complaining of worsening retrosternal chest pain that radiates to the neck and shoulders and is pleuritic in nature. During examination, a pericardial friction rub is heard at the end of expiration. The diagnosis is pericarditis. What nerve supplies this area?

      Your Answer: Phrenic nerve

      Explanation:

      The correct answer is the phrenic nerve, which provides sensory innervation to the pericardium, the central part of the diaphragm, and the mediastinal part of the parietal pleura. It also supplies motor function to the diaphragm. The long thoracic nerve, medial pectoral nerve, thoracodorsal nerve, and vagus nerve are all incorrect answers.

      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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SESSION STATS - PERFORMANCE PER SPECIALTY

Respiratory System (19/30) 63%
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