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Question 1
Correct
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The medical team at a pediatric unit faces difficulty in determining the sex of a newborn baby as the external genitalia appear ambiguous. The suspected condition is linked to an excess of androgen and a deficiency of mineralocorticoid. Can you explain the underlying pathophysiology?
Your Answer: Deficiency of 21-alphahydroxylase
Explanation:The clinical scenario described in the question is indicative of congenital adrenal hyperplasia, which is caused by a deficiency of the enzyme 21-alphahydroxylase. This leads to an increase in androgen production, resulting in virilization of genitalia in XX females, making them appear as males at birth.
On the other hand, a deficiency of 5-alpha reductase causes the opposite situation, where genetically XY males have external female genitalia.
Type 1 diabetes mellitus may be associated with the presence of autoantibodies against glutamic acid decarboxylase.
A defect in the AIRE gene can lead to APECED, which is characterized by hypoparathyroidism, adrenal failure, and candidiasis.
Similarly, a defect in the FOXP3 gene can cause IPEX, which presents with immune dysregulation, polyendocrinopathy, and enteropathy.
Congenital adrenal hyperplasia is a genetic condition that affects the adrenal glands and can result in various symptoms depending on the specific enzyme deficiency. One common form is 21-hydroxylase deficiency, which can cause virilization of female genitalia, precocious puberty in males, and a salt-losing crisis in 60-70% of patients during the first few weeks of life. Another form is 11-beta hydroxylase deficiency, which can also cause virilization and precocious puberty, as well as hypertension and hypokalemia. A third form is 17-hydroxylase deficiency, which typically does not cause virilization in females but can result in intersex characteristics in boys and hypertension.
Overall, congenital adrenal hyperplasia can have significant impacts on a person’s physical development and health, and early diagnosis and treatment are important for managing symptoms and preventing complications.
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This question is part of the following fields:
- Endocrine System
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Question 2
Incorrect
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A 47-year-old man comes to your clinic with a complaint of erectile dysfunction for the past 6 weeks. He also mentions that his nipples have been lactating. You inform him that these symptoms could be a result of his body producing too much prolactin hormone and suggest testing his serum prolactin levels. Which part of the body secretes prolactin?
Your Answer: Posterior pituitary
Correct Answer: Anterior pituitary
Explanation:The anterior pituitary gland releases prolactin, which can cause hyperprolactinaemia. This condition can lead to impotence, loss of libido, and galactorrhoea in men, and amenorrhoea and galactorrhoea in women. The hypothalamus, parathyroid glands, adrenal gland, and posterior pituitary gland also release hormones that play important roles in maintaining homoeostasis. Hyperprolactinaemia can be caused by various factors, including certain medications.
Understanding Prolactin and Its Functions
Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.
The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.
Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.
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This question is part of the following fields:
- Endocrine System
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Question 3
Correct
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A father brings his 14-year-old son to see you as he is concerned about his growth. He is taller than his peers, has not yet experienced puberty and has developed excessive body hair. He is referred to a specialist who diagnoses mild congenital adrenal hyperplasia.
What is the most frequent deficiency leading to this condition?Your Answer: 21-hydroxylase deficiency
Explanation:The most common cause of congenital adrenal hyperplasia is 21-hydroxylase deficiency, while 17-hydroxylase deficiency is a rare cause. 17β-hydroxysteroid dehydrogenase deficiency results in a rare condition of sexual development, while 5-alpha reductase deficiency affects male sexual development.
Understanding Congenital Adrenal Hyperplasia
Congenital adrenal hyperplasia is a group of genetic disorders that affect the production of adrenal steroids. It is an autosomal recessive disorder, which means that both parents must carry the gene for the disorder to be passed on to their child. The most common cause of congenital adrenal hyperplasia is a deficiency in the enzyme 21-hydroxylase, which is responsible for the production of cortisol and aldosterone. This deficiency leads to low levels of cortisol, which triggers the anterior pituitary gland to produce high levels of adrenocorticotropic hormone (ACTH). ACTH then stimulates the adrenal glands to produce excess androgens, which can cause virilization in female infants.
Other less common forms of congenital adrenal hyperplasia include 11-beta hydroxylase deficiency and 17-hydroxylase deficiency. These conditions also affect the production of adrenal steroids and can lead to similar symptoms.
It is important to diagnose and treat congenital adrenal hyperplasia early to prevent complications such as adrenal crisis, growth failure, and infertility. Treatment typically involves hormone replacement therapy to replace the deficient hormones and suppress the excess androgens. With proper management, individuals with congenital adrenal hyperplasia can lead healthy and normal lives.
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This question is part of the following fields:
- Endocrine System
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Question 4
Incorrect
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A 65-year-old man with a history of type 2 diabetes is being seen by his primary care physician.
He is currently taking metformin 1g twice daily and lisinopril for his high blood pressure.
His most recent HbA1c result is:
HbA1c 58 mmol/L (<42)
After further discussion, he has agreed to add a second medication for his diabetes. He has been informed that potential side effects may include weight gain, hypoglycemia, and gastrointestinal issues.
What is the mechanism of action for this new medication?Your Answer: Activation of peroxisome proliferator activated receptor gamma (PPAR gamma)
Correct Answer: Binding to KATP channels on pancreatic beta cell membrane
Explanation:Sulfonylureas are a type of medication used to treat type 2 diabetes mellitus. They work by increasing the amount of insulin produced by the pancreas, but only if the beta cells in the pancreas are functioning properly. Sulfonylureas bind to a specific channel on the cell membrane of pancreatic beta cells, known as the ATP-dependent K+ channel (KATP).
While sulfonylureas can be effective in managing diabetes, they can also cause some adverse effects. The most common side effect is hypoglycemia, which is more likely to occur with long-acting preparations like chlorpropamide. Another common side effect is weight gain. However, there are also rarer side effects that can occur, such as hyponatremia (low sodium levels) due to inappropriate ADH secretion, bone marrow suppression, hepatotoxicity (liver damage), and peripheral neuropathy.
It is important to note that sulfonylureas should not be used during pregnancy or while breastfeeding.
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This question is part of the following fields:
- Endocrine System
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Question 5
Correct
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A teenage girl and her mother come to the doctor's office with concerns about ambiguous genitalia. Upon conducting a thorough medical history and various tests, the doctor diagnoses the girl with congenital adrenal hyperplasia. What is the reason for adrenal hyperplasia being a characteristic of this condition?
Your Answer: Inefficient cortisol synthesis
Explanation:Low cortisol production and compensatory adrenal hyperplasia are caused by 21-hydroxylase deficiency, leading to increased androgen production and ambiguous genitalia. The enzymes 11-beta hydroxylase and 17-hydroxylase are also involved. Testosterone and estrogen synthesis is not affected as they are produced in the testes and ovaries, respectively. Congenital adrenal hyperplasia is not caused by aldosterone synthesis, despite it occurring in the adrenal cortex.
Congenital adrenal hyperplasia is a genetic condition that affects the adrenal glands and can result in various symptoms depending on the specific enzyme deficiency. One common form is 21-hydroxylase deficiency, which can cause virilization of female genitalia, precocious puberty in males, and a salt-losing crisis in 60-70% of patients during the first few weeks of life. Another form is 11-beta hydroxylase deficiency, which can also cause virilization and precocious puberty, as well as hypertension and hypokalemia. A third form is 17-hydroxylase deficiency, which typically does not cause virilization in females but can result in intersex characteristics in boys and hypertension.
Overall, congenital adrenal hyperplasia can have significant impacts on a person’s physical development and health, and early diagnosis and treatment are important for managing symptoms and preventing complications.
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This question is part of the following fields:
- Endocrine System
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Question 6
Incorrect
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A 62-year-old male with type 2 diabetes is urgently referred by his GP due to poor glycaemic control for the past three days, with home blood glucose readings around 25 mmol/L. He is currently being treated with metformin and lisinopril. Yesterday, his GP checked his U+E and found that his serum sodium was 138 mmol/L (137-144), serum potassium was 5.8 mmol/L (3.5-4.9), serum urea was 20 mmol/L (2.5-7.5), and serum creatinine was 350 µmol/L (60-110). On examination, he has a temperature of 39°C, a pulse of 108 bpm, a blood pressure of 96/60 mmHg, a respiratory rate of 32/min, and oxygen saturations of 99% on air. His cardiovascular, respiratory, and abdominal examination are otherwise normal. Further investigations reveal a plasma glucose level of 17 mmol/L (3.0-6.0) and urine analysis showing blood ++ and protein ++, but ketones are negative. What is the likely diagnosis?
Your Answer: Diabetic ketoacidosis
Correct Answer: Sepsis
Explanation:The causes of septic shock are important to understand in order to provide appropriate treatment and improve patient outcomes. Septic shock can cause fever, hypotension, and renal failure, as well as tachypnea due to metabolic acidosis. However, it is crucial to rule out other conditions such as hyperosmolar hyperglycemic state or diabetic ketoacidosis, which have different symptoms and diagnostic criteria.
While metformin can contribute to acidosis, it is unlikely to be the primary cause in this case. Diabetic patients may be prone to renal tubular acidosis, but this is not likely to be the cause of an acute presentation. Instead, a type IV renal tubular acidosis, characterized by hyporeninaemic hypoaldosteronism, may be a more likely association.
Overall, it is crucial to carefully evaluate patients with septic shock and consider all possible causes of their symptoms. By ruling out other conditions and identifying the underlying cause of the acidosis, healthcare providers can provide targeted treatment and improve patient outcomes. Further research and education on septic shock and its causes can also help to improve diagnosis and treatment in the future.
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This question is part of the following fields:
- Endocrine System
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Question 7
Correct
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A 32-year-old woman comes to the clinic complaining of fatigue and weight loss that has been going on for 6 weeks. She reports feeling dizzy when she stands up and has noticed a tan all over her body, despite it being early spring in the UK.
Upon conducting a blood test, it is found that she has hyponatraemia and hyperkalaemia, with normal full blood count results. A lying-standing blood pressure reading shows a postural drop of 36 mmHg.
What is the most likely cause of this woman's presentation in the UK, given her symptoms and test results?Your Answer: Autoimmune adrenal insufficiency
Explanation:The most likely cause of this patient’s symptoms is autoimmune adrenalitis, which is responsible for the majority of cases of hypoadrenalism. In this condition, auto-antibodies attack the adrenal gland, leading to a decrease or complete loss of cortisol and aldosterone production. This results in low blood pressure, electrolyte imbalances, and a significant drop in blood pressure upon standing. The body compensates for the low cortisol levels by producing more adrenocorticotropic hormone (ACTH), which can cause the skin to take on a bronze hue.
While iodine deficiency is a common cause of hypothyroidism worldwide, it is not consistent with this patient’s presentation. A mutation in the HFE gene can lead to haemochromatosis, which can cause reduced libido and skin darkening, but it does not match the electrolyte abnormalities described. Pituitary tumors and tuberculosis can also cause hypoadrenalism, but they are less common in the UK compared to autoimmune causes.
Addison’s disease is the most common cause of primary hypoadrenalism in the UK, with autoimmune destruction of the adrenal glands being the main culprit, accounting for 80% of cases. This results in reduced production of cortisol and aldosterone. Symptoms of Addison’s disease include lethargy, weakness, anorexia, nausea and vomiting, weight loss, and salt-craving. Hyperpigmentation, especially in palmar creases, vitiligo, loss of pubic hair in women, hypotension, hypoglycemia, and hyponatremia and hyperkalemia may also be observed. In severe cases, a crisis may occur, leading to collapse, shock, and pyrexia.
Other primary causes of hypoadrenalism include tuberculosis, metastases (such as bronchial carcinoma), meningococcal septicaemia (Waterhouse-Friderichsen syndrome), HIV, and antiphospholipid syndrome. Secondary causes include pituitary disorders, such as tumours, irradiation, and infiltration. Exogenous glucocorticoid therapy can also lead to hypoadrenalism.
It is important to note that primary Addison’s disease is associated with hyperpigmentation, while secondary adrenal insufficiency is not.
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This question is part of the following fields:
- Endocrine System
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Question 8
Correct
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Release of somatostatin from the pancreas will lead to what outcome?
Your Answer: Decrease in pancreatic exocrine secretions
Explanation:Octreotide is utilized to treat high output pancreatic fistulae by reducing exocrine pancreatic secretions, although parenteral feeding is the most effective treatment. It is also used to treat variceal bleeding and acromegaly.
Octreotide inhibits the release of growth hormone and insulin from the pancreas. Additionally, somatostatin, which is released by the hypothalamus, triggers a negative feedback response on growth hormone.
Somatostatin: The Inhibitor Hormone
Somatostatin, also known as growth hormone inhibiting hormone (GHIH), is a hormone produced by delta cells found in the pancreas, pylorus, and duodenum. Its main function is to inhibit the secretion of growth hormone, insulin, and glucagon. It also decreases acid and pepsin secretion, as well as pancreatic enzyme secretion. Additionally, somatostatin inhibits the trophic effects of gastrin and stimulates gastric mucous production.
Somatostatin analogs are commonly used in the management of acromegaly, a condition characterized by excessive growth hormone secretion. These analogs work by inhibiting growth hormone secretion, thereby reducing the symptoms associated with acromegaly.
The secretion of somatostatin is regulated by various factors. Its secretion increases in response to fat, bile salts, and glucose in the intestinal lumen, as well as glucagon. On the other hand, insulin decreases the secretion of somatostatin.
In summary, somatostatin plays a crucial role in regulating the secretion of various hormones and enzymes in the body. Its inhibitory effects on growth hormone, insulin, and glucagon make it an important hormone in the management of certain medical conditions.
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This question is part of the following fields:
- Endocrine System
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Question 9
Correct
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A 56-year-old man visits the breast clinic with a solitary lump in the upper-right quadrant of his right breast. He has a history of non-alcoholic liver disease, hypertension, and gout, and is currently taking Bisoprolol, Naproxen, and Allopurinol. The lump is smooth and firm. Based on his medical history and current medications, what is the probable cause of his breast lump?
Your Answer: Liver disease
Explanation:Understanding Gynaecomastia: Causes and Drug Triggers
Gynaecomastia is a condition characterized by the abnormal growth of breast tissue in males, often caused by an increased ratio of oestrogen to androgen. It is important to distinguish the causes of gynaecomastia from those of galactorrhoea, which is caused by the actions of prolactin on breast tissue.
Physiological changes during puberty can lead to gynaecomastia, but it can also be caused by syndromes with androgen deficiency such as Kallmann and Klinefelter’s, testicular failure due to mumps, liver disease, testicular cancer, and hyperthyroidism. Additionally, haemodialysis and ectopic tumour secretion can also trigger gynaecomastia.
Drug-induced gynaecomastia is also a common cause, with spironolactone being the most frequent trigger. Other drugs that can cause gynaecomastia include cimetidine, digoxin, cannabis, finasteride, GnRH agonists like goserelin and buserelin, oestrogens, and anabolic steroids. However, it is important to note that very rare drug causes of gynaecomastia include tricyclics, isoniazid, calcium channel blockers, heroin, busulfan, and methyldopa.
In summary, understanding the causes and drug triggers of gynaecomastia is crucial in diagnosing and treating this condition.
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This question is part of the following fields:
- Endocrine System
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Question 10
Incorrect
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A 35-year-old woman comes in with symptoms of renal colic. Upon conducting tests, the following results are obtained:
Corrected Calcium 3.84 mmol/l
PTH 88 pg/ml (increased)
Her serum urea and electrolytes are within normal range.
What is the probable diagnosis?Your Answer: Secondary hyperparathyroidism
Correct Answer: Primary hyperparathyroidism
Explanation:The most probable diagnosis in this scenario is primary hyperparathyroidism, as serum urea and electrolytes are normal, making tertiary hyperparathyroidism less likely.
Primary Hyperparathyroidism: Causes, Symptoms, and Treatment
Primary hyperparathyroidism is a condition that is commonly seen in elderly females and is characterized by an unquenchable thirst and an inappropriately normal or raised parathyroid hormone level. It is usually caused by a solitary adenoma, hyperplasia, multiple adenoma, or carcinoma. While around 80% of patients are asymptomatic, the symptomatic features of primary hyperparathyroidism may include polydipsia, polyuria, depression, anorexia, nausea, constipation, peptic ulceration, pancreatitis, bone pain/fracture, renal stones, and hypertension.
Primary hyperparathyroidism is associated with hypertension and multiple endocrine neoplasia, such as MEN I and II. To diagnose this condition, doctors may perform a technetium-MIBI subtraction scan or look for a characteristic X-ray finding of hyperparathyroidism called the pepperpot skull.
The definitive management for primary hyperparathyroidism is total parathyroidectomy. However, conservative management may be offered if the calcium level is less than 0.25 mmol/L above the upper limit of normal, the patient is over 50 years old, and there is no evidence of end-organ damage. Patients who are not suitable for surgery may be treated with cinacalcet, a calcimimetic that mimics the action of calcium on tissues by allosteric activation of the calcium-sensing receptor.
In summary, primary hyperparathyroidism is a condition that can cause various symptoms and is commonly seen in elderly females. It can be diagnosed through various tests and managed through surgery or medication.
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This question is part of the following fields:
- Endocrine System
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Question 11
Incorrect
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A 67-year-old male is undergoing evaluation for Cushing's syndrome. During the assessment, his primary care physician requests a serum cortisol test. In its unbound form, cortisol is responsible for the manifestations of Cushing's syndrome. What is the primary substance that binds to cortisol in the bloodstream, rendering it inactive?
Your Answer: Albumin
Correct Answer: Cortisol binding globulin
Explanation:Cortisol: Functions and Regulation
Cortisol is a hormone produced in the zona fasciculata of the adrenal cortex. It plays a crucial role in various bodily functions and is essential for life. Cortisol increases blood pressure by up-regulating alpha-1 receptors on arterioles, allowing for a normal response to angiotensin II and catecholamines. However, it inhibits bone formation by decreasing osteoblasts, type 1 collagen, and absorption of calcium from the gut, while increasing osteoclastic activity. Cortisol also increases insulin resistance and metabolism by increasing gluconeogenesis, lipolysis, and proteolysis. It inhibits inflammatory and immune responses, but maintains the function of skeletal and cardiac muscle.
The regulation of cortisol secretion is controlled by the hypothalamic-pituitary-adrenal (HPA) axis. The pituitary gland secretes adrenocorticotropic hormone (ACTH), which stimulates the adrenal cortex to produce cortisol. The hypothalamus releases corticotrophin-releasing hormone (CRH), which stimulates the pituitary gland to release ACTH. Stress can also increase cortisol secretion.
Excess cortisol in the body can lead to Cushing’s syndrome, which can cause a range of symptoms such as weight gain, muscle weakness, and high blood pressure. Understanding the functions and regulation of cortisol is important for maintaining overall health and preventing hormonal imbalances.
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This question is part of the following fields:
- Endocrine System
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Question 12
Incorrect
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A man in his early 50s comes to the hospital with a fever and cough. An X-ray shows pneumonia in his left lower lobe. Upon arrival at the emergency department, his blood pressure is 83/60mmHg and his heart rate is 112/min. The doctor prescribes antibiotics and IV fluids.
What is the primary way the body reacts to a drop in blood pressure?Your Answer: Decreased epithelial sodium channels in distal convoluted tubule
Correct Answer: Insertion of AQP-2 channels in collecting ducts
Explanation:When blood pressure drops, the body initiates several physiological responses, one of which is the activation of the renin-angiotensin aldosterone system (RAAS). This system breaks down bradykinin, a potent vasodilator, through the action of angiotensin-converting enzyme (ACE).
RAAS activation results in increased aldosterone levels, which in turn increases the number of epithelial sodium channels (ENAC) to enhance sodium reabsorption.
Another response to low blood pressure is the release of antidiuretic hormone, which promotes the insertion of aquaporin-2 channels in the collecting duct. This mechanism increases water reabsorption to help maintain fluid balance in the body.
Understanding Antidiuretic Hormone (ADH)
Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.
ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.
Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.
Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.
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This question is part of the following fields:
- Endocrine System
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Question 13
Incorrect
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A 39-year old male visits the GP complaining of nipple discharge. Upon examination, it is found that his serum prolactin levels are significantly high. Besides prolactin releasing hormone, which other hypothalamic hormone can stimulate the secretion of prolactin?
Your Answer: Gonadotropin releasing hormone (GnRH)
Correct Answer: Thyrotropin releasing hormone (TRH)
Explanation:Understanding Prolactin and Its Functions
Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.
The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.
Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.
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This question is part of the following fields:
- Endocrine System
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Question 14
Correct
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An 8-year-old girl has been brought to the GP by her mother who is worried that her daughter may be starting puberty too early. The mother reports an enlargement in nipple size, some breast development, and the appearance of light hairs on the edge of the labia majora.
At what Tanner stage is the girl currently?Your Answer: II
Explanation:Puberty: Normal Changes in Males and Females
Puberty is a natural process that marks the transition from childhood to adolescence. In males, the first sign of puberty is testicular growth, which typically occurs around the age of 12. Testicular volume greater than 4 ml indicates the onset of puberty. The maximum height spurt for boys occurs at the age of 14. On the other hand, in females, the first sign of puberty is breast development, which usually occurs around the age of 11.5. The height spurt for girls reaches its maximum early in puberty, at the age of 12, before menarche. Menarche, or the first menstrual period, typically occurs at the age of 13, with a range of 11-15 years. Following menarche, there is only a slight increase of about 4% in height.
During puberty, it is normal for boys to experience gynaecomastia, or the development of breast tissue. Girls may also experience asymmetrical breast growth. Additionally, diffuse enlargement of the thyroid gland may be seen in both males and females. These changes are all part of the normal process of puberty and should not be a cause for concern.
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This question is part of the following fields:
- Endocrine System
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Question 15
Incorrect
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Cortisol is mainly synthesized by which of the following?
Your Answer: Zona glomerulosa of the adrenal
Correct Answer: Zona fasciculata of the adrenal
Explanation:The adrenal gland’s zona fasciculata produces cortisol, with a relative glucocorticoid activity of 1. Prednisolone has a relative glucocorticoid activity of 4, while dexamethasone has a relative glucocorticoid activity of 25.
Cortisol: Functions and Regulation
Cortisol is a hormone produced in the zona fasciculata of the adrenal cortex. It plays a crucial role in various bodily functions and is essential for life. Cortisol increases blood pressure by up-regulating alpha-1 receptors on arterioles, allowing for a normal response to angiotensin II and catecholamines. However, it inhibits bone formation by decreasing osteoblasts, type 1 collagen, and absorption of calcium from the gut, while increasing osteoclastic activity. Cortisol also increases insulin resistance and metabolism by increasing gluconeogenesis, lipolysis, and proteolysis. It inhibits inflammatory and immune responses, but maintains the function of skeletal and cardiac muscle.
The regulation of cortisol secretion is controlled by the hypothalamic-pituitary-adrenal (HPA) axis. The pituitary gland secretes adrenocorticotropic hormone (ACTH), which stimulates the adrenal cortex to produce cortisol. The hypothalamus releases corticotrophin-releasing hormone (CRH), which stimulates the pituitary gland to release ACTH. Stress can also increase cortisol secretion.
Excess cortisol in the body can lead to Cushing’s syndrome, which can cause a range of symptoms such as weight gain, muscle weakness, and high blood pressure. Understanding the functions and regulation of cortisol is important for maintaining overall health and preventing hormonal imbalances.
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This question is part of the following fields:
- Endocrine System
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Question 16
Incorrect
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A 54-year-old man with a history of type II diabetes mellitus presents for a routine check-up. He reports no symptoms of increased urination or thirst. Laboratory results reveal an HbA1c level of 67 mmol/mol and a random plasma glucose level of 15.6 mg/l. The patient is currently taking metformin, and his physician decides to add gliclazide to his medication regimen. What is the mechanism of action of gliclazide?
Your Answer: Inhibits alpha-glucosidase enzymes
Correct Answer: Stimulates sulphonylurea-1 receptors
Explanation:The primary mode of action of gliclazide, which belongs to the sulphonylurea class, is to activate the sulphonylurea-1 receptors present on pancreatic cells, thereby promoting insulin secretion. The remaining choices pertain to alternative medications for diabetes.
Common Medications for Type 2 Diabetes
Type 2 diabetes is a chronic condition that affects millions of people worldwide. Fortunately, there are several medications available to help manage the disease. Some of the most commonly prescribed drugs include sulphonylureas, metformin, alpha-glucosidase inhibitors (such as acarbose), glitazones, and insulin.
Sulphonylureas are a type of medication that stimulates the pancreas to produce more insulin. This helps to lower blood sugar levels and improve glucose control. Metformin, on the other hand, works by reducing the amount of glucose produced by the liver and improving insulin sensitivity. Alpha-glucosidase inhibitors, like acarbose, slow down the digestion of carbohydrates in the small intestine, which helps to prevent spikes in blood sugar levels after meals.
Glitazones, also known as thiazolidinediones, improve insulin sensitivity and reduce insulin resistance. They work by activating a specific receptor in the body that helps to regulate glucose metabolism. Finally, insulin is a hormone that is naturally produced by the pancreas and helps to regulate blood sugar levels. In some cases, people with type 2 diabetes may need to take insulin injections to help manage their condition.
Overall, these medications can be very effective in helping people with type 2 diabetes to manage their blood sugar levels and prevent complications. However, it’s important to work closely with a healthcare provider to determine the best treatment plan for each individual.
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This question is part of the following fields:
- Endocrine System
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Question 17
Incorrect
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A 45-year-old male has presented to discuss the management of primary hyperparathyroidism. He was diagnosed 3 weeks ago after complaining of bone pain and gastrointestinal discomfort. Today's blood results indicate an electrolyte abnormality.
What is the most probable electrolyte abnormality that will be observed on the blood results?Your Answer: Hyperphosphataemia
Correct Answer: Hypophosphataemia
Explanation:Renal phosphate reabsorption is decreased by PTH.
When PTH levels are excessive, as seen in hyperparathyroidism, renal reabsorption is reduced, leading to low serum phosphate levels. PTH inhibits osteoblasts, not osteoclasts, resulting in an increase in plasma calcium levels. PTH is released in response to low calcium levels and works to increase calcium resorption in the kidneys. Additionally, PTH increases magnesium resorption in the kidneys.
It is important to note that PTH does not affect potassium levels.
Understanding Parathyroid Hormone and Its Effects
Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.
The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.
Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.
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This question is part of the following fields:
- Endocrine System
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Question 18
Incorrect
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A 56-year-old woman visits her primary care physician with concerns about recent weight gain. She reports maintaining her usual diet and exercise routine, but has noticed her face appearing rounder and the development of purplish stretch marks on her abdomen. During the exam, her heart rate is 89 beats per minute, respiratory rate is 16 breaths per minute, and blood pressure is 157/84 mmHg. Her waist circumference measures 41 inches and her body mass index is 28 kg/m2. What is one effect of the primary hormone involved in this patient's condition?
Your Answer: Potentiation of the immune system
Correct Answer: Upregulation of alpha-1-adrenoceptors on arterioles
Explanation:The patient is exhibiting symptoms consistent with a state of elevated cortisol levels, known as Cushing syndrome. These symptoms include recent weight gain, a round face (moon face), abdominal striae, high blood pressure, and truncal obesity. Cushing syndrome can have various causes, including the use of glucocorticoids or an ectopic ACTH secretion.
Elevated cortisol levels can lead to an increase in blood glucose levels, putting individuals at risk for hyperglycemia and diabetes. Cortisol can also suppress the immune system, inhibiting the production of prostaglandins, leukotrienes, and interleukin-2, and decreasing the adhesion of white blood cells. Additionally, cortisol can up-regulate alpha-1-adrenoceptors on arterioles, resulting in high blood pressure. High cortisol levels can also decrease osteoblast activity, leading to weakened bones, and reduce fibroblast activity and collagen synthesis, resulting in delayed wound healing. The abdominal striae seen in patients with high cortisol levels are typically due to decreased collagen synthesis.
Causes of Cushing’s Syndrome
Cushing’s syndrome is a condition that can be caused by both endogenous and exogenous factors. However, it is important to note that exogenous causes, such as the use of glucocorticoid therapy, are more common than endogenous ones. The condition can be classified into two categories: ACTH dependent and ACTH independent causes.
ACTH dependent causes of Cushing’s syndrome include Cushing’s disease, which is caused by a pituitary tumor secreting ACTH and producing adrenal hyperplasia. Ectopic ACTH production, which is caused by small cell lung cancer, is another ACTH dependent cause. On the other hand, ACTH independent causes include iatrogenic factors such as steroid use, adrenal adenoma, adrenal carcinoma, Carney complex, and micronodular adrenal dysplasia.
In some cases, a condition called Pseudo-Cushing’s can mimic Cushing’s syndrome. This is often caused by alcohol excess or severe depression and can cause false positive results in dexamethasone suppression tests or 24-hour urinary free cortisol tests. To differentiate between Cushing’s syndrome and Pseudo-Cushing’s, an insulin stress test may be used.
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This question is part of the following fields:
- Endocrine System
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Question 19
Incorrect
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A 58-year-old woman arrives at the emergency department complaining of persistent nausea and vomiting for the past 4 days. Despite taking cyclizine and metoclopramide, she has not experienced any relief. The patient is currently under palliative care for lung cancer with cerebral metastases.
Upon consultation with the palliative care team, it is decided to administer a steroid with potent glucocorticoid activity and minimal mineralocorticoid activity.
What medication is the patient expected to receive?Your Answer: Prednisolone
Correct Answer: Dexamethasone
Explanation:Dexamethasone is the most suitable example of a steroid that has very high glucocorticoid activity and minimal mineralocorticoid activity among the given options.
Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.
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This question is part of the following fields:
- Endocrine System
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Question 20
Incorrect
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A 50-year-old man with type 2 diabetes mellitus visits his GP for his annual health check-up. His HbA1c level is 86mmol/L and the GP is contemplating the addition of empagliflozin to his diabetes management plan.
What is the mechanism of action of empagliflozin?Your Answer: Inhibition of dipeptidyl peptidase 4
Correct Answer: Inhibition of the sodium-glucose transporter in the kidney
Explanation:SGLT-2 inhibitors work by blocking the action of sodium-glucose co-transporter 2 (SGLT-2) in the renal proximal convoluted tubule, which leads to a decrease in glucose re-absorption into the circulation. Empagliflozin is an example of an SGLT-2 inhibitor.
Sulphonylureas increase insulin secretion from β islet cells in the pancreas by blocking potassium channels, which causes islet cell depolarisation and release of insulin.
DPP-4 inhibitors, such as sitagliptin, prevent the breakdown of GLP-1 (glucagon-like peptide) by inhibiting the enzyme DPP-4. This leads to suppression of glucagon release and an increase in insulin release.
Acarbose inhibits α glucosidase and other enzymes in the small intestine, which prevents the breakdown of complex carbohydrates into glucose. This results in less glucose being available for absorption into the bloodstream.
Thiazolidinediones reduce insulin resistance in peripheral tissues and decrease gluconeogenesis in the liver by stimulating PPAR-γ (peroxisome proliferator-activated receptor-gamma), which modulates the transcription of genes involved in glucose metabolism.
Understanding SGLT-2 Inhibitors
SGLT-2 inhibitors are medications that work by blocking the reabsorption of glucose in the kidneys, leading to increased excretion of glucose in the urine. This mechanism of action helps to lower blood sugar levels in patients with type 2 diabetes mellitus. Examples of SGLT-2 inhibitors include canagliflozin, dapagliflozin, and empagliflozin.
However, it is important to note that SGLT-2 inhibitors can also have adverse effects. Patients taking these medications may be at increased risk for urinary and genital infections due to the increased glucose in the urine. Fournier’s gangrene, a rare but serious bacterial infection of the genital area, has also been reported. Additionally, there is a risk of normoglycemic ketoacidosis, a condition where the body produces high levels of ketones even when blood sugar levels are normal. Finally, patients taking SGLT-2 inhibitors may be at increased risk for lower-limb amputations, so it is important to closely monitor the feet.
Despite these potential risks, SGLT-2 inhibitors can also have benefits. Patients taking these medications often experience weight loss, which can be beneficial for those with type 2 diabetes mellitus. Overall, it is important for patients to discuss the potential risks and benefits of SGLT-2 inhibitors with their healthcare provider before starting treatment.
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This question is part of the following fields:
- Endocrine System
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Question 21
Correct
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A 10-year-old girl visits her pediatrician with her mother. She is worried that she hasn't started puberty yet while some of her classmates have.
The pediatrician explains to the young girl and her mother that the onset of puberty can vary and that it is considered delayed if there are no signs of puberty by the age of 13 years. The pediatrician reassures the girl that there is no need to worry and that she should be patient.
What is the first sign the girl should expect?Your Answer: Testicular enlargement
Explanation:The initial indication of male puberty is the growth of the testicles. This typically happens between the ages of 9.5 and 13.5 years and is the first sign of male puberty. Testicular enlargement is the only pubertal change present in Tanner stage 1.
During Tanner stage 2, which usually occurs between the ages of 10.5 and 14.5 years, penis growth begins.
Pubic hair development also starts during Tanner stage 2, between the ages of 9.9 and 14.0 years.
The height growth spurt occurs at age 14 and reaches a maximum of 10cm/year in Tanner.
The voice changes during Tanner stage 3, which typically happens around 13.5 years old.
Puberty: Normal Changes in Males and Females
Puberty is a natural process that marks the transition from childhood to adolescence. In males, the first sign of puberty is testicular growth, which typically occurs around the age of 12. Testicular volume greater than 4 ml indicates the onset of puberty. The maximum height spurt for boys occurs at the age of 14. On the other hand, in females, the first sign of puberty is breast development, which usually occurs around the age of 11.5. The height spurt for girls reaches its maximum early in puberty, at the age of 12, before menarche. Menarche, or the first menstrual period, typically occurs at the age of 13, with a range of 11-15 years. Following menarche, there is only a slight increase of about 4% in height.
During puberty, it is normal for boys to experience gynaecomastia, or the development of breast tissue. Girls may also experience asymmetrical breast growth. Additionally, diffuse enlargement of the thyroid gland may be seen in both males and females. These changes are all part of the normal process of puberty and should not be a cause for concern.
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This question is part of the following fields:
- Endocrine System
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Question 22
Incorrect
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A 43-year-old obese man comes to your clinic for a diabetes check-up. Despite being treated with metformin and gliclazide, his HbA1c remains elevated at 55 mmol/mol. He has previously found it difficult to follow dietary advice and lose weight. To enhance his diabetic management, you prescribe sitagliptin, a DPP-4 inhibitor. What is the mode of action of this novel medication?
Your Answer: Stimulates the release of insulin from beta cells in the pancreas
Correct Answer: Inhibits the breakdown of incretins
Explanation:DPP-4 inhibitors, GLP-1 agonists, SGLT-2 inhibitors, thiazolidinediones, and sulfonylureas are all medications used to treat diabetes. DPP-4 inhibitors work by inhibiting the breakdown of incretins such as GLP-1 and GIP, which are released in response to food and help to lower blood glucose levels. GLP-1 agonists directly stimulate incretin receptors, while SGLT-2 inhibitors increase the urinary secretion of glucose. Thiazolidinediones stimulate intracellular signaling molecules responsible for glucose and lipid metabolism, and sulfonylureas stimulate beta cells to secrete more insulin. However, sulfonylureas may be less effective in long-standing diabetes as many beta cells may no longer function properly.
Diabetes mellitus is a condition that has seen the development of several drugs in recent years. One hormone that has been the focus of much research is glucagon-like peptide-1 (GLP-1), which is released by the small intestine in response to an oral glucose load. In type 2 diabetes mellitus (T2DM), insulin resistance and insufficient B-cell compensation occur, and the incretin effect, which is largely mediated by GLP-1, is decreased. GLP-1 mimetics, such as exenatide and liraglutide, increase insulin secretion and inhibit glucagon secretion, resulting in weight loss, unlike other medications. They are sometimes used in combination with insulin in T2DM to minimize weight gain. Dipeptidyl peptidase-4 (DPP-4) inhibitors, such as vildagliptin and sitagliptin, increase levels of incretins by decreasing their peripheral breakdown, are taken orally, and do not cause weight gain. Nausea and vomiting are the major adverse effects of GLP-1 mimetics, and the Medicines and Healthcare products Regulatory Agency has issued specific warnings on the use of exenatide, reporting that it has been linked to severe pancreatitis in some patients. NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated, or the person has had a poor response to a thiazolidinedione.
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This question is part of the following fields:
- Endocrine System
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Question 23
Incorrect
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A 29-year-old female presents to the emergency department after a mixed overdose. According to her parents, she had locked herself in her room after an argument and they found her drowsy on the floor after forcing open the door. The patient has a history of depression and previous suicide attempts. Her grandmother's medical box, containing paracetamol, gliclazide, bisoprolol, and atorvastatin, was found empty, but the amount ingested is unknown. On examination, the patient is sweaty with a global tremor and is confused. She is tachycardic and appears generally weak.
Which molecule is likely to be the first produced by the patient in response to the overdose?Your Answer: Glycogen phosphorylase
Correct Answer: Glucagon
Explanation:The initial hormone response to hypoglycaemia is the secretion of glucagon. In the case of a suspected gliclazide overdose, the most likely presentation would be hypoglycaemia, as evidenced by the patient’s sudden onset of sweating, weakness, and confusion. Other medications ingested are unlikely to produce these symptoms. When the body experiences hypoglycaemia, it first reduces insulin production and then increases glucagon secretion, which promotes gluconeogenesis to raise blood glucose levels.
Glycogen synthase is an enzyme involved in glycogenesis, the process of converting glucose into glycogen for storage in the body. However, in the case of hypoglycaemia caused by gliclazide ingestion, the body would carry out gluconeogenesis to release glucose, rather than glycogenesis.
While cortisol is released in response to hypoglycaemia, it is a later response and is secreted after glucagon. Cortisol is a glucocorticoid hormone that also promotes gluconeogenesis and glucose production.
Glutathione is an antioxidant found in the liver that helps neutralize and eliminate the toxic metabolite N-acetyl-p-benzoquinone imine (NAPQI) produced by paracetamol. In cases of paracetamol overdose, glutathione levels are depleted, but this patient’s symptoms are too acute for a paracetamol overdose. Liver failure resulting from paracetamol overdose takes several hours to develop and even longer before physical symptoms appear. The antidote treatment for paracetamol overdose is acetylcysteine, which replenishes glutathione levels.
Understanding Hypoglycaemia: Causes, Features, and Management
Hypoglycaemia is a condition characterized by low blood sugar levels, which can lead to a range of symptoms and complications. There are several possible causes of hypoglycaemia, including insulinoma, liver failure, Addison’s disease, and alcohol consumption. The physiological response to hypoglycaemia involves hormonal and sympathoadrenal responses, which can result in autonomic and neuroglycopenic symptoms. While blood glucose levels and symptom severity are not always correlated, common symptoms of hypoglycaemia include sweating, shaking, hunger, anxiety, nausea, weakness, vision changes, confusion, and dizziness. In severe cases, hypoglycaemia can lead to convulsions or coma.
Managing hypoglycaemia depends on the severity of the symptoms and the setting in which it occurs. In the community, individuals with diabetes who inject insulin may be advised to consume oral glucose or a quick-acting carbohydrate such as GlucoGel or Dextrogel. A ‘HypoKit’ containing glucagon may also be prescribed for home use. In a hospital setting, treatment may involve administering a quick-acting carbohydrate or subcutaneous/intramuscular injection of glucagon for unconscious or unable to swallow patients. Alternatively, intravenous glucose solution may be given through a large vein.
Overall, understanding the causes, features, and management of hypoglycaemia is crucial for individuals with diabetes or other conditions that increase the risk of low blood sugar levels. Prompt and appropriate treatment can help prevent complications and improve outcomes.
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This question is part of the following fields:
- Endocrine System
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Question 24
Incorrect
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A patient with a recent diagnosis of schizophrenia at the age of 40 is prescribed risperidone. During their consultation with the doctor, they are informed that some of the potential side effects are caused by elevated levels of prolactin.
What is the mechanism behind this occurrence?Your Answer: Inhibition of histamine activity
Correct Answer: Inhibition of dopamine activity
Explanation:Dopamine plays a crucial role in inhibiting the release of prolactin. As atypical antipsychotics like risperidone block dopamine activity, they can lead to increased levels of prolactin. While these drugs may also inhibit histamine and serotonin to varying degrees, it is the inhibition of dopamine that is directly linked to prolactin release. Stimulation of dopamine or serotonin activity would not interfere with prolactin release in the same way that dopamine inhibition does.
Understanding Prolactin and Its Functions
Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.
The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.
Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.
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This question is part of the following fields:
- Endocrine System
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Question 25
Incorrect
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A 4-month-old boy is being evaluated for possible hypospadias. In boys with this condition, where is the urethral opening most commonly found?
Your Answer: At the base of the scrotum
Correct Answer: On the distal ventral surface of the penis
Explanation:The anomaly is typically situated on the underside and frequently towards the end. Urethral openings found closer to the body are a known occurrence. Surgical removal of the foreskin may hinder the process of repairing the defect.
Understanding Hypospadias: A Congenital Abnormality of the Penis
Hypospadias is a congenital abnormality of the penis that affects approximately 3 out of 1,000 male infants. It is usually identified during the newborn baby check, but if missed, parents may notice an abnormal urine stream. This condition is characterized by a ventral urethral meatus, a hooded prepuce, and chordee in more severe forms. In some cases, the urethral meatus may open more proximally in the more severe variants, but 75% of the openings are distally located.
There appears to be a significant genetic element to hypospadias, with further male children having a risk of around 5-15%. While it most commonly occurs as an isolated disorder, associated conditions include cryptorchidism (present in 10%) and inguinal hernia.
Once hypospadias has been identified, infants should be referred to specialist services. Corrective surgery is typically performed when the child is around 12 months of age. It is essential that the child is not circumcised prior to the surgery as the foreskin may be used in the corrective procedure. In boys with very distal disease, no treatment may be needed.
Overall, understanding hypospadias is important for parents and healthcare providers to ensure proper management and treatment for affected infants.
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This question is part of the following fields:
- Endocrine System
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Question 26
Incorrect
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A 50-year-old man with type 2 diabetes mellitus, who is currently on metformin, visits for his diabetic check-up. His blood sugar levels are not well-controlled and the doctor decides to prescribe gliclazide in addition to his current medication. During the consultation, the doctor discusses the potential side effects of sulfonylureas. What is a possible side effect of sulfonylureas?
Your Answer: Fluid retention
Correct Answer: Hypoglycaemia
Explanation:Hypoglycaemia is a significant adverse effect of sulfonylureas, including gliclazide, which stimulate insulin secretion from the pancreas. Patients taking sulfonylureas should be educated about the possibility of hypoglycaemia and instructed on how to manage it if it occurs. Acarbose commonly causes flatulence, while PPAR agonists (glitazones) can lead to fluid retention, and metformin may cause nausea and diarrhoea.
Sulfonylureas are a type of medication used to treat type 2 diabetes mellitus. They work by increasing the amount of insulin produced by the pancreas, but only if the beta cells in the pancreas are functioning properly. Sulfonylureas bind to a specific channel on the cell membrane of pancreatic beta cells, known as the ATP-dependent K+ channel (KATP).
While sulfonylureas can be effective in managing diabetes, they can also cause some adverse effects. The most common side effect is hypoglycemia, which is more likely to occur with long-acting preparations like chlorpropamide. Another common side effect is weight gain. However, there are also rarer side effects that can occur, such as hyponatremia (low sodium levels) due to inappropriate ADH secretion, bone marrow suppression, hepatotoxicity (liver damage), and peripheral neuropathy.
It is important to note that sulfonylureas should not be used during pregnancy or while breastfeeding.
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This question is part of the following fields:
- Endocrine System
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Question 27
Incorrect
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A 44-year-old man has been diagnosed with type II diabetes mellitus but cannot tolerate metformin therapy. What is the mechanism of action of alogliptin, which has been prescribed as an alternative?
Your Answer: Inhibits the SGLT2 receptor
Correct Answer: Reduce the peripheral breakdown of incretins
Explanation:Gliptins (DPP-4 inhibitors) work by inhibiting the enzyme DPP-4, which reduces the breakdown of incretin hormones such as GLP-1. This leads to a glucose-dependent increase in insulin secretion and a reduction in glucagon secretion, ultimately regulating glucose homeostasis. However, gliptins do not increase the production of GLP-1, directly stimulate the release of insulin from pancreatic beta cells, inhibit the SGLT2 receptor, or reduce insulin resistance.
Diabetes mellitus is a condition that has seen the development of several drugs in recent years. One hormone that has been the focus of much research is glucagon-like peptide-1 (GLP-1), which is released by the small intestine in response to an oral glucose load. In type 2 diabetes mellitus (T2DM), insulin resistance and insufficient B-cell compensation occur, and the incretin effect, which is largely mediated by GLP-1, is decreased. GLP-1 mimetics, such as exenatide and liraglutide, increase insulin secretion and inhibit glucagon secretion, resulting in weight loss, unlike other medications. They are sometimes used in combination with insulin in T2DM to minimize weight gain. Dipeptidyl peptidase-4 (DPP-4) inhibitors, such as vildagliptin and sitagliptin, increase levels of incretins by decreasing their peripheral breakdown, are taken orally, and do not cause weight gain. Nausea and vomiting are the major adverse effects of GLP-1 mimetics, and the Medicines and Healthcare products Regulatory Agency has issued specific warnings on the use of exenatide, reporting that it has been linked to severe pancreatitis in some patients. NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated, or the person has had a poor response to a thiazolidinedione.
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This question is part of the following fields:
- Endocrine System
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Question 28
Incorrect
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A 38-year-old woman is diagnosed with hyperthyroidism and started on carbimazole. What is the mechanism of action of this medication?
Your Answer: Enhances thyroid peroxidase
Correct Answer: Prevents iodination of the tyrosine residue on thyroglobulin
Explanation:Carbimazole is a medication used to treat thyrotoxicosis, a condition where the thyroid gland produces too much thyroid hormone. It is usually given in high doses for six weeks until the patient’s thyroid hormone levels become normal, after which the dosage is reduced. The drug works by blocking thyroid peroxidase, an enzyme that is responsible for coupling and iodinating the tyrosine residues on thyroglobulin, which ultimately leads to a reduction in thyroid hormone production. In contrast, propylthiouracil has a dual mechanism of action, inhibiting both thyroid peroxidase and 5′-deiodinase, which reduces the peripheral conversion of T4 to T3.
However, carbimazole is not without its adverse effects. One of the most serious side effects is agranulocytosis, a condition where the body’s white blood cell count drops significantly, making the patient more susceptible to infections. Additionally, carbimazole can cross the placenta and affect the developing fetus, although it may be used in low doses during pregnancy under close medical supervision. Overall, carbimazole is an effective medication for managing thyrotoxicosis, but its potential side effects should be carefully monitored.
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This question is part of the following fields:
- Endocrine System
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Question 29
Correct
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A 49-year-old woman has been diagnosed with a phaeochromocytoma. What is the primary amino acid from which catecholamines are derived?
Your Answer: Tyrosine
Explanation:Tyrosine serves as the precursor for catecholamine hormones, which undergo modification by a DOPA decarboxylase enzyme to form dopamine. Subsequently, through two additional enzymatic alterations, dopamine is converted to noradrenaline and ultimately adrenaline.
Adrenal Physiology: Medulla and Cortex
The adrenal gland is composed of two main parts: the medulla and the cortex. The medulla is responsible for secreting the catecholamines noradrenaline and adrenaline, which are released in response to sympathetic nervous system stimulation. The chromaffin cells of the medulla are innervated by the splanchnic nerves, and the release of these hormones is triggered by the secretion of acetylcholine from preganglionic sympathetic fibers. Phaeochromocytomas, which are tumors derived from chromaffin cells, can cause excessive secretion of both adrenaline and noradrenaline.
The adrenal cortex is divided into three distinct zones: the zona glomerulosa, zona fasciculata, and zona reticularis. Each zone is responsible for secreting different hormones. The outer zone, zona glomerulosa, secretes aldosterone, which regulates electrolyte balance and blood pressure. The middle zone, zona fasciculata, secretes glucocorticoids, which are involved in the regulation of metabolism, immune function, and stress response. The inner zone, zona reticularis, secretes androgens, which are involved in the development and maintenance of male sex characteristics.
Most of the hormones secreted by the adrenal cortex, including glucocorticoids and aldosterone, are bound to plasma proteins in the circulation. Glucocorticoids are inactivated and excreted by the liver. Understanding the physiology of the adrenal gland is important for the diagnosis and treatment of various endocrine disorders.
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This question is part of the following fields:
- Endocrine System
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Question 30
Incorrect
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A 9-year-old girl is being treated by a paediatrician for bedwetting at night. Non-invasive methods have not yielded any results and her family is interested in trying medication. The paediatrician has approved a trial of desmopressin.
What is the site of action of this drug?Your Answer:
Correct Answer: The collecting ducts of the kidney
Explanation:Desmopressin is a synthetic version of antidiuretic hormone (ADH) that acts on the collecting ducts in the kidneys. ADH is released by the posterior pituitary gland in response to increased blood osmolality. By increasing the reabsorption of solute-free water in the collecting ducts, ADH reduces blood osmolality and produces small volumes of concentrated urine. This mechanism is effective in reducing the volume of urine produced overnight in cases of nocturnal enuresis (bed-wetting). The distal tubule, glomerulus, and proximal tubule are not sites of ADH action. Although the posterior pituitary gland produces ADH, it exerts its effects on the kidneys.
Understanding Antidiuretic Hormone (ADH)
Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.
ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.
Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.
Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.
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This question is part of the following fields:
- Endocrine System
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