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  • Question 1 - A 17-year-old female is seeking a termination and she is currently 16 weeks...

    Correct

    • A 17-year-old female is seeking a termination and she is currently 16 weeks pregnant.
      At what point in the pregnancy does the law impose more restrictions on obtaining a termination?

      Your Answer: 24 weeks

      Explanation:

      Abortion Law in the UK

      The Abortion Act 1967, which was amended by the Human Fertilisation and Embryology Act 1990, governs the law on abortion in the UK. According to this law, an abortion can be carried out until 24 weeks of pregnancy if two doctors agree that continuing with the pregnancy would pose a risk to the physical or psychological health of the mother or her existing children.

      If the pregnancy has progressed beyond 24 weeks, an abortion can only be carried out if two doctors agree that the woman’s health is gravely threatened by the pregnancy or if the infant is likely to be born with severe physical or mental abnormalities. It is important to note that there is no time limit on procuring an abortion if these criteria are met.

      In summary, the law on abortion in the UK allows for abortions to be carried out up to 24 weeks if there is a risk to the mother’s health or the health of her existing children. After 24 weeks, an abortion can only be carried out if the woman’s health is at risk or if the infant is likely to be born with severe physical or mental abnormalities.

    • This question is part of the following fields:

      • Clinical Sciences
      42.2
      Seconds
  • Question 2 - A 20-year-old medical student comes to you with complaints of shoulder pain and...

    Correct

    • A 20-year-old medical student comes to you with complaints of shoulder pain and limited mobility after a rough tackle during a rugby match. Upon examination, you observe that his shoulder is visibly dislocated, leading you to suspect an anterior shoulder dislocation. Can you identify which nerve is most vulnerable to injury in this case?

      Your Answer: Axillary nerve

      Explanation:

      Nerve Injuries in the Upper Arm

      When the proximal humerus moves downward, it can cause damage to the nerves of the brachial plexus, particularly the axillary nerve. Signs of axillary nerve damage include sensory loss on the lateral side of the upper arm, inability to raise the arm (deltoid), and weakened lateral rotation (teres minor).

      Other nerve injuries in the upper arm include median nerve damage, which can cause tingling in the thumb and first two and a half digits, as well as loss of function in the thenar muscles. Musculocutaneous nerve damage can lead to tingling in the lateral forearm and inability to flex the elbow. Radial nerve damage can cause tingling in the posterior compartment of the forearm and dorsum of the hand, as well as wrist drop. Ulnar nerve damage can result in tingling in the little finger and medial half of the ring finger, as well as loss of grip strength.

    • This question is part of the following fields:

      • Clinical Sciences
      16.1
      Seconds
  • Question 3 - What medication enhances the body's metabolic rate? ...

    Correct

    • What medication enhances the body's metabolic rate?

      Your Answer: Thyroxine

      Explanation:

      Medications and Their Effects on Metabolic Rate

      Medications can have varying effects on the body’s metabolic rate. Some medications are known to decrease metabolic rate, such as sedatives, beta blockers like propranolol, sulphonylureas used to treat diabetes, and certain chemotherapy agents. These medications can slow down the body’s processes and lead to a decrease in energy expenditure.

      On the other hand, there are medications that can increase metabolic rate. Thyroxine, a hormone produced by the thyroid gland, is known to increase metabolic rate. Recombinant human growth hormone, which is used to treat growth hormone deficiency, can also increase metabolic rate. These medications can speed up the body’s processes and lead to an increase in energy expenditure.

      It is important to note that the effects of medications on metabolic rate can vary from person to person and may depend on factors such as dosage and individual health conditions. It is always recommended to consult with a healthcare provider before starting or stopping any medication.

    • This question is part of the following fields:

      • Clinical Sciences
      7.7
      Seconds
  • Question 4 - What is the likely arrangement of openings in the cellular membrane? ...

    Incorrect

    • What is the likely arrangement of openings in the cellular membrane?

      Your Answer: A phospholipid molecule entrapped in the membrane

      Correct Answer: A protein molecule in the membrane with a channel through it

      Explanation:

      Composition and Structure of the Cell Membrane

      The cell membrane is made up of a lipid matrix that primarily consists of phospholipids, cholesterol, and triglycerides. This lipid matrix is interspersed with large protein molecules that have channels running through them, which act as tiny pores. These pores allow for the selective transport of molecules in and out of the cell. The cell membrane is a crucial component of all living cells, as it serves as a barrier between the cell and its environment, regulating the flow of substances in and out of the cell. Its composition and structure are essential for maintaining the integrity and function of the cell.

    • This question is part of the following fields:

      • Clinical Sciences
      58.6
      Seconds
  • Question 5 - A 39-year-old man of South Asian descent is experiencing a productive cough with...

    Incorrect

    • A 39-year-old man of South Asian descent is experiencing a productive cough with occasional pink-coloured sputum for the past two weeks. He has also been having a fever, night sweats, and unintentional weight loss during this period. Upon examination, a chest x-ray confirms the diagnosis, revealing cavitary patterns in the superior lobe of the right lung, with more radiopaque walls of the air-filled cavities. What serum electrolyte is most likely to be elevated in this patient?

      Your Answer: Na+

      Correct Answer: Ca2+

      Explanation:

      The Link Between Granulomatous Diseases and Hypercalcaemia

      In diseases such as tuberculosis and sarcoidosis, where granuloma formation is the main pathological mechanism, activated macrophages increase serum levels of calcium. This is due to the production of calcitriol or the active form of vitamin D, which increases calcium absorption in the small intestine and reabsorption in the renal parenchyma.

      Normally, hypercalcaemia inhibits the release of parathyroid hormone (PTH), which reduces osteoclastic activity and decreases the amount of calcitriol being released. However, in granulomatous diseases, sustained activation of macrophages produces increased amounts of calcitriol without regard to the negative feedback mechanism. As a result, the walls of air-filled cavities become calcified due to the sustained hypercalcaemia, making them more radiopaque.

      In summary, granulomatous diseases can lead to hypercalcaemia due to sustained activation of macrophages and increased production of calcitriol. This can result in calcification of air-filled cavities and increased radiopacity.

    • This question is part of the following fields:

      • Clinical Sciences
      50.3
      Seconds
  • Question 6 - What is the hormone that can be synthesized from cholesterol in the adrenal...

    Incorrect

    • What is the hormone that can be synthesized from cholesterol in the adrenal glands?

      Your Answer: Thyroid hormone

      Correct Answer: Cortisol

      Explanation:

      The Role of Cholesterol in Hormone Production

      Cholesterol plays a crucial role in the production of steroid hormones, which are essential for various bodily functions. These hormones are produced in the adrenal glands and include progesterone, cortisol, aldosterone, oestrogens, and androgens. Progesterone is important in pregnancy, while cortisol and other glucocorticoids are required by all body cells and play a role in the fight-or-flight response and glucose homeostasis. Aldosterone regulates salt and water balance, while oestrogens and androgens are required for the development of female and male characteristics, respectively.

      The production of steroid hormones is a complex process that involves multiple pathways and is influenced by various factors such as the body’s metabolic needs and the abundance of hormones already present in the cell. Enzyme mutations or deficiencies in this pathway can lead to disorders that affect salt and water balance and reproductive function, such as congenital adrenal hyperplasia.

      In addition to steroid hormones, other hormones such as antidiuretic hormone and oxytocin are produced in the posterior pituitary gland, while thyroid hormone is made in the thyroid gland in the neck and parathyroid hormone is made in the parathyroid glands located behind the thyroid gland. the role of cholesterol in hormone production is crucial for maintaining overall health and preventing hormonal imbalances.

    • This question is part of the following fields:

      • Clinical Sciences
      15.2
      Seconds
  • Question 7 - A teenager presents to the emergency department, having accidentally stabbed himself in the...

    Incorrect

    • A teenager presents to the emergency department, having accidentally stabbed himself in the hand with a knife whilst cooking two days ago.

      On examination there is extreme tenderness and audible crackling when you press in the palm of the hand, just around the wound.

      What is the most likely organism?

      Your Answer: Streptococcus pyogenes

      Correct Answer: Clostridium perfringens

      Explanation:

      Gas Gangrene: A Deadly Infection

      Gas gangrene, also known as necrotising fasciitis, is a severe infection that affects the skin and underlying soft tissue. While Streptococcus species are often the cause of this condition, the patient’s history suggests that a clostridial infection is more likely. Clostridium perfringens is the most common cause of gas gangrene, and its spores can be found in soil and human or animal faeces. This bacterium produces a potent toxin called alpha toxin or lecithinase, which rapidly breaks down skin and muscle, leading to the formation of gas bubbles.

      The treatment for gas gangrene involves urgent surgical debridement and antibiotics.

    • This question is part of the following fields:

      • Clinical Sciences
      18.7
      Seconds
  • Question 8 - A 23-year-old semi-professional rugby player is playing a game when he is tackled...

    Incorrect

    • A 23-year-old semi-professional rugby player is playing a game when he is tackled by other players and experiences a dislocation at the glenohumeral joint.

      What is the structure responsible for deepening the glenoid fossa?

      Your Answer:

      Correct Answer: Glenoid labrum

      Explanation:

      The Glenoid Labrum and Other Shoulder Joint Structures

      The glenoid labrum is a type of cartilage that helps to deepen the glenoid cavity, which is a shallow depression on the lateral border of the scapula bone. This cavity forms the glenohumeral joint with the humerus bone, and the labrum helps to stabilize this joint. If the labrum is injured, it can lead to recurrent dislocations of the shoulder joint.

      Another important structure in the shoulder joint is the conoid ligament, which is an extension of the coracoclavicular ligament. This ligament helps to connect the clavicle bone to the scapula bone and provides additional stability to the joint.

      The inferior and superior angles are two points on the scapula bone that refer to the lower and upper corners of the bone, respectively. These angles are important landmarks for identifying the position and orientation of the scapula in relation to other bones in the shoulder joint.

      Overall, the glenoid labrum, conoid ligament, and angles of the scapula are all important structures that contribute to the stability and function of the shoulder joint. these structures can help healthcare professionals diagnose and treat injuries and conditions that affect the shoulder joint.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 9 - A 10-year-old patient presents with recurrent skin cancer and is diagnosed with xeroderma...

    Incorrect

    • A 10-year-old patient presents with recurrent skin cancer and is diagnosed with xeroderma pigmentosum. What is the defective biochemical mechanism in this disease?

      Your Answer:

      Correct Answer: DNA excision repair

      Explanation:

      DNA and its Processes

      Deoxyribonucleic acid (DNA) found in the epidermal cells absorbs UV light, which results in the formation of pyrimidine dimers. These dimers are then removed through the process of excision repair, where the DNA is copied and re-annealed. Failure in this process can lead to mutations in tumour suppressor genes or oncogenes, which can cause malignancy.

      DNA polymerisation is the process of synthesizing DNA from nucleotides, which is driven by the enzyme DNA polymerase. On the other hand, mRNA splicing is the removal of introns from RNA to allow for exons to join together before coding. Lastly, nucleotide transition refers to a point mutation of nucleotides, such as in sickle cell anaemia. these processes is crucial in comprehending the role of DNA in the body and how it can affect our health.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 10 - What is the final product of glucose breakdown in the absence of oxygen?...

    Incorrect

    • What is the final product of glucose breakdown in the absence of oxygen?

      Your Answer:

      Correct Answer: Lactate

      Explanation:

      Anaerobic Metabolism and Lactic Acidosis

      During anaerobic metabolism, glucose can be broken down through the glycolysis pathway without the need for oxygen. This process generates pyruvate, but without oxygen, it cannot be further metabolized through the Kreb cycle or electron transfer chain to produce energy. Instead, pyruvate is converted into lactate, which yields two molecules of ATP. While small periods of anaerobic respiration are tolerable, excessive accumulation of lactate can lead to lactic acidosis, which reduces cellular pH. This reduction in pH can cause enzyme dysfunction, compromising cell function and ultimately leading to cell death.

      During intense exercise, muscle tissue relies on lactate as a quick source of ATP. The lactate produced can diffuse out of the cells and into the bloodstream, where it is taken up by other cells that can regenerate pyruvate from it. This pyruvate can then enter the Kreb cycle to produce more energy.

      However, in patients with serious illnesses where oxygen delivery to the body’s tissues is compromised, lactic acidosis can occur. This includes conditions such as pneumonia, heart failure, and chronic obstructive pulmonary disease. In these cases, the body may rely more heavily on anaerobic metabolism, leading to an accumulation of lactate and a decrease in cellular pH, which can have serious consequences for cell function and survival.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 11 - A neonatal hearing screening program screened 10,000 newborns using otoacoustic emissions (OAE), which...

    Incorrect

    • A neonatal hearing screening program screened 10,000 newborns using otoacoustic emissions (OAE), which has a sensitivity of 80%. Out of the screened subjects, 200 failed the test and were invited for a brainstem auditory evoked potential (BAEP) test, which is the gold standard for diagnosing hearing impairment in newborns. The BAEP test confirmed that 100 of the 200 subjects had hearing impairment. What is the correct statement regarding this scenario?

      Your Answer:

      Correct Answer: If the prevalence of hearing impairment increases, the positive predictive value of OAE will increase

      Explanation:

      The Impact of Disease Prevalence on Screening Test Results

      Screening tests are commonly used to detect the presence of a disease in a population. The accuracy of a screening test is typically measured by its sensitivity and specificity, which are not significantly affected by the prevalence of the disease. However, the positive predictive value (PPV) and negative predictive value (NPV) of a screening test can be influenced by disease prevalence.

      When the prevalence of a disease increases, the PPV of a screening test will also increase. This means that a positive test result is more likely to be a true positive when the disease is more common in the population. On the other hand, the NPV of a screening test will decrease as disease prevalence increases. This means that a negative test result is less likely to be a true negative when the disease is more prevalent.

      Therefore, it is important to consider disease prevalence when interpreting the results of a screening test. A high PPV indicates a greater likelihood of disease presence, while a low NPV suggests a higher risk of false negatives. Healthcare professionals should take into account the prevalence of the disease in the population being screened to accurately interpret the results of a screening test.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 12 - What is the enzyme necessary for the production of glycogen? ...

    Incorrect

    • What is the enzyme necessary for the production of glycogen?

      Your Answer:

      Correct Answer: Glycogen synthase

      Explanation:

      Enzymes Involved in Glycogen Formation

      Glycogen formation is a complex process that requires the involvement of several enzymes. One of the key enzymes involved in this process is glycogen synthase, which is responsible for extending the length of glucose chains within glycogen. This is achieved by creating α1-4 glycosidic linkages between glucose molecules to form a long chain.

      However, the branching on the glycogen chain is created by another enzyme known as the branching enzyme or transferase enzyme. This enzyme produces α1-6 glycosidic linkages, which create branch points on the glycogen chain.

      It is important to note that the debranching enzyme and glycogen phosphorylase are not involved in glycogen production but are instead used in the breakdown of glycogen. Similarly, phosphofructokinase is an enzyme in the glycolysis pathway, while pyruvate carboxylase is required for gluconeogenesis.

      In summary, glycogen formation is a complex process that involves several enzymes, including glycogen synthase and the branching enzyme. These enzymes work together to create the long chains and branch points that make up glycogen.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 13 - A 50-year-old ex-alcoholic patient complains of significant weight loss, jaundice, and experiences pain...

    Incorrect

    • A 50-year-old ex-alcoholic patient complains of significant weight loss, jaundice, and experiences pain in his right shoulder. Upon diagnosis, he is found to have hepatocellular carcinoma. Which nerve root is most likely responsible for the shoulder tip pain?

      Your Answer:

      Correct Answer: C4

      Explanation:

      Shoulder Tip Pain and Diaphragmatic Irritation

      Shoulder tip pain can be a sign of diaphragmatic irritation, which is caused by the musculo-tendinous structure that is innervated by the phrenic nerve (C3, C4, C5). This irritation can present as shoulder pain because part of the shoulder is supplied by C4 cutaneous nerves. There are many different conditions that can irritate the diaphragm, including diseases of the liver, stomach, kidneys, and lungs.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 14 - A woman in her 30s presents with an elevated alkaline phosphatase (ALP) level...

    Incorrect

    • A woman in her 30s presents with an elevated alkaline phosphatase (ALP) level during pregnancy. All other liver function tests are within normal range and she reports feeling well. What is the probable cause of this finding?

      Your Answer:

      Correct Answer: Placental production of ALP

      Explanation:

      Alkaline Phosphatase and Its Causes

      Alkaline phosphatase is an enzyme that can be found in various tissues in the body, making it a common part of liver function tests. An elevated level of ALP can be caused by different factors, including isoenzymes from the liver or bone, as well as the placenta in pregnant women. In children, elevated ALP levels are usually physiological and signify bone growth. However, transient hyperphosphatasia of infancy can cause a more dramatic increase in ALP, which is benign and resolves after a few months.

      Liver disease can also cause an increase in ALP, particularly with hepatobiliary obstruction, such as pancreatic carcinoma or a gallstone in the common bile duct. When bile drainage is obstructed, ALP synthesis increases significantly. On the other hand, liver diseases that predominantly cause hepatocellular damage will cause a lesser degree of ALP elevation.

      ALP also aids in the calcification process in bone and is found in osteoblasts. Therefore, any disease affecting bone turnover and calcification, including Paget’s disease, vitamin D deficiency, primary and secondary hyperparathyroidism, bone malignancies, and fracture healing, can cause abnormal ALP levels. Paget’s disease, which involves increased bone turnover, is a relatively common finding in older patients and can cause various symptoms such as tender bone/skull overgrowth, sensorineural deafness, pathological fractures, and rarely, high output cardiac failure.

      In summary, the causes of elevated ALP levels can help in diagnosing and managing various conditions affecting the liver and bone.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 15 - You are attending a seminar on adolescent eating disorders.
    What hormonal alteration is common...

    Incorrect

    • You are attending a seminar on adolescent eating disorders.
      What hormonal alteration is common in post-pubertal teenagers with extreme undernourishment?

      Your Answer:

      Correct Answer: Hypogonadotrophic hypogonadism

      Explanation:

      Endocrine System Adaptations during Starvation

      During periods of starvation or severe malnutrition, the body undergoes various adaptations to cope with reduced food intake. One of the systems affected is the endocrine system, which experiences several changes. Glucagon levels increase, stimulating gluconeogenesis, while aldosterone, epinephrine, norepinephrine, and growth hormone levels also rise. Conversely, insulin production decreases, and there is a reduction in free and total T3, contributing to a lower metabolic rate. Prolonged starvation can also lead to a decrease in free T4. Hypogonadotrophic hypogonadism may occur, causing infertility, menstrual disturbances, amenorrhea, premature ovarian failure, and osteoporosis in women. Men may experience infertility, erectile dysfunction, and osteoporosis.

      In summary, the endocrine system undergoes significant adaptations during starvation or severe malnutrition. These changes include alterations in hormone levels, such as increased glucagon and decreased insulin production, as well as reduced free and total T3. Hypogonadotrophic hypogonadism may also occur, leading to various reproductive and bone-related issues. these adaptations is crucial in managing individuals experiencing starvation or malnutrition.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 16 - A 27-year-old patient with anorexia nervosa has been admitted from home for nutritional...

    Incorrect

    • A 27-year-old patient with anorexia nervosa has been admitted from home for nutritional support. Following her initial oral feed, her phosphate level has decreased from 0.5 mmol/L to 0.1 mmol/L (reference range 0.7-1.4). What could be the reason for her hypophosphataemia?

      Your Answer:

      Correct Answer: Phosphate enters the body's cells

      Explanation:

      Refeeding Syndrome

      Refeeding syndrome is a potentially fatal condition that can occur after a prolonged period of fasting or poor nutritional intake followed by a meal high in carbohydrates. It is characterized by a rapid decrease in the serum levels of phosphate, potassium, and magnesium, all of which are already depleted in the body. This happens because glucose availability within the blood causes insulin secretion while glucagon secretion is reduced. Insulin stimulates glycogen, adipose and protein synthesis and enhances the action of the Na-K-ATPase pump in cell membranes, which draws glucose into the cells. Many minerals and cofactors are also drawn into the cells to support these metabolic processes.

      The condition is particularly dangerous for patients with starvation, anorexia nervosa, gastrointestinal conditions that impede adequate nutrition, and poor nutrition due to severe illness such as cancer cachexia. In healthy patients, phosphate ions enter the body’s cells under the influence of insulin after a meal, and the phosphate concentration in blood remains within the reference range. However, in patients with refeeding syndrome, a meal can stimulate marked phosphate entry into cells, causing profound hypophosphataemia. This can lead to cardiac arrhythmias and other life-threatening complications. Therefore, it is important to monitor patients at risk of refeeding syndrome closely and provide appropriate nutritional support to prevent this condition.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 17 - What is the accurate statement about Purkinje fibers in the myocardium? ...

    Incorrect

    • What is the accurate statement about Purkinje fibers in the myocardium?

      Your Answer:

      Correct Answer: Have a conduction velocity about four to six times the rate seen in heart muscle

      Explanation:

      Purkinje Fibres: Conductors of the Cardiac Impulse

      Purkinje fibres are specialized muscle fibres found in the ventricular myocardium of the heart. These fibres are responsible for conducting the cardiac impulse at a much faster rate than normal cardiac muscle, typically four to six times faster. Unlike neuronal axons, Purkinje fibres are not myelinated.

      Disorders of Purkinje fibres can lead to various arrhythmias, including ventricular fibrillation, even in patients with structurally normal hearts. It is important to understand the role of Purkinje fibres in the heart’s electrical conduction system to diagnose and treat these conditions effectively. Proper functioning of Purkinje fibres is crucial for maintaining a healthy heart rhythm.

    • This question is part of the following fields:

      • Clinical Sciences
      0
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  • Question 18 - A 4-year-old girl is rushed to the emergency department by her father due...

    Incorrect

    • A 4-year-old girl is rushed to the emergency department by her father due to breathing difficulties. He suspects that she may have ingested a small toy while he was not looking.

      Which of the following statements accurately describes the lower respiratory tract?

      Your Answer:

      Correct Answer: The right main bronchus is more vertical than the left

      Explanation:

      Anatomy of the Bronchial Tree

      The trachea divides into two bronchi at the sternal angle, with the right bronchus being wider, shorter, and more vertical than the left. This anatomical difference makes it more likely for foreign objects to become lodged in the right bronchus. However, this difference only occurs after the age of one, so younger children are at equal risk for foreign body aspiration in either bronchus.

      Each main bronchus further divides into lobar bronchi, with the left having two and the right having three. These lobar bronchi then give rise to tertiary or segmental bronchi, which supply a specific bronchopulmonary segment. These segments are anatomically and functionally separate from each other and can be removed without affecting the surrounding lung tissue.

    • This question is part of the following fields:

      • Clinical Sciences
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  • Question 19 - What is the primary function of zinc in the human body? ...

    Incorrect

    • What is the primary function of zinc in the human body?

      Your Answer:

      Correct Answer: Antioxidant function

      Explanation:

      The Importance of Zinc in the Body

      Zinc is a vital mineral that plays various roles in the body. One of its essential functions is acting as an antioxidant, where it forms part of an enzyme complex that protects cell membranes from free radical damage. Additionally, zinc is involved in many enzyme reactions, including the production of hormones, DNA replication, and neurotransmitter metabolism. It also helps protect the body from toxins, heavy metals, and radiation.

      Furthermore, zinc is crucial in maintaining a healthy immune system, as it plays a role in both the antibody and cell-mediated immune responses. Unfortunately, zinc deficiency is relatively common among certain groups, such as women, children, the elderly, and pregnant patients. Vegetarians and chronic dieters may also experience mild zinc deficiency.

      To ensure adequate zinc intake, it is recommended to consume foods rich in zinc, such as liver, peas, pulses, meat, and wholemeal bread. By maintaining sufficient levels of zinc in the body, individuals can support their overall health and well-being.

    • This question is part of the following fields:

      • Clinical Sciences
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  • Question 20 - What is a frequent reason for mortality in individuals with severe malnutrition? ...

    Incorrect

    • What is a frequent reason for mortality in individuals with severe malnutrition?

      Your Answer:

      Correct Answer: Infection

      Explanation:

      The Deadly Consequences of Severe Malnutrition

      Severe malnutrition is a widespread problem that affects millions of people worldwide. It is responsible for approximately 50% of deaths in childhood and infancy. One of the most common causes of death in malnourished individuals is severe infection. Malnutrition weakens the immune system, making it more difficult for the body to fight off infections. This is especially true for those living in poverty, with poor access to food, and in areas affected by famine, war, or conflict. These conditions often lead to poor water sanitation, disrupted infrastructure for sewerage, and close living quarters, which increase the likelihood of infection.

      In addition to infections, arrhythmias are also a significant cause of death in people with severe malnutrition. Malnutrition often leads to hypokalaemia, a condition where there is a low level of potassium in the blood. Refeeding a malnourished person can worsen this electrolyte disturbance, creating an arrhythmogenic environment that can be fatal.

      In conclusion, severe malnutrition has deadly consequences, with severe infection and arrhythmias being the leading causes of death. Addressing the root causes of malnutrition, such as poverty and poor access to food, is crucial in preventing these tragic outcomes.

    • This question is part of the following fields:

      • Clinical Sciences
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SESSION STATS - PERFORMANCE PER SPECIALTY

Clinical Sciences (3/7) 43%
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