-
Question 1
Incorrect
-
Sarah, a 23-year-old female, visits the clinic to have her 8-week plaster cast removed from her lower limb. During the examination, it is observed that her right foot is in a plantar flexed position, indicating foot drop.
The physician proceeds to assess the sensation in Sarah's lower limb and feet and discovers a reduction in the area innervated by the deep fibular nerve.
What specific region of Sarah's lower limb or foot is likely to be impacted by this condition?Your Answer: Lateral foot
Correct Answer: Webspace between the first and second toes
Explanation:The webbing between the first and second toes is innervated by the deep fibular nerve. The saphenous nerve, which arises from the femoral nerve, provides cutaneous innervation to the medial aspect of the leg. The sural nerve, which arises from the common fibular and tibial nerves, innervates the lateral foot. The majority of innervation to the dorsum of the foot comes from the superficial fibular nerve.
The common peroneal nerve originates from the dorsal divisions of the sacral plexus, specifically from L4, L5, S1, and S2. This nerve provides sensation to the skin and fascia of the anterolateral surface of the leg and dorsum of the foot, as well as innervating the muscles of the anterior and peroneal compartments of the leg, extensor digitorum brevis, and the knee, ankle, and foot joints. It is located laterally within the sciatic nerve and passes through the lateral and proximal part of the popliteal fossa, under the cover of biceps femoris and its tendon, to reach the posterior aspect of the fibular head. The common peroneal nerve divides into the deep and superficial peroneal nerves at the point where it winds around the lateral surface of the neck of the fibula in the body of peroneus longus, approximately 2 cm distal to the apex of the head of the fibula. It is palpable posterior to the head of the fibula. The nerve has several branches, including the nerve to the short head of biceps, articular branch (knee), lateral cutaneous nerve of the calf, and superficial and deep peroneal nerves at the neck of the fibula.
-
This question is part of the following fields:
- Neurological System
-
-
Question 2
Correct
-
The arrangement of amphipathic phospholipids in the mammalian cell membrane, what is it like?
Your Answer: A lipid bilayer with hydrophilic heads facing out and hydrophobic tails facing in
Explanation:The Function and Structure of the Mammalian Cell Membrane
The mammalian cell membrane serves as a protective barrier that separates the cytoplasm from the extracellular environment. It also acts as a filter for molecules that move across it. Unlike plant and prokaryotic cells, mammalian cells do not have a cell wall. The main component of the cell membrane is a bilayer of amphipathic lipids, which have a hydrophilic head and a hydrophobic tail. The phospholipids in the bilayer are oriented with their hydrophilic heads facing outward and their hydrophobic tails facing inward. This arrangement allows for the separation of the watery extracellular environment from the watery intracellular compartment.
It is important to note that the cell membrane is not a monolayer and the phospholipids are not linked head-to-tail. This is in contrast to DNA, which has a helical chain formation. Overall, the structure and function of the mammalian cell membrane are crucial for maintaining the integrity and proper functioning of the cell.
-
This question is part of the following fields:
- Basic Sciences
-
-
Question 3
Correct
-
A 27-year-old man, who has a history of epilepsy, attends a follow-up appointment at neurology outpatients. He reports experiencing a prodrome of aura before having floaters in his vision and unusual flashes of color during the ictal phase. The patient has no other notable symptoms or medical history. Which region of the brain is linked to the symptoms described by this patient?
Your Answer: Occipital lobe
Explanation:Occipital lobe seizures are associated with visual disturbances such as floaters and flashes. The cerebellum is not typically associated with epilepsy, although recent research has potentially implicated this area in refractory epilepsy. Seizures in the frontal lobe can cause random hand and leg movements and abnormal posturing, while seizures in the parietal lobe can cause sensory disturbances such as paraesthesia.
Localising Features of Focal Seizures in Epilepsy
Focal seizures in epilepsy can be localised based on the specific location of the brain where they occur. Temporal lobe seizures are common and may occur with or without impairment of consciousness or awareness. Most patients experience an aura, which is typically a rising epigastric sensation, along with psychic or experiential phenomena such as déjà vu or jamais vu. Less commonly, hallucinations may occur, such as auditory, gustatory, or olfactory hallucinations. These seizures typically last around one minute and are often accompanied by automatisms, such as lip smacking, grabbing, or plucking.
On the other hand, frontal lobe seizures are characterised by motor symptoms such as head or leg movements, posturing, postictal weakness, and Jacksonian march. Parietal lobe seizures, on the other hand, are sensory in nature and may cause paraesthesia. Finally, occipital lobe seizures may cause visual symptoms such as floaters or flashes. By identifying the specific location and type of seizure, doctors can better diagnose and treat epilepsy in patients.
-
This question is part of the following fields:
- Neurological System
-
-
Question 4
Correct
-
A 75-year-old man comes to the GP complaining of double vision that has been present for 3 days. He has a medical history of diabetes mellitus. During the examination, it was observed that his right eye was completely drooping and in a 'down and out' position. Additionally, his right pupil was slightly larger than his left pupil.
Based on these findings, which cranial nerve is most likely to be affected in this patient?Your Answer: Oculomotor nerve
Explanation:When the third cranial nerve is affected, it can result in ptosis (drooping of the upper eyelid) and an down and out eye appearance. This is because the oculomotor nerve controls several muscles that are responsible for eye movements. The levator palpebrae superioris muscle, which lifts the upper eyelid, becomes paralyzed, causing ptosis. The pupillary sphincter muscle, which constricts the pupil, also becomes paralyzed, resulting in dilation of the affected pupil. The paralysis of the medial rectus, superior rectus, inferior rectus, and inferior oblique muscles causes the eye to move downward and outward due to the unopposed action of the other muscles controlling eye movements (the lateral rectus and superior oblique muscles, controlled by the sixth and fourth cranial nerves, respectively).
If the optic nerve is damaged, it can lead to vision problems as it is responsible for transmitting visual information from the retina to the brain. A trochlear nerve palsy can cause double vision that is worse when looking downward. Damage to the ophthalmic nerve, which is the first branch of the trigeminal nerve, can cause neuralgia (nerve pain) and an absent corneal reflex. An abducens nerve palsy can cause a horizontal gaze palsy that is more pronounced when looking at objects in the distance.
Understanding Third Nerve Palsy: Causes and Features
Third nerve palsy is a neurological condition that affects the third cranial nerve, which controls the movement of the eye and eyelid. The condition is characterized by the eye being deviated ‘down and out’, ptosis, and a dilated pupil. In some cases, it may be referred to as a ‘surgical’ third nerve palsy due to the dilation of the pupil.
There are several possible causes of third nerve palsy, including diabetes mellitus, vasculitis (such as temporal arteritis or SLE), uncal herniation through tentorium if raised ICP, posterior communicating artery aneurysm, and cavernous sinus thrombosis. In some cases, it may also be a false localizing sign. Weber’s syndrome, which is characterized by an ipsilateral third nerve palsy with contralateral hemiplegia, is caused by midbrain strokes. Other possible causes include amyloid and multiple sclerosis.
-
This question is part of the following fields:
- Neurological System
-
-
Question 5
Incorrect
-
A high school football player comes to the emergency department after a hard tackle. He complains of pain in the front of his shoulder, limited movement in his affected arm, and notices that his collarbone is protruding outward. An X-ray shows that his clavicle is displaced, particularly at the lateral end, but still intact. The medial end of the clavicle is still in contact with the sternum, and there are no other bone abnormalities. Given the extent of the dislocation, you suspect that multiple ligaments have been torn. Which of the following ligaments is the least likely to be affected?
Your Answer: Conoid ligament
Correct Answer: Coracoacromial ligament
Explanation:The coracoacromial ligament is not likely to be damaged in a clavicle dislocation, as it does not connect to the clavicle. The ligaments that attach to the lateral end of the clavicle include the acromioclavicular ligament, trapezoid ligament, and conoid ligament (collectively known as the coracoclavicular ligament). In the case of an acromioclavicular joint dislocation, the severity of the injury depends on which ligaments are damaged. Mild cases may involve only a sprain or rupture of the acromioclavicular ligament, while more severe cases may involve rupture of all ligaments attaching to the lateral end of the clavicle.
Anatomy of the Clavicle
The clavicle is a bone that runs from the sternum to the acromion and plays a crucial role in preventing the shoulder from falling forwards and downwards. Its inferior surface is marked by ligaments at each end, including the trapezoid line and conoid tubercle, which provide attachment to the coracoclavicular ligament. The costoclavicular ligament attaches to the irregular surface on the medial part of the inferior surface, while the subclavius muscle attaches to the intermediate portion’s groove.
The superior part of the clavicle’s medial end has a raised surface that gives attachment to the clavicular head of sternocleidomastoid, while the posterior surface attaches to the sternohyoid. On the lateral end, there is an oval articular facet for the acromion, and a disk lies between the clavicle and acromion. The joint’s capsule attaches to the ridge on the margin of the facet.
In summary, the clavicle is a vital bone that helps stabilize the shoulder joint and provides attachment points for various ligaments and muscles. Its anatomy is marked by distinct features that allow for proper function and movement.
-
This question is part of the following fields:
- Musculoskeletal System And Skin
-
-
Question 6
Correct
-
A 65-year-old man with a 45-pack-year history arrives at the hospital complaining of increased difficulty breathing and cachexia. Upon examination, a chest X-ray reveals an elevated left hemidiaphragm, enlarged hilar lymph nodes, and a significant opacification. Which structure is most likely to have been affected?
Your Answer: Left phrenic nerve
Explanation:It is unlikely that direct injury would result in the elevation of the left hemidiaphragm, especially since there is no history of trauma or surgery. However, damage to the long thoracic nerve could cause winging of the scapula due to weakened serratus anterior muscle. On the other hand, injury to the thoracodorsal nerve, which innervates the latissimus dorsi muscle, can lead to weakened shoulder adduction and is a common complication of axillary surgery.
The Phrenic Nerve: Origin, Path, and Supplies
The phrenic nerve is a crucial nerve that originates from the cervical spinal nerves C3, C4, and C5. It supplies the diaphragm and provides sensation to the central diaphragm and pericardium. The nerve passes with the internal jugular vein across scalenus anterior and deep to the prevertebral fascia of the deep cervical fascia.
The right phrenic nerve runs anterior to the first part of the subclavian artery in the superior mediastinum and laterally to the superior vena cava. In the middle mediastinum, it is located to the right of the pericardium and passes over the right atrium to exit the diaphragm at T8. On the other hand, the left phrenic nerve passes lateral to the left subclavian artery, aortic arch, and left ventricle. It passes anterior to the root of the lung and pierces the diaphragm alone.
Understanding the origin, path, and supplies of the phrenic nerve is essential in diagnosing and treating conditions that affect the diaphragm and pericardium.
-
This question is part of the following fields:
- Respiratory System
-
-
Question 7
Incorrect
-
As a medical student in general practice, you encounter a 68-year-old female patient who has come in for her routine blood pressure check. She informs you that she has GTN spray at home. Can you explain how nitric oxide leads to vasodilation?
Your Answer: Activates cAMP
Correct Answer: Activates guanylate cyclase
Explanation:Smooth muscle relaxation and vasodilation are caused by the release of nitric oxide in response to nitrates. Nitric oxide activates guanylate cyclase, which converts GTP to cGMP. This leads to the opening of K+ channels and hyperpolarization of the cell membrane, causing the closure of voltage-gated Ca2+ channels and pumping of Ca2+ out of the smooth muscle. This results in vasodilation. Nitric oxide does not inhibit the release of Bradykinin.
Understanding Nitrates and Their Effects on the Body
Nitrates are a type of medication that can cause blood vessels to widen, which is known as vasodilation. They are commonly used to manage angina and treat heart failure. One of the most frequently prescribed nitrates is sublingual glyceryl trinitrate, which is used to relieve angina attacks in patients with ischaemic heart disease.
The mechanism of action for nitrates involves the release of nitric oxide in smooth muscle, which activates guanylate cyclase. This enzyme then converts GTP to cGMP, leading to a decrease in intracellular calcium levels. In the case of angina, nitrates dilate the coronary arteries and reduce venous return, which decreases left ventricular work and reduces myocardial oxygen demand.
However, nitrates can also cause side effects such as hypotension, tachycardia, headaches, and flushing. Additionally, many patients who take nitrates develop tolerance over time, which can reduce their effectiveness. To combat this, the British National Formulary recommends that patients who develop tolerance take the second dose of isosorbide mononitrate after 8 hours instead of 12 hours. This allows blood-nitrate levels to fall for 4 hours and maintains effectiveness. It’s important to note that this effect is not seen in patients who take modified release isosorbide mononitrate.
-
This question is part of the following fields:
- Cardiovascular System
-
-
Question 8
Correct
-
A 50-year-old woman visits her physician complaining of a persistent productive cough and night sweats. The physician orders a chest x-ray, which reveals upper lobe consolidation consistent with granulomas. To confirm the likely diagnosis, the patient is referred to a hospital where an interferon-gamma release assay (QuantiFERON) is ordered.
What are the main immune cells responsible for producing the cytokine measured by this test?Your Answer: T helper cells
Explanation:Understanding Interferons
Interferons are a type of cytokine that the body produces in response to viral infections and neoplasia. They are categorized based on the type of receptor they bind to and their cellular origin. IFN-alpha and IFN-beta bind to type 1 receptors, while IFN-gamma binds only to type 2 receptors.
IFN-alpha is produced by leucocytes and has antiviral properties. It is commonly used to treat hepatitis B and C, Kaposi’s sarcoma, metastatic renal cell cancer, and hairy cell leukemia. However, it can cause flu-like symptoms and depression as side effects.
IFN-beta is produced by fibroblasts and also has antiviral properties. It is particularly useful in reducing the frequency of exacerbations in patients with relapsing-remitting multiple sclerosis.
IFN-gamma is mainly produced by natural killer cells and T helper cells. It has weaker antiviral properties but plays a significant role in immunomodulation, particularly in macrophage activation. It may be beneficial in treating chronic granulomatous disease and osteopetrosis.
Understanding the different types of interferons and their functions can help in the development of targeted treatments for various diseases.
-
This question is part of the following fields:
- General Principles
-
-
Question 9
Correct
-
During your placement on the paediatric ward, you are examining the chest x-ray of a 9-year-old boy from Ghana. He came to the UK 2 months ago and was hospitalized after falling from the monkey bars and breaking his collarbone. Despite being in good health, he has not experienced any chest pain or shortness of breath. Upon reviewing the radiologist's report, you notice that a Ghon complex is present. What medical condition does this suggest?
Your Answer: TB
Explanation:Childhood respiratory infection is the typical manifestation of primary TB, which is often asymptomatic and leads to the formation of a Ghon focus and mediastinal lymphadenopathy. These two conditions together are known as the Ghon complex. The infection usually resolves on its own with minimal symptoms.
Understanding Tuberculosis: The Pathophysiology and Risk Factors
Tuberculosis is a bacterial infection caused by Mycobacterium tuberculosis. The pathophysiology of tuberculosis involves the migration of macrophages to regional lymph nodes, forming a Ghon complex. This complex leads to the formation of a granuloma, which is a collection of epithelioid histiocytes with caseous necrosis in the center. The inflammatory response is mediated by a type 4 hypersensitivity reaction. While healthy individuals can contain the disease, immunocompromised individuals are at risk of developing disseminated (miliary) TB.
Several risk factors increase the likelihood of developing tuberculosis. These include having lived in Asia, Latin America, Eastern Europe, or Africa for years, exposure to an infectious TB case, and being infected with HIV. Immunocompromised individuals, such as diabetics, patients on immunosuppressive therapy, malnourished individuals, or those with haematological malignancies, are also at risk. Additionally, silicosis and apical fibrosis increase the likelihood of developing tuberculosis. Understanding the pathophysiology and risk factors of tuberculosis is crucial in preventing and treating this infectious disease.
-
This question is part of the following fields:
- General Principles
-
-
Question 10
Correct
-
A 20-year-old male with sickle cell disease arrives at the hospital exhibiting symptoms of dehydration, infection, and acute kidney injury. What is the direct activator of the renin-angiotensin system in this case?
Your Answer: Low blood pressure
Explanation:The RAS is a hormone system that regulates plasma sodium concentration and arterial blood pressure. When plasma sodium concentration is low or renal blood flow is reduced due to low blood pressure, juxtaglomerular cells in the kidneys convert prorenin to renin, which is secreted into circulation. Renin acts on angiotensinogen to form angiotensin I, which is then converted to angiotensin II by ACE found in the lungs and epithelial cells of the kidneys. Angiotensin II is a potent vasoactive peptide that constricts arterioles, increasing arterial blood pressure and stimulating aldosterone secretion from the adrenal cortex. Aldosterone causes the kidneys to reabsorb sodium ions from tubular fluid back into the blood while excreting potassium ions in urine.
The renin-angiotensin-aldosterone system is a complex system that regulates blood pressure and fluid balance in the body. The adrenal cortex is divided into three zones, each producing different hormones. The zona glomerulosa produces mineralocorticoids, mainly aldosterone, which helps regulate sodium and potassium levels in the body. Renin is an enzyme released by the renal juxtaglomerular cells in response to reduced renal perfusion, hyponatremia, and sympathetic nerve stimulation. It hydrolyses angiotensinogen to form angiotensin I, which is then converted to angiotensin II by angiotensin-converting enzyme in the lungs. Angiotensin II has various actions, including causing vasoconstriction, stimulating thirst, and increasing proximal tubule Na+/H+ activity. It also stimulates aldosterone and ADH release, which causes retention of Na+ in exchange for K+/H+ in the distal tubule.
-
This question is part of the following fields:
- Renal System
-
-
Question 11
Incorrect
-
A 6-year-old boy presents to the clinic after experiencing his seventh fracture. Upon examination, his x-rays reveal dense bones with multiple cortical layers. He also has a mild normocytic anemia and low platelets, but his sclera appear white. What is the probable diagnosis?
Your Answer: Acute lymphocytic leukaemia
Correct Answer: Osteopetrosis
Explanation:Osteopetrosis and its Distinction from Other Bone Disorders
Osteopetrosis is a congenital condition that affects bone reabsorption, leading to the appearance of a ‘bone within a bone’ from multiple cortical layers. Despite the increased density, bones become brittle and prone to fracture, and there is no room for the marrow to grow, causing bone marrow failure and peripheral cytopenias. Additionally, bones expand and frequently cause neural compression symptoms.
When diagnosing osteopetrosis, it is important to exclude non-accidental injury (NAI) due to the repeated bone injury, but NAI alone cannot account for the x-ray findings or the blood counts. However, a diagnosis of osteopetrosis does not rule out the possibility of NAI co-existing with the condition.
Other bone disorders, such as acute lymphocytic leukemia and aplastic anemia, may present with peripheral cytopenias but not the x-ray appearances or multiple fractures. On the other hand, osteogenesis imperfecta (OI) is a congenital condition of brittle bones susceptible to multiple fractures due to a mutation in type I collagen. The most common form, type I OI, is inherited as an autosomal dominant condition and is associated with blue sclerae and neural deafness from bone overgrowth. X-rays show reduced bone density with cortical disorganization.
In summary, the distinct features of osteopetrosis and its differentiation from other bone disorders is crucial in making an accurate diagnosis and providing appropriate treatment.
-
This question is part of the following fields:
- Paediatrics
-
-
Question 12
Correct
-
How many unpaired branches does the abdominal aorta have to provide blood supply to the abdominal organs?
Your Answer: Three
Explanation:The abdominal viscera has three branches that are not paired, namely the coeliac axis, the SMA, and the IMA. Meanwhile, the branches to the adrenals, renal arteries, and gonadal vessels are paired. It is worth noting that the fourth unpaired branch of the abdominal aorta, which is the median sacral artery, does not provide direct supply to the abdominal viscera.
Branches of the Abdominal Aorta
The abdominal aorta is a major blood vessel that supplies oxygenated blood to the abdominal organs and lower extremities. It gives rise to several branches that supply blood to various organs and tissues. These branches can be classified into two types: parietal and visceral.
The parietal branches supply blood to the walls of the abdominal cavity, while the visceral branches supply blood to the abdominal organs. The branches of the abdominal aorta include the inferior phrenic, coeliac, superior mesenteric, middle suprarenal, renal, gonadal, lumbar, inferior mesenteric, median sacral, and common iliac arteries.
The inferior phrenic artery arises from the upper border of the abdominal aorta and supplies blood to the diaphragm. The coeliac artery supplies blood to the liver, stomach, spleen, and pancreas. The superior mesenteric artery supplies blood to the small intestine, cecum, and ascending colon. The middle suprarenal artery supplies blood to the adrenal gland. The renal arteries supply blood to the kidneys. The gonadal arteries supply blood to the testes or ovaries. The lumbar arteries supply blood to the muscles and skin of the back. The inferior mesenteric artery supplies blood to the descending colon, sigmoid colon, and rectum. The median sacral artery supplies blood to the sacrum and coccyx. The common iliac arteries are the terminal branches of the abdominal aorta and supply blood to the pelvis and lower extremities.
Understanding the branches of the abdominal aorta is important for diagnosing and treating various medical conditions that affect the abdominal organs and lower extremities.
-
This question is part of the following fields:
- Gastrointestinal System
-
-
Question 13
Correct
-
Which one of the following muscles is not located in the posterior compartment of the lower leg?
Your Answer: Peroneus brevis
Explanation:The lateral compartment contains the peroneus brevis.
Fascial Compartments of the Leg
The leg is divided into compartments by fascial septae, which are thin layers of connective tissue. In the thigh, there are three compartments: the anterior, medial, and posterior compartments. The anterior compartment contains the femoral nerve and artery, as well as the quadriceps femoris muscle group. The medial compartment contains the obturator nerve and artery, as well as the adductor muscles and gracilis muscle. The posterior compartment contains the sciatic nerve and branches of the profunda femoris artery, as well as the hamstrings muscle group.
In the lower leg, there are four compartments: the anterior, posterior (divided into deep and superficial compartments), lateral, and deep posterior compartments. The anterior compartment contains the deep peroneal nerve and anterior tibial artery, as well as the tibialis anterior, extensor digitorum longus, extensor hallucis longus, and peroneus tertius muscles. The posterior compartment contains the tibial nerve and posterior tibial artery, as well as the deep and superficial muscles. The lateral compartment contains the superficial peroneal nerve and peroneal artery, as well as the peroneus longus and brevis muscles. The deep posterior compartment contains the tibial nerve and posterior tibial artery, as well as the flexor hallucis longus, flexor digitorum longus, tibialis posterior, and popliteus muscles.
-
This question is part of the following fields:
- Musculoskeletal System And Skin
-
-
Question 14
Correct
-
During a hip examination, Sarah, a 65-year-old female, is found to have a positive trendelenburg's sign. When she stands on only her left leg, her right pelvis drops.
Which muscles are affected in Sarah?Your Answer: Left gluteus medius and gluteus minimus
Explanation:The superior gluteal nerve is responsible for innervating the gluteus minimus and gluteus medius muscles. These muscles are involved in the abduction and medial rotation of the lower limb, as well as preventing pelvic drop of the opposing limb. For instance, when standing on only the right leg, the right gluteus minimus and gluteus medius muscles stabilize the pelvis. However, if the right superior gluteal nerve is damaged, the right gluteus minimus and gluteus medius muscles will not receive innervation, resulting in a lack of stability when standing on the right leg and causing the left pelvis to drop. On the other hand, the inferior gluteal nerve innervates the gluteus maximus muscles, which primarily functions as the main extensor of the thigh and also performs lateral rotation.
The Trendelenburg Test: Assessing Gluteal Nerve Function
The Trendelenburg test is a diagnostic tool used to assess the function of the superior gluteal nerve. This nerve is responsible for the contraction of the gluteus medius muscle, which is essential for maintaining balance and stability while standing on one leg.
When the superior gluteal nerve is injured or damaged, the gluteus medius muscle is weakened, resulting in a compensatory shift of the body towards the unaffected side. This shift is characterized by a gravitational shift, which causes the body to be supported on the unaffected limb.
To perform the Trendelenburg test, the patient is asked to stand on one leg while the physician observes the position of the pelvis. In a healthy individual, the gluteus medius muscle contracts as soon as the contralateral leg leaves the floor, preventing the pelvis from dipping towards the unsupported side. However, in a person with paralysis of the superior gluteal nerve, the pelvis on the unsupported side descends, indicating that the gluteus medius on the affected side is weak or non-functional. This is known as a positive Trendelenburg test.
It is important to note that the Trendelenburg test is also used in vascular investigations to determine the presence of saphenofemoral incompetence. In this case, tourniquets are placed around the upper thigh to assess blood flow. However, in the context of assessing gluteal nerve function, the Trendelenburg test is a valuable tool for diagnosing and treating motor deficits and gait abnormalities.
-
This question is part of the following fields:
- Musculoskeletal System And Skin
-
-
Question 15
Incorrect
-
What is the structure utilized by bacteria to penetrate dense mucus?
Your Answer: Plasmid
Correct Answer: Flagella
Explanation:Cell Surface Projections
Flagella, fimbriae, and pili are all types of cell surface projections found in bacteria. Flagella are composed of flagellin and have a motor pump at the base that propels the filamentous structure to allow bacteria to move. This movement is important for bacteria such as Helicobacter pylori to penetrate through gastric mucus. Fimbriae and pili are short projections that aid in attachment. They can be used to attach to an epithelial layer, which increases virulence, or to attach to other bacteria, which facilitates the exchange of genetic material.
In contrast, microvilli are cell surface projections found on the apical surfaces of human epithelial cells, such as enterocytes. They increase the surface area for absorption, allowing for more efficient nutrient uptake. Overall, these cell surface projections play important roles in bacterial movement, attachment, and nutrient absorption in human cells.
-
This question is part of the following fields:
- Microbiology
-
-
Question 16
Incorrect
-
A 42-year-old female visits the doctor after being diagnosed with HIV. Her CD4 count was last recorded at 45 cells/mL and she reports experiencing blurred vision and blind spots. She expresses fear about the impact of HIV on her eyes. What is the most severe eye complication associated with HIV infection?
Your Answer: Scleritis
Correct Answer: Cytomegalovirus (CMV) retinitis
Explanation:Understanding HIV-Related Cytomegalovirus Retinitis
Cytomegalovirus (CMV) retinitis is a common condition that affects individuals with a CD4 count of less than 50. It is diagnosed clinically as there are no specific diagnostic tests available. The condition is characterized by visual impairment, such as blurred vision, and can be identified through fundoscopy, which shows a characteristic appearance of retinal haemorrhages and necrosis, often referred to as a pizza retina.
Management of CMV retinitis involves the use of IV ganciclovir, which was previously a lifelong treatment. However, new evidence suggests that it may be discontinued once the CD4 count reaches 150 after HAART. Alternatively, IV foscarnet or cidofovir may be used as an alternative treatment option.
In summary, CMV retinitis is a common condition that affects individuals with a low CD4 count. It is diagnosed clinically and can be identified through fundoscopy. Management involves the use of IV ganciclovir, which may be discontinued once the CD4 count reaches 150 after HAART, or alternative treatments such as IV foscarnet or cidofovir.
-
This question is part of the following fields:
- General Principles
-
-
Question 17
Correct
-
During surgery on her neck, a woman in her 50s suffers a vagus nerve injury where the nerve is cut near the exit from the skull. She wakes up with a high heart rate and high blood pressure due to loss of parasympathetic tone.
What other features would be expected with a vagus nerve injury?Your Answer: Hoarse voice
Explanation:The vagus (X) nerve is responsible for all innervation related to speech, meaning that any injuries to this nerve can lead to speech problems. It’s important to note that the vagus nerve has both autonomic and somatic effects, with the latter being the most crucial for speech. This involves the motor supply to the larynx through the recurrent laryngeal nerves, which are branches of the vagus. If one vagus nerve is damaged, it would have the same impact as damage to a single recurrent laryngeal nerve, resulting in a hoarse voice.
However, it’s worth noting that anal tone, erections, and urination are controlled by the sacral parasympathetics and would not be affected by the loss of the vagus nerve. Similarly, pupillary constriction is controlled by parasympathetics on the oculomotor nerve and would not be impacted by the loss of the vagus nerve.
The vagus nerve is responsible for a variety of functions and supplies structures from the fourth and sixth pharyngeal arches, as well as the fore and midgut sections of the embryonic gut tube. It carries afferent fibers from areas such as the pharynx, larynx, esophagus, stomach, lungs, heart, and great vessels. The efferent fibers of the vagus are of two main types: preganglionic parasympathetic fibers distributed to the parasympathetic ganglia that innervate smooth muscle of the innervated organs, and efferent fibers with direct skeletal muscle innervation, largely to the muscles of the larynx and pharynx.
The vagus nerve arises from the lateral surface of the medulla oblongata and exits through the jugular foramen, closely related to the glossopharyngeal nerve cranially and the accessory nerve caudally. It descends vertically in the carotid sheath in the neck, closely related to the internal and common carotid arteries. In the mediastinum, both nerves pass posteroinferiorly and reach the posterior surface of the corresponding lung root, branching into both lungs. At the inferior end of the mediastinum, these plexuses reunite to form the formal vagal trunks that pass through the esophageal hiatus and into the abdomen. The anterior and posterior vagal trunks are formal nerve fibers that splay out once again, sending fibers over the stomach and posteriorly to the coeliac plexus. Branches pass to the liver, spleen, and kidney.
The vagus nerve has various branches in the neck, including superior and inferior cervical cardiac branches, and the right recurrent laryngeal nerve, which arises from the vagus anterior to the first part of the subclavian artery and hooks under it to insert into the larynx. In the thorax, the left recurrent laryngeal nerve arises from the vagus on the aortic arch and hooks around the inferior surface of the arch, passing upwards through the superior mediastinum and lower part of the neck. In the abdomen, the nerves branch extensively, passing to the coeliac axis and alongside the vessels to supply the spleen, liver, and kidney.
-
This question is part of the following fields:
- Cardiovascular System
-
-
Question 18
Incorrect
-
A 30-year-old patient visits their GP with complaints of muscle wasting in their legs, foot drop, and a high-arched foot. The patient has a medical history of type 1 diabetes mellitus. The GP observes that the patient's legs resemble 'champagne bottles'. The patient denies any recent trauma, sensory deficits, or back pain.
What is the probable diagnosis?Your Answer: Chronic inflammatory demyelinating polyneuropathy (CIDP)
Correct Answer: Charcot-Marie-Tooth disease
Explanation:Charcot-Marie-Tooth syndrome is characterized by classic signs such as foot drop and a high-arched foot. The initial symptom often observed is foot drop, which is caused by chronic motor neuropathy leading to muscular atrophy. This can result in the distinctive champagne bottle appearance of the foot.
Diabetic neuropathy is an incorrect answer as it typically presents with significant sensory deficits in a ‘glove and stocking’ pattern.
Cauda equina syndrome is also an incorrect answer as it typically results in more severe symptoms such as loss of bladder control and significant sensory deficits, as well as back and spine pain. While foot drop may be present, it is unlikely to cause atrophy of the distal muscles.
CIDP is another incorrect answer as patients with this condition typically experience significant proximal and distal atrophy, which would not lead to the champagne bottle appearance. Additionally, sensory symptoms are present but less noticeable than the motor symptoms.
Charcot-Marie-Tooth Disease is a prevalent genetic peripheral neuropathy that primarily affects motor function. Unfortunately, there is no known cure for this condition, and treatment is mainly centered around physical and occupational therapy. Some common symptoms of Charcot-Marie-Tooth Disease include a history of frequent ankle sprains, foot drop, high-arched feet (also known as pes cavus), hammer toes, distal muscle weakness and atrophy, hyporeflexia, and the stork leg deformity.
-
This question is part of the following fields:
- Neurological System
-
-
Question 19
Correct
-
A 26-year-old female arrives at the emergency department complaining of intense pelvic pain on the left side and absence of menstruation. During the physical examination, the doctor discovers tenderness in the pelvic area. A pregnancy test confirms a positive result, and a transvaginal ultrasound is conducted, revealing a tubal ectopic pregnancy with a fetal heartbeat. As a result, a laparoscopic salpingectomy is carried out.
In which anatomical structure is this condition most likely located?Your Answer: Broad ligament
Explanation:The Broad ligament is where the Fallopian tubes are located. If a tubal ectopic pregnancy is detected with a fetal heartbeat, the recommended treatment is a laparoscopic salpingectomy. This surgical procedure involves removing the affected Fallopian tube by accessing it within the Broad ligament. However, if there are other risk factors for infertility, a laparoscopic salpingotomy may be performed instead.
On the other hand, the Cardinal ligament contains the uterine vessels and is not involved in ectopic pregnancy. It may be operated on in cases of uterine fibroids through a laparoscopic myomectomy.
The Ovarian ligament attaches the ovaries to the uterus but does not contain any structures. Meanwhile, the Round ligament attaches the uterine fundus to the labia majora but also does not contain any structures.
Pelvic Ligaments and their Connections
Pelvic ligaments are structures that connect various organs within the female reproductive system to the pelvic wall. These ligaments play a crucial role in maintaining the position and stability of these organs. There are several types of pelvic ligaments, each with its own unique function and connection.
The broad ligament connects the uterus, fallopian tubes, and ovaries to the pelvic wall, specifically the ovaries. The round ligament connects the uterine fundus to the labia majora, but does not connect to any other structures. The cardinal ligament connects the cervix to the lateral pelvic wall and is responsible for supporting the uterine vessels. The suspensory ligament of the ovaries connects the ovaries to the lateral pelvic wall and supports the ovarian vessels. The ovarian ligament connects the ovaries to the uterus, but does not connect to any other structures. Finally, the uterosacral ligament connects the cervix and posterior vaginal dome to the sacrum, but does not connect to any other structures.
Overall, pelvic ligaments are essential for maintaining the proper position and function of the female reproductive organs. Understanding the connections between these ligaments and the structures they support is crucial for diagnosing and treating any issues that may arise.
-
This question is part of the following fields:
- Reproductive System
-
-
Question 20
Incorrect
-
A teenage patient presents with primary amenorrhoea. Upon ultrasound examination, it is discovered that she is missing both her Fallopian tubes and uterus. What is the typical embryological structure that gives rise to these organs?
Your Answer: Ureteric bud
Correct Answer: Paramesonephric duct
Explanation:The fallopian tubes, uterus, and upper 1/3 of the vagina in females are derived from the paramesonephric (Mullerian) duct, while it degenerates in males.
The urachus is formed by the regression of the allantois.
Structures of the head and neck are developed from the pharyngeal arches.
The male reproductive structures are derived from the mesonephric duct.
The internal female reproductive structures are formed from the paramesonephric duct.
The kidney is developed from the ureteric bud.
Urogenital Embryology: Development of Kidneys and Genitals
During embryonic development, the urogenital system undergoes a series of changes that lead to the formation of the kidneys and genitals. The kidneys develop from the pronephros, which is rudimentary and non-functional, to the mesonephros, which functions as interim kidneys, and finally to the metanephros, which starts to function around the 9th to 10th week. The metanephros gives rise to the ureteric bud and the metanephrogenic blastema. The ureteric bud develops into the ureter, renal pelvis, collecting ducts, and calyces, while the metanephrogenic blastema gives rise to the glomerulus and renal tubules up to and including the distal convoluted tubule.
In males, the mesonephric duct (Wolffian duct) gives rise to the seminal vesicles, epididymis, ejaculatory duct, and ductus deferens. The paramesonephric duct (Mullerian duct) degenerates by default. In females, the paramesonephric duct gives rise to the fallopian tube, uterus, and upper third of the vagina. The urogenital sinus gives rise to the bulbourethral glands in males and Bartholin glands and Skene glands in females. The genital tubercle develops into the glans penis and clitoris, while the urogenital folds give rise to the ventral shaft of the penis and labia minora. The labioscrotal swelling develops into the scrotum in males and labia majora in females.
In summary, the development of the urogenital system is a complex process that involves the differentiation of various structures from different embryonic tissues. Understanding the embryology of the kidneys and genitals is important for diagnosing and treating congenital abnormalities and disorders of the urogenital system.
-
This question is part of the following fields:
- General Principles
-
-
Question 21
Incorrect
-
A pharmaceutical company is striving to develop a novel weight-loss drug that imitates the satiety-inducing effects of the endogenous peptide hormone cholecystokinin (CCK).
What are the cells that naturally synthesize and secrete this hormone?Your Answer: D cells in the pancreas & stomach
Correct Answer: I cells in the upper small intestine
Explanation:CCK is a hormone produced by I cells in the upper small intestine that enhances the digestion of fats and proteins. When partially digested proteins and fats are detected, CCK is synthesized and released, resulting in various processes such as the secretion of digestive enzymes from the pancreas, contraction of the gallbladder, relaxation of the sphincter of Oddi, decreased gastric emptying, and a trophic effect on pancreatic acinar cells. These processes lead to the breakdown of fats and proteins and suppression of hunger.
B cells, on the other hand, are part of the immune system and produce antibodies as part of the B cell receptors. They are produced in the bone marrow and migrate to the spleen and lymphatic system, but they do not play a role in satiety.
Somatostatin is a hormone released from D cells in the pancreas and stomach that regulates peptide hormone release and gastric emptying. It is stimulated by the presence of fat, bile salt, and glucose in the intestines.
Gastrin is a hormone that increases acid release from parietal cells in the stomach and aids in gastric motility. It is released from G cells in the antrum of the stomach in response to distension of the stomach, stimulation of the vagus nerves, and the presence of peptides/amino acids in the lumen.
Secretin is a hormone that regulates enzyme secretion from the stomach, pancreas, and liver. It is released from the S cells in the duodenum in response to the presence of acid in the lumen.
Overview of Gastrointestinal Hormones
Gastrointestinal hormones play a crucial role in the digestion and absorption of food. These hormones are secreted by various cells in the stomach and small intestine in response to different stimuli such as the presence of food, pH changes, and neural signals.
One of the major hormones involved in food digestion is gastrin, which is secreted by G cells in the antrum of the stomach. Gastrin increases acid secretion by gastric parietal cells, stimulates the secretion of pepsinogen and intrinsic factor, and increases gastric motility. Another hormone, cholecystokinin (CCK), is secreted by I cells in the upper small intestine in response to partially digested proteins and triglycerides. CCK increases the secretion of enzyme-rich fluid from the pancreas, contraction of the gallbladder, and relaxation of the sphincter of Oddi. It also decreases gastric emptying and induces satiety.
Secretin is another hormone secreted by S cells in the upper small intestine in response to acidic chyme and fatty acids. Secretin increases the secretion of bicarbonate-rich fluid from the pancreas and hepatic duct cells, decreases gastric acid secretion, and has a trophic effect on pancreatic acinar cells. Vasoactive intestinal peptide (VIP) is a neural hormone that stimulates secretion by the pancreas and intestines and inhibits acid secretion.
Finally, somatostatin is secreted by D cells in the pancreas and stomach in response to fat, bile salts, and glucose in the intestinal lumen. Somatostatin decreases acid and pepsin secretion, decreases gastrin secretion, decreases pancreatic enzyme secretion, and decreases insulin and glucagon secretion. It also inhibits the trophic effects of gastrin and stimulates gastric mucous production.
In summary, gastrointestinal hormones play a crucial role in regulating the digestive process and maintaining homeostasis in the gastrointestinal tract.
-
This question is part of the following fields:
- Gastrointestinal System
-
-
Question 22
Incorrect
-
A 63-year-old woman with a longstanding history of type 2 diabetes mellitus, hypertension, and hypercholesterolemia experienced sudden weakness in her right lower leg while preparing breakfast. She had a similar episode two days ago, which resolved after an hour. Her son brought her to the emergency department, where she reported her symptoms to the attending physician. The patient can speak well and fully comprehend what the doctor tells her. Upon examination, the doctor noted decreased touch sensation in her right leg. A non-contrast computed tomography (CT) scan was unremarkable, but a repeat CT scan after 12 hours revealed an area of hypo-attenuation in a region of the brain. Which artery of the cerebral circulation is most likely to be occluded in this patient?
Your Answer: Posterior inferior cerebellar artery
Correct Answer: Anterior cerebral artery
Explanation:The patient’s symptoms suggest a diagnosis of stroke, likely caused by their long history of diabetes, hypertension, and hypercholesterolemia, which are all risk factors for ischemic stroke. The absence of risk factors for hemorrhagic stroke, such as blood clotting disorders or warfarin use, supports this diagnosis. The CT scan performed upon admission may have been too early to detect the stroke, as ischemic strokes are typically visible on CT scans only after 6 hours. However, brain tissue swelling 12 hours later can produce an area of hypo-attenuation visible on CT scan.
The patient’s contralateral hemiparesis and sensory loss, with greater impact on the lower extremity than the upper, suggest an ischemic stroke affecting the anterior cerebral artery. If the posterior cerebral artery were obstructed, the patient would experience contralateral hemianopia with macular sparing. An ischemic stroke affecting the middle cerebral artery would more likely affect the upper limbs and face, and could also impact language centers or cause hemineglect. An ischemic stroke affecting the basilar artery could result in severe neurological impairment, such as locked-in syndrome or quadriplegia. An occlusion of the posterior inferior cerebellar artery would cause swallowing impairment, hoarseness, and loss of the gag reflex.
Stroke can affect different parts of the brain depending on which artery is affected. If the anterior cerebral artery is affected, the person may experience weakness and loss of sensation on the opposite side of the body, with the lower extremities being more affected than the upper. If the middle cerebral artery is affected, the person may experience weakness and loss of sensation on the opposite side of the body, with the upper extremities being more affected than the lower. They may also experience vision loss and difficulty with language. If the posterior cerebral artery is affected, the person may experience vision loss and difficulty recognizing objects.
Lacunar strokes are a type of stroke that are strongly associated with hypertension. They typically present with isolated weakness or loss of sensation on one side of the body, or weakness with difficulty coordinating movements. They often occur in the basal ganglia, thalamus, or internal capsule.
-
This question is part of the following fields:
- Neurological System
-
-
Question 23
Correct
-
At what stage of eukaryotic mitosis do the centromeres of chromosomes separate?
Your Answer: Anaphase
Explanation:Chromosome Division during Anaphase
Chromosomes are joined together in an X shape at the centromere. During anaphase, the centromeres break down and the chromosomes divide into two identical pairs called sister chromatids. These sister chromatids then move to opposite sides of the cell along a network of spindle fibres. When the cell divides during telophase, each daughter cell receives one sister chromatid from the parent cell. This ensures the accurate copying and propagation of genes. The process of chromosome division during anaphase is crucial for the proper distribution of genetic material in cells.
-
This question is part of the following fields:
- Basic Sciences
-
-
Question 24
Correct
-
Which muscles are responsible for flexing the hip joint?
Your Answer: Psoas
Explanation:Muscles and their Functions in Joint Movement
The hip joint has three main flexors, namely the iliacus, psoas, and rectus femoris muscles. These muscles are responsible for flexing the hip joint, which is the movement of bringing the thigh towards the abdomen. On the other hand, the gluteus maximus and medius muscles are involved in hip extension, which is the movement of bringing the thigh backward.
Moving on to the elbow joint, the bicep femoris muscle is one of the primary flexors. This muscle is responsible for bending the elbow, which is the movement of bringing the forearm towards the upper arm. Lastly, the adductor brevis muscle is responsible for adducting the leg at the hip joint, which is the movement of bringing the leg towards the midline of the body.
In summary, muscles play a crucial role in joint movement. the functions of these muscles can help in identifying and addressing issues related to joint movement and mobility.
-
This question is part of the following fields:
- Clinical Sciences
-
-
Question 25
Correct
-
Which of the following anatomical structures is located in the spiral groove of the humerus?
Your Answer: Radial nerve
Explanation:Fractures involving the shaft can compromise the radial nerve, which is located in this groove.
The humerus is a long bone that runs from the shoulder blade to the elbow joint. It is mostly covered by muscle but can be felt throughout its length. The head of the humerus is a smooth, rounded surface that connects to the body of the bone through the anatomical neck. The surgical neck, located below the head and tubercles, is the most common site of fracture. The greater and lesser tubercles are prominences on the upper end of the bone, with the supraspinatus and infraspinatus tendons inserted into the greater tubercle. The intertubercular groove runs between the two tubercles and holds the biceps tendon. The posterior surface of the body has a spiral groove for the radial nerve and brachial vessels. The lower end of the humerus is wide and flattened, with the trochlea, coronoid fossa, and olecranon fossa located on the distal edge. The medial epicondyle is prominent and has a sulcus for the ulnar nerve and collateral vessels.
-
This question is part of the following fields:
- Musculoskeletal System And Skin
-
-
Question 26
Correct
-
A 23 years old male presents to his GP with a complaint of inability to flex his left elbow. During examination, the GP observes significant weakness in flexion of his left elbow and supination of his forearm. Which nerve is most likely to be damaged in this case?
Your Answer: Musculocutaneous nerve
Explanation:The musculocutaneous nerve provides innervation to the Bicep, Brachialis, and Coracobrachialis muscles in the upper arm, which are responsible for elbow flexion and forearm supination. If a patient has weak elbow flexion and supination, it may indicate damage to the musculocutaneous nerve. The radial nerve innervates the tricep brachii and extensor muscles in the forearm, while the median nerve is responsible for the anterior compartment of the forearm and does not innervate any arm muscles. The ulnar nerve innervates two forearm muscles and intrinsic hand muscles, excluding the thenar muscles and two lateral lumbricals.
Upper limb anatomy is a common topic in examinations, and it is important to know certain facts about the nerves and muscles involved. The musculocutaneous nerve is responsible for elbow flexion and supination, and typically only injured as part of a brachial plexus injury. The axillary nerve controls shoulder abduction and can be damaged in cases of humeral neck fracture or dislocation, resulting in a flattened deltoid. The radial nerve is responsible for extension in the forearm, wrist, fingers, and thumb, and can be damaged in cases of humeral midshaft fracture, resulting in wrist drop. The median nerve controls the LOAF muscles and can be damaged in cases of carpal tunnel syndrome or elbow injury. The ulnar nerve controls wrist flexion and can be damaged in cases of medial epicondyle fracture, resulting in a claw hand. The long thoracic nerve controls the serratus anterior and can be damaged during sports or as a complication of mastectomy, resulting in a winged scapula. The brachial plexus can also be damaged, resulting in Erb-Duchenne palsy or Klumpke injury, which can cause the arm to hang by the side and be internally rotated or associated with Horner’s syndrome, respectively.
-
This question is part of the following fields:
- Musculoskeletal System And Skin
-
-
Question 27
Correct
-
Sarah is a 63-year-old woman who has been experiencing gradual visual changes for the past 2 years. Recently, she has noticed a decline in her peripheral vision and has been running into objects.
During the examination, her eyes do not appear red. Ophthalmoscopy reveals bilateral cupping with a cup to disc ratio of 0.8. Tonometry shows a pressure of 26mmHg in her left eye and 28mmHg in her right eye.
After trying brinzolamide, latanoprost, and brimonidine, which were not well tolerated due to side effects, what is the mechanism of action of the best alternative medication?Your Answer: Decrease aqueous humour production
Explanation:Timolol, a beta blocker, is an effective treatment for primary open-angle glaucoma as it reduces the production of aqueous humor in the eye. This condition is caused by a gradual increase in intraocular pressure due to poor drainage within the trabecular meshwork, resulting in gradual vision loss. The first-line treatments for primary open-angle glaucoma include beta blockers, prostaglandin analogues, carbonic anhydrase inhibitors, and alpha-2-agonists. However, if a patient is unable to tolerate carbonic anhydrase inhibitors, prostaglandin analogues, or alpha-2-agonists, beta blockers like timolol are the remaining option. Carbonic anhydrase inhibitors reduce aqueous humor production, prostaglandin analogues increase uveoscleral outflow, and alpha-2-agonists have a dual action of reducing humor production and increasing outflow. It is important to note that increasing aqueous humor production and reducing uveoscleral outflow are not effective treatments for glaucoma.
Primary open-angle glaucoma is a type of optic neuropathy that is associated with increased intraocular pressure (IOP). It is classified based on whether the peripheral iris is covering the trabecular meshwork, which is important in the drainage of aqueous humour from the anterior chamber of the eye. In open-angle glaucoma, the iris is clear of the meshwork, but the trabecular network offers increased resistance to aqueous outflow, causing increased IOP. This condition affects 0.5% of people over the age of 40 and its prevalence increases with age up to 10% over the age of 80 years. Both males and females are equally affected. The main causes of primary open-angle glaucoma are increasing age and genetics, with first-degree relatives of an open-angle glaucoma patient having a 16% chance of developing the disease.
Primary open-angle glaucoma is characterised by a slow rise in intraocular pressure, which is symptomless for a long period. It is typically detected following an ocular pressure measurement during a routine examination by an optometrist. Signs of the condition include increased intraocular pressure, visual field defect, and pathological cupping of the optic disc. Case finding and provisional diagnosis are done by an optometrist, and referral to an ophthalmologist is done via the GP. Final diagnosis is made through investigations such as automated perimetry to assess visual field, slit lamp examination with pupil dilatation to assess optic nerve and fundus for a baseline, applanation tonometry to measure IOP, central corneal thickness measurement, and gonioscopy to assess peripheral anterior chamber configuration and depth. The risk of future visual impairment is assessed using risk factors such as IOP, central corneal thickness (CCT), family history, and life expectancy.
The majority of patients with primary open-angle glaucoma are managed with eye drops that aim to lower intraocular pressure and prevent progressive loss of visual field. According to NICE guidelines, the first line of treatment is a prostaglandin analogue (PGA) eyedrop, followed by a beta-blocker, carbonic anhydrase inhibitor, or sympathomimetic eyedrop as a second line of treatment. Surgery or laser treatment can be tried in more advanced cases. Reassessment is important to exclude progression and visual field loss and needs to be done more frequently if IOP is uncontrolled, the patient is high risk, or there
-
This question is part of the following fields:
- Neurological System
-
-
Question 28
Correct
-
A 50-year-old man is brought to the emergency department following a collapse on the street. Upon examination, he displays visual and oculomotor deficits, but his motor function remains intact. Digital subtraction angiography reveals a basilar artery occlusion at the point where the vertebral arteries merge to form the basilar artery. What anatomical feature corresponds to the location of the occlusion?
Your Answer: The base of the pons
Explanation:The basilar artery is formed by the union of the vertebral arteries at the base of the pons.
The Circle of Willis is an anastomosis formed by the internal carotid arteries and vertebral arteries on the bottom surface of the brain. It is divided into two halves and is made up of various arteries, including the anterior communicating artery, anterior cerebral artery, internal carotid artery, posterior communicating artery, and posterior cerebral arteries. The circle and its branches supply blood to important areas of the brain, such as the corpus striatum, internal capsule, diencephalon, and midbrain.
The vertebral arteries enter the cranial cavity through the foramen magnum and lie in the subarachnoid space. They then ascend on the anterior surface of the medulla oblongata and unite to form the basilar artery at the base of the pons. The basilar artery has several branches, including the anterior inferior cerebellar artery, labyrinthine artery, pontine arteries, superior cerebellar artery, and posterior cerebral artery.
The internal carotid arteries also have several branches, such as the posterior communicating artery, anterior cerebral artery, middle cerebral artery, and anterior choroid artery. These arteries supply blood to different parts of the brain, including the frontal, temporal, and parietal lobes. Overall, the Circle of Willis and its branches play a crucial role in providing oxygen and nutrients to the brain.
-
This question is part of the following fields:
- Cardiovascular System
-
-
Question 29
Correct
-
A 30-year-old male and his partner visit the fertility clinic after attempting to conceive for the past year and a half. During the evaluation, the husband undergoes a semen analysis which reveals a low sperm count. What is the cellular composition of sperm cells?
Your Answer: Haploid
Explanation:Haploid cells have one set of chromosomes, diploid cells have two sets, and triploid cells have three sets.
The Process of Spermatogenesis
The process of spermatogenesis is essential for the continuation of our species. It involves diploid mitosis followed by haploid meiosis, resulting in the production of a haploid sperm cell. Unlike females, males have a constant supply of gametes due to the continuous occurrence of spermatogenesis.
Human gametes are haploid cells that contain 23 chromosomes, each of which is individual and one of a pair. Spermatogonial cells undergo constant mitosis, and when they reach the luminal compartment, they become primary spermatocytes. These cells then undergo two stages of meiosis, forming a secondary spermatocyte and then a spermatid. The spermatids migrate to the apex/lumen, where they undergo spermatogenesis, the final maturation and differentiation of the sperm, before being released as sperm cells.
-
This question is part of the following fields:
- Reproductive System
-
-
Question 30
Incorrect
-
Which of the following would not increase the rate of diffusion of a substance across a lipid membrane such as the cell wall?
Your Answer: Area of the membrane
Correct Answer: Thickness of the membrane
Explanation:Diffusion and Fick’s Law
Diffusion is a natural process that occurs when molecules move from an area of high concentration to an area of low concentration. This process is passive and random, meaning that it does not require any external energy input. Fick’s Law states that diffusion occurs more quickly across a large, permeable, and thin membrane. For example, in lung disease, the thickening of the alveolar epithelial barrier can lead to a poor carbon monoxide transfer coefficient because the thicker membrane slows down the diffusion process. the principles of diffusion and Fick’s Law can help us better understand how molecules move and interact in various biological and chemical processes. By optimizing the conditions for diffusion, we can improve the efficiency of many natural and artificial systems.
-
This question is part of the following fields:
- Basic Sciences
-
00
Correct
00
Incorrect
00
:
00
:
0
00
Session Time
00
:
00
Average Question Time (
Secs)