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Question 1
Correct
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A teenage boy is on a date with a partner he met on a mobile dating app. After the date, they engage in sexual intercourse. Which neural pathway is responsible for his ejaculation, controlled by the autonomic nervous system?
Your Answer: Sympathetic output from the sympathetic trunk at L1
Explanation:The L1 level of the sympathetic outflow controls ejaculation, while the parasympathetic branch controls the erection of the penis. This can be remembered as ‘Point and Shoot’, with the parasympathetic controlling the ‘point’ of the erection and the sympathetic controlling the ‘shoot’ of ejaculation. If there is damage to the L1 level or lumbar ganglia, it can result in the inability to achieve ejaculation.
Anatomy of the Sympathetic Nervous System
The sympathetic nervous system is responsible for the fight or flight response in the body. The preganglionic efferent neurons of this system are located in the lateral horn of the grey matter of the spinal cord in the thoraco-lumbar regions. These neurons leave the spinal cord at levels T1-L2 and pass to the sympathetic chain. The sympathetic chain lies on the vertebral column and runs from the base of the skull to the coccyx. It is connected to every spinal nerve through lateral branches, which then pass to structures that receive sympathetic innervation at the periphery.
The sympathetic ganglia are also an important part of this system. The superior cervical ganglion lies anterior to C2 and C3, while the middle cervical ganglion (if present) is located at C6. The stellate ganglion is found anterior to the transverse process of C7 and lies posterior to the subclavian artery, vertebral artery, and cervical pleura. The thoracic ganglia are segmentally arranged, and there are usually four lumbar ganglia.
Interruption of the head and neck supply of the sympathetic nerves can result in an ipsilateral Horners syndrome. For the treatment of hyperhidrosis, sympathetic denervation can be achieved by removing the second and third thoracic ganglia with their rami. However, removal of T1 is not performed as it can cause a Horners syndrome. In patients with vascular disease of the lower limbs, a lumbar sympathetomy may be performed either radiologically or surgically. The ganglia of L2 and below are disrupted, but if L1 is removed, ejaculation may be compromised, and little additional benefit is conferred as the preganglionic fibres do not arise below L2.
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This question is part of the following fields:
- Neurological System
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Question 2
Incorrect
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A 89-year-old man presents to his GP with a recent change in his vision. He reports experiencing a gradual painless loss of vision in his left eye for about 5 minutes, described as a 'rising curtain', which has now resolved completely. The patient has a medical history of hypertension and dyslipidemia. Upon examination, both pupils are equal, round, and reactive to light, and fundoscopy shows no apparent pathology. What blood vessel is the most likely culprit for the patient's vision loss?
Your Answer: Posterior inferior cerebellar artery
Correct Answer: Central retinal artery
Explanation:Amaurosis fugax is a type of transient ischaemic attack (TIA) that affects the central retinal artery, not stroke. The patient’s description of transient monocular vision loss that appears as a ‘rising curtain’ is characteristic of this condition. Urgent referral to a TIA clinic is necessary.
Occlusion of the anterior spinal artery is not associated with vision loss, but may cause motor loss and loss of temperature and pain sensation below the level of the lesion.
Occlusion of the central retinal vein may cause painless monocular vision loss, but not the characteristic ‘rising curtain’ distribution of vision loss seen in amaurosis fugax.
Occlusion of the ophthalmic vein may cause a painful reduction in visual acuity, along with other symptoms such as ptosis, proptosis, and impaired visual acuity.
Occlusion of the posterior inferior cerebellar artery is not associated with monocular vision loss, but is associated with lateral medullary syndrome.
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.
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This question is part of the following fields:
- Neurological System
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Question 3
Incorrect
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A 65-year-old male arrives at the emergency department with alterations in his vision. During the conversation, he uses nonsensical words such as 'I went for a walk this morning and saw the tree lights shining'. However, he can communicate fluently. The possibility of a brain lesion is high.
Which specific region of the brain is likely to be impacted?Your Answer: Occipital lobe
Correct Answer: Temporal lobe
Explanation:Fluent speech may still be present despite neologisms and word substitution resulting from temporal lobe lesions. Superior homonymous quadrantanopia may also occur. Apraxia can be caused by lesions in the parietal lobe, while changes to vision may result from lesions in the occipital lobe. Non-fluent speech can be caused by lesions in the frontal lobe, while ataxia, intention tremor, and dysdiadochokinesia may result from lesions in the cerebellum.
Brain lesions can be localized based on the neurological disorders or features that are present. The gross anatomy of the brain can provide clues to the location of the lesion. For example, lesions in the parietal lobe can result in sensory inattention, apraxias, astereognosis, inferior homonymous quadrantanopia, and Gerstmann’s syndrome. Lesions in the occipital lobe can cause homonymous hemianopia, cortical blindness, and visual agnosia. Temporal lobe lesions can result in Wernicke’s aphasia, superior homonymous quadrantanopia, auditory agnosia, and prosopagnosia. Lesions in the frontal lobes can cause expressive aphasia, disinhibition, perseveration, anosmia, and an inability to generate a list. Lesions in the cerebellum can result in gait and truncal ataxia, intention tremor, past pointing, dysdiadokinesis, and nystagmus.
In addition to the gross anatomy, specific areas of the brain can also provide clues to the location of a lesion. For example, lesions in the medial thalamus and mammillary bodies of the hypothalamus can result in Wernicke and Korsakoff syndrome. Lesions in the subthalamic nucleus of the basal ganglia can cause hemiballism, while lesions in the striatum (caudate nucleus) can result in Huntington chorea. Parkinson’s disease is associated with lesions in the substantia nigra of the basal ganglia, while lesions in the amygdala can cause Kluver-Bucy syndrome, which is characterized by hypersexuality, hyperorality, hyperphagia, and visual agnosia. By identifying these specific conditions, doctors can better localize brain lesions and provide appropriate treatment.
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This question is part of the following fields:
- Neurological System
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Question 4
Incorrect
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Which of the following is accountable for the production and discharge of calcitonin?
Your Answer: Adrenal glands
Correct Answer: Thyroid gland
Explanation:The thyroid gland releases calcitonin, which has an opposing effect to PTH.
Maintaining Calcium Balance in the Body
Calcium ions are essential for various physiological processes in the body, and the largest store of calcium is found in the skeleton. The levels of calcium in the body are regulated by three hormones: parathyroid hormone (PTH), vitamin D, and calcitonin.
PTH increases calcium levels and decreases phosphate levels by increasing bone resorption and activating osteoclasts. It also stimulates osteoblasts to produce a protein signaling molecule that activates osteoclasts, leading to bone resorption. PTH increases renal tubular reabsorption of calcium and the synthesis of 1,25(OH)2D (active form of vitamin D) in the kidney, which increases bowel absorption of calcium. Additionally, PTH decreases renal phosphate reabsorption.
Vitamin D, specifically the active form 1,25-dihydroxycholecalciferol, increases plasma calcium and plasma phosphate levels. It increases renal tubular reabsorption and gut absorption of calcium, as well as osteoclastic activity. Vitamin D also increases renal phosphate reabsorption in the proximal tubule.
Calcitonin, secreted by C cells of the thyroid, inhibits osteoclast activity and renal tubular absorption of calcium.
Although growth hormone and thyroxine play a small role in calcium metabolism, the primary regulation of calcium levels in the body is through PTH, vitamin D, and calcitonin. Maintaining proper calcium balance is crucial for overall health and well-being.
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This question is part of the following fields:
- Neurological System
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Question 5
Correct
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A 35-year-old woman presents to the Emergency Department with a stab wound to her forearm following a robbery. Upon examination, there is numbness observed in the thenar eminence and weakness in finger and wrist flexion. Which nerve is the most probable to have been damaged?
Your Answer: Median nerve
Explanation:The median nerve is responsible for providing sensation to the thenar eminence and controlling finger and wrist flexion. Its palmar cutaneous branch supplies sensation to the skin on the lateral side of the palm, including the thenar eminence. The median nerve directly innervates the flexor carpi radialis and palmaris longus muscles, which are responsible for wrist flexion, as well as the flexor digitorum superficialis and lateral half of the flexor digitorum profundus muscles via the anterior interosseous nerve, which control finger flexion. Damage to the median nerve can result in weakness in these movements.
Anatomy and Function of the Median Nerve
The median nerve is a nerve that originates from the lateral and medial cords of the brachial plexus. It descends lateral to the brachial artery and passes deep to the bicipital aponeurosis and the median cubital vein at the elbow. The nerve then passes between the two heads of the pronator teres muscle and runs on the deep surface of flexor digitorum superficialis. Near the wrist, it becomes superficial between the tendons of flexor digitorum superficialis and flexor carpi radialis, passing deep to the flexor retinaculum to enter the palm.
The median nerve has several branches that supply the upper arm, forearm, and hand. These branches include the pronator teres, flexor carpi radialis, palmaris longus, flexor digitorum superficialis, flexor pollicis longus, and palmar cutaneous branch. The nerve also provides motor supply to the lateral two lumbricals, opponens pollicis, abductor pollicis brevis, and flexor pollicis brevis muscles, as well as sensory supply to the palmar aspect of the lateral 2 ½ fingers.
Damage to the median nerve can occur at the wrist or elbow, resulting in various symptoms such as paralysis and wasting of thenar eminence muscles, weakness of wrist flexion, and sensory loss to the palmar aspect of the fingers. Additionally, damage to the anterior interosseous nerve, a branch of the median nerve, can result in loss of pronation of the forearm and weakness of long flexors of the thumb and index finger. Understanding the anatomy and function of the median nerve is important in diagnosing and treating conditions that affect this nerve.
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This question is part of the following fields:
- Neurological System
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Question 6
Incorrect
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A 28-year-old woman has been brought to the emergency department via ambulance after being discovered unconscious in a nearby park, with a heroin-filled needle found nearby.
During the examination, the patient's heart rate is recorded at 44/min, BP at 110/60 mmHg, and respiratory rate at 10. Upon checking her pupils, they are observed to be pinpoint.
Which three G protein-coupled receptors are affected by the drug responsible for this?Your Answer: GABA-B, D-2 and kappa
Correct Answer: Delta, mu and kappa
Explanation:The three clinically relevant opioid receptors in the body are delta, mu, and kappa. These receptors are all G protein-coupled receptors and are responsible for the pharmacological actions of opioids. Based on the examination findings of bradycardia, bradypnoea, and pinpoint pupils, it is likely that the woman has experienced an opioid overdose. The answer GABA-A, delta and mu is not appropriate as the GABA-A receptor is a ligand-gated ion channel receptor for the inhibitory neurotransmitter GABA. Similarly, GABA-A, kappa and mu is not appropriate for the same reason. GABA-B, D-2 and kappa is also not appropriate as the GABA-B receptor is a G-protein-coupled receptor for the inhibitory neurotransmitter GABA, and the D-2 receptor is a G protein-coupled receptor for dopamine.
Understanding Opioids: Types, Receptors, and Clinical Uses
Opioids are a class of chemical compounds that act upon opioid receptors located within the central nervous system (CNS). These receptors are G-protein coupled receptors that have numerous actions throughout the body. There are three clinically relevant groups of opioid receptors: mu (µ), kappa (κ), and delta (δ) receptors. Endogenous opioids, such as endorphins, dynorphins, and enkephalins, are produced by specific cells within the CNS and their actions depend on whether µ-receptors or δ-receptors and κ-receptors are their main target.
Drugs targeted at opioid receptors are the largest group of analgesic drugs and form the second and third steps of the WHO pain ladder of managing analgesia. The choice of which opioid drug to use depends on the patient’s needs and the clinical scenario. The first step of the pain ladder involves non-opioids such as paracetamol and non-steroidal anti-inflammatory drugs. The second step involves weak opioids such as codeine and tramadol, while the third step involves strong opioids such as morphine, oxycodone, methadone, and fentanyl.
The strength, routes of administration, common uses, and significant side effects of these opioid drugs vary. Weak opioids have moderate analgesic effects without exposing the patient to as many serious adverse effects associated with strong opioids. Strong opioids have powerful analgesic effects but are also more liable to cause opioid-related side effects such as sedation, respiratory depression, constipation, urinary retention, and addiction. The sedative effects of opioids are also useful in anesthesia with potent drugs used as part of induction of a general anesthetic.
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This question is part of the following fields:
- Neurological System
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Question 7
Incorrect
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A 12-year-old boy comes to the GP after experiencing unusual behavior. His mother accompanies him and reports that her son suddenly started smacking his lips together for a brief period. She adds that he then complained of smelling a foul odor that she couldn't detect. Given the family history of epilepsy, you suspect that he may have had a seizure. What type of seizure is typically associated with these symptoms?
Your Answer: Frontal lobe seizure
Correct Answer: Temporal lobe seizure
Explanation:Temporal lobe seizures can lead to hallucinations, including olfactory hallucinations, which is likely the cause of this patient’s presentation.
Flashes and floaters are a common symptom of occipital lobe seizures.
Juvenile myoclonic epilepsy can cause occasional generalized seizures and daytime absences.
Parietal lobe seizures can result in 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.
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This question is part of the following fields:
- Neurological System
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Question 8
Incorrect
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A woman in her 50s with lung cancer and bone metastasis in the thoracic spinal vertebral bodies experiences a pathological fracture at the level of T4. The fracture is unstable and the spinal cord is severely compressed at this level. Which of the following findings will not be present six weeks after the injury?
Your Answer: Sensory ataxia
Correct Answer: Diminished patellar tendon reflex
Explanation:When there is a lesion in the thoracic cord, it can lead to spastic paraparesis, hyperreflexia, and extensor plantar responses, which are all signs of an upper motor neuron (UMN) lesion. In addition, there may be incontinence, loss of sensation below the lesion, and a type of ataxia known as sensory ataxia. These symptoms usually appear a few weeks after the initial injury, once the spinal shock phase (characterized by areflexia) has passed.
The spinal cord is a central structure located within the vertebral column that provides it with structural support. It extends rostrally to the medulla oblongata of the brain and tapers caudally at the L1-2 level, where it is anchored to the first coccygeal vertebrae by the filum terminale. The cord is characterised by cervico-lumbar enlargements that correspond to the brachial and lumbar plexuses. It is incompletely divided into two symmetrical halves by a dorsal median sulcus and ventral median fissure, with grey matter surrounding a central canal that is continuous with the ventricular system of the CNS. Afferent fibres entering through the dorsal roots usually terminate near their point of entry but may travel for varying distances in Lissauer’s tract. The key point to remember is that the anatomy of the cord will dictate the clinical presentation in cases of injury, which can be caused by trauma, neoplasia, inflammatory diseases, vascular issues, or infection.
One important condition to remember is Brown-Sequard syndrome, which is caused by hemisection of the cord and produces ipsilateral loss of proprioception and upper motor neuron signs, as well as contralateral loss of pain and temperature sensation. Lesions below L1 tend to present with lower motor neuron signs. It is important to keep a clinical perspective in mind when revising CNS anatomy and to understand the ways in which the spinal cord can become injured, as this will help in diagnosing and treating patients with spinal cord injuries.
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This question is part of the following fields:
- Neurological System
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Question 9
Correct
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A 39-year-old male patient is presented to the neurology outpatient department by his GP due to recurring episodes of déjà vu. Apart from this, he has no significant medical history.
During the examination, the patient suddenly starts smacking his lips for about a minute. After the event, he experiences temporary difficulty in expressing himself fluently, which resolves on its own.
Based on the symptoms, which area of the brain is likely to be affected?Your Answer: Temporal lobe
Explanation:Temporal lobe seizures can be identified by the presence of lip smacking and postictal dysphasia. These symptoms, along with a recurrent sense of déjà vu, suggest that the seizure is localized in the temporal lobe. Seizures in other parts of the brain, such as the frontal, occipital, or parietal lobes, typically present with different symptoms. Generalized seizures affecting the entire brain result in loss of consciousness and generalized tonic-clonic seizures.
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.
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This question is part of the following fields:
- Neurological System
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Question 10
Incorrect
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A 30-year-old man is brought to the clinic by his wife who complains that her husband engages in public masturbation and manipulates his genitals. He frequently licks objects and attempts to put them in his mouth. The wife also reports a recent significant increase in his appetite followed by purging. She is distressed that her husband seems emotionally unaffected. These symptoms began after he suffered a severe head injury 6 months ago and was found to have bilateral medial temporal lobe damage on imaging. On examination, the patient is unable to recognize familiar objects placed in front of him. Which part of the brain is most likely to have a lesion in this patient?
Your Answer: Frontal lobe
Correct Answer: Amygdala
Explanation:Kluver-Bucy syndrome can be caused by lesions in the amygdala, which is a part of the limbic system located in the medial portion of the temporal lobes on both sides of the brain. This condition may present with symptoms such as hypersexuality, hyperorality, hyperphagia, bulimia, placid response to emotions, and visual agnosia/psychic blindness. The lesions that cause Kluver-Bucy syndrome can be a result of various factors such as infection, trauma, stroke, or organic brain disease.
The cerebellum is an incorrect answer because cerebellar lesions primarily affect gait and cause truncal ataxia, along with other symptoms such as intention tremors and nystagmus.
Frontal lobe lesions can lead to Broca’s aphasia, which affects the fluency of speech, but comprehension of language remains intact.
The occipital lobe is also an incorrect answer because lesions in this area are commonly associated with homonymous hemianopia, a condition where only one side of the visual field remains visible. While visual agnosia can occur with an occipital lobe lesion, it does not account for the other symptoms seen in Kluver-Bucy syndrome such as hypersexuality and hyperorality.
Brain lesions can be localized based on the neurological disorders or features that are present. The gross anatomy of the brain can provide clues to the location of the lesion. For example, lesions in the parietal lobe can result in sensory inattention, apraxias, astereognosis, inferior homonymous quadrantanopia, and Gerstmann’s syndrome. Lesions in the occipital lobe can cause homonymous hemianopia, cortical blindness, and visual agnosia. Temporal lobe lesions can result in Wernicke’s aphasia, superior homonymous quadrantanopia, auditory agnosia, and prosopagnosia. Lesions in the frontal lobes can cause expressive aphasia, disinhibition, perseveration, anosmia, and an inability to generate a list. Lesions in the cerebellum can result in gait and truncal ataxia, intention tremor, past pointing, dysdiadokinesis, and nystagmus.
In addition to the gross anatomy, specific areas of the brain can also provide clues to the location of a lesion. For example, lesions in the medial thalamus and mammillary bodies of the hypothalamus can result in Wernicke and Korsakoff syndrome. Lesions in the subthalamic nucleus of the basal ganglia can cause hemiballism, while lesions in the striatum (caudate nucleus) can result in Huntington chorea. Parkinson’s disease is associated with lesions in the substantia nigra of the basal ganglia, while lesions in the amygdala can cause Kluver-Bucy syndrome, which is characterized by hypersexuality, hyperorality, hyperphagia, and visual agnosia. By identifying these specific conditions, doctors can better localize brain lesions and provide appropriate treatment.
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This question is part of the following fields:
- Neurological System
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