00
Correct
00
Incorrect
00 : 00 : 00
Session Time
00 : 00
Average Question Time ( Mins)
  • Question 1 - To which category does the dentate gyrus belong? ...

    Correct

    • To which category does the dentate gyrus belong?

      Your Answer: Hippocampus

      Explanation:

      The dentate gyrus is a component of the hippocampal formation.

      A gyrus is a ridge on the cerebral cortex, and there are several important gyri to be aware of in exams. These include the angular gyrus in the parietal lobe for language, mathematics, and cognition; the cingulate gyrus adjacent to the corpus callosum for emotion, learning, and memory; the fusiform gyrus in the temporal lobe for face and body recognition, as well as word and number recognition; the precentral gyrus in the frontal lobe for voluntary movement control; the postcentral gyrus in the parietal lobe for touch; the lingual gyrus in the occipital lobe for dreaming and word recognition; the superior frontal gyrus in the frontal lobe for laughter and self-awareness; the superior temporal gyrus in the temporal lobe for language and sensation of sound; the parahippocampal gyrus surrounding the hippocampus for memory; and the dentate gyrus in the hippocampus for the formation of episodic memory.

    • This question is part of the following fields:

      • Neurosciences
      148.4
      Seconds
  • Question 2 - Which brain system enables the integration of emotional sensory information between the cortex...

    Incorrect

    • Which brain system enables the integration of emotional sensory information between the cortex and hypothalamus?

      Your Answer: Basal ganglia

      Correct Answer: Papez circuit

      Explanation:

      In 1937, James Papez proposed a neural circuit that explained how emotional experiences occur in the brain. According to Papez, sensory messages related to emotional stimuli are first received by the thalamus, which then directs them to both the cortex (stream of thinking) and hypothalamus (stream of feeling). The cingulate cortex integrates this information from the hypothalamus and sensory cortex, leading to emotional experiences. The output via the hippocampus and hypothalamus allows cortical control of emotional responses. This circuit has since been reconceptualized as the limbic system.

      The medial longitudinal fasciculus carries fibres from cranial nerves III, IV and IV. The nucleus accumbens plays a major role in the reward circuit, while the somatosensory cortex is involved in processing pain. The basal ganglia are involved in voluntary motor control.

      Overall, the Papez circuit theory provides a framework for understanding the functional neuroanatomy of emotion. It highlights the importance of the limbic system in emotional experiences and the role of various brain regions in processing different aspects of emotional stimuli.

    • This question is part of the following fields:

      • Neurosciences
      28
      Seconds
  • Question 3 - What neuropathological evidence would provide the strongest support for a diagnosis of chronic...

    Correct

    • What neuropathological evidence would provide the strongest support for a diagnosis of chronic traumatic encephalopathy?

      Your Answer: Tau accumulations, predominantly around small intracortical blood vessels

      Explanation:

      Dementia Pugilistica: A Neurodegenerative Condition Resulting from Neurotrauma

      Dementia pugilistica, also known as chronic traumatic encephalopathy (CTE), is a neurodegenerative condition that results from neurotrauma. It is commonly seen in boxers and NFL players, but can also occur in anyone with neurotrauma. The condition is characterized by symptoms such as gait ataxia, slurred speech, impaired hearing, tremors, disequilibrium, neurobehavioral disturbances, and progressive cognitive decline.

      Most cases of dementia pugilistica present with early onset cognitive deficits, and behavioral signs exhibited by patients include aggression, suspiciousness, paranoia, childishness, hypersexuality, depression, and restlessness. The progression of the condition leads to more prominent behavioral symptoms such as difficulty with impulse control, irritability, inappropriateness, and explosive outbursts of aggression.

      Neuropathological abnormalities have been identified in CTE, with the most unique feature being the abnormal accumulation of tau in neurons and glia in an irregular, focal, perivascular distribution and at the depths of cortical sulci. Abnormalities of the septum pellucidum, such as cavum and fenestration, are also a common feature.

      While the condition has become increasingly rare due to the progressive improvement in sports safety, it is important to recognize the potential long-term consequences of repeated head injuries and take steps to prevent them.

    • This question is part of the following fields:

      • Neurosciences
      203.8
      Seconds
  • Question 4 - What EEG finding has consistently been associated with the use of clozapine? ...

    Incorrect

    • What EEG finding has consistently been associated with the use of clozapine?

      Your Answer: Increased alpha, decreased theta, and decreased delta

      Correct Answer: Decreased alpha, increased theta, increased delta

      Explanation:

      Electroencephalography

      Electroencephalography (EEG) is a clinical test that records the brain’s spontaneous electrical activity over a short period of time using multiple electrodes placed on the scalp. It is mainly used to rule out organic conditions and can help differentiate dementia from other disorders such as metabolic encephalopathies, CJD, herpes encephalitis, and non-convulsive status epilepticus. EEG can also distinguish possible psychotic episodes and acute confusional states from non-convulsive status epilepticus.

      Not all abnormal EEGs represent an underlying condition, and psychotropic medications can affect EEG findings. EEG abnormalities can also be triggered purposely by activation procedures such as hyperventilation, photic stimulation, certain drugs, and sleep deprivation.

      Specific waveforms are seen in an EEG, including delta, theta, alpha, sigma, beta, and gamma waves. Delta waves are found frontally in adults and posteriorly in children during slow wave sleep, and excessive amounts when awake may indicate pathology. Theta waves are generally seen in young children, drowsy and sleeping adults, and during meditation. Alpha waves are seen posteriorly when relaxed and when the eyes are closed, and are also seen in meditation. Sigma waves are bursts of oscillatory activity that occur in stage 2 sleep. Beta waves are seen frontally when busy of concentrating, and gamma waves are seen in advanced/very experienced meditators.

      Certain conditions are associated with specific EEG changes, such as nonspecific slowing in early CJD, low voltage EEG in Huntington’s, diffuse slowing in encephalopathy, and reduced alpha and beta with increased delta and theta in Alzheimer’s.

      Common epileptiform patterns include spikes, spike/sharp waves, and spike-waves. Medications can have important effects on EEG findings, with clozapine decreasing alpha and increasing delta and theta, lithium increasing all waveforms, lamotrigine decreasing all waveforms, and valproate having inconclusive effects on delta and theta and increasing beta.

      Overall, EEG is a useful tool in clinical contexts for ruling out organic conditions and differentiating between various disorders.

    • This question is part of the following fields:

      • Neurosciences
      122.9
      Seconds
  • Question 5 - What is the area of the brain that is responsible for causing the...

    Correct

    • What is the area of the brain that is responsible for causing the Klüver-Bucy syndrome when it experiences dysfunction on both sides?

      Your Answer: Temporal lobe

      Explanation:

      Kluver-Bucy Syndrome: Causes and Symptoms

      Kluver-Bucy syndrome is a neurological disorder that results from bilateral medial temporal lobe dysfunction, particularly in the amygdala. This condition is characterized by a range of symptoms, including hyperorality (a tendency to explore objects with the mouth), hypersexuality, docility, visual agnosia, and dietary changes.

      The most common causes of Kluver-Bucy syndrome include herpes, late-stage Alzheimer’s disease, frontotemporal dementia, trauma, and bilateral temporal lobe infarction. In some cases, the condition may be reversible with treatment, but in others, it may be permanent and require ongoing management. If you of someone you know is experiencing symptoms of Kluver-Bucy syndrome, it is important to seek medical attention promptly to determine the underlying cause and develop an appropriate treatment plan.

    • This question is part of the following fields:

      • Neurosciences
      133.4
      Seconds
  • Question 6 - What is the inability of a patient with astereognosia? ...

    Correct

    • What is the inability of a patient with astereognosia?

      Your Answer: Recognise objects by touch

      Explanation:

      Agnosia is a condition where a person loses the ability to recognize objects, persons, sounds, shapes, of smells, despite having no significant memory loss of defective senses. There are different types of agnosia, such as prosopagnosia (inability to recognize familiar faces), anosognosia (inability to recognize one’s own condition/illness), autotopagnosia (inability to orient parts of the body), phonagnosia (inability to recognize familiar voices), simultanagnosia (inability to appreciate two objects in the visual field at the same time), and astereoagnosia (inability to recognize objects by touch).

    • This question is part of the following fields:

      • Neurosciences
      41
      Seconds
  • Question 7 - In what conditions are Kuru plaques occasionally observed? ...

    Correct

    • In what conditions are Kuru plaques occasionally observed?

      Your Answer: Creutzfeldt-Jakob disease

      Explanation:

      Pathology Findings in Psychiatry

      There are several pathology findings that are associated with various psychiatric conditions. Papp-Lantos bodies, for example, are visible in the CNS and are associated with multisystem atrophy. Pick bodies, on the other hand, are large, dark-staining aggregates of proteins in neurological tissue and are associated with frontotemporal dementia.

      Lewy bodies are another common pathology finding in psychiatry and are associated with Parkinson’s disease and Lewy Body dementia. These are round, concentrically laminated, pale eosinophilic cytoplasmic inclusions that are aggregates of alpha-synuclein.

      Other pathology findings include asteroid bodies, which are associated with sarcoidosis and berylliosis, and are acidophilic, stellate inclusions in giant cells. Barr bodies are associated with stains of X chromosomes and are inactivated X chromosomes that appear as a dark staining mass in contact with the nuclear membrane.

      Mallory bodies are another common pathology finding and are associated with alcoholic hepatitis, alcoholic cirrhosis, Wilson’s disease, and primary-biliary cirrhosis. These are eosinophilic intracytoplasmic inclusions in hepatocytes that are made up of intermediate filaments, predominantly prekeratin.

      Other pathology findings include Schaumann bodies, which are associated with sarcoidosis and berylliosis, and are concentrically laminated inclusions in giant cells. Zebra bodies are associated with Niemann-Pick disease, Tay-Sachs disease, of any of the mucopolysaccharidoses and are palisaded lamellated membranous cytoplasmic bodies seen in macrophages.

      LE bodies, also known as hematoxylin bodies, are associated with SLE (lupus) and are nuclei of damaged cells with bound anti-nuclear antibodies that become homogeneous and loose chromatin pattern. Verocay bodies are associated with Schwannoma (Neurilemoma) and are palisades of nuclei at the end of a fibrillar bundle.

      Hirano bodies are associated with normal aging but are more numerous in Alzheimer’s disease. These are eosinophilic, football-shaped inclusions seen in neurons of the brain. Neurofibrillary tangles are another common pathology finding in Alzheimer’s disease and are made up of microtubule-associated proteins and neurofilaments.

      Kayser-Fleischer rings are associated with Wilson’s disease and are rings of discoloration on the cornea. Finally, Kuru plaques are associated with Kuru and Gerstmann-Sträussler syndrome and are sometimes present in patients with Creutzfeldt-Jakob disease (CJD). These are composed partly of a host-encoded prion protein.

    • This question is part of the following fields:

      • Neurosciences
      48.1
      Seconds
  • Question 8 - From which gland is melatonin secreted? ...

    Correct

    • From which gland is melatonin secreted?

      Your Answer: Pineal

      Explanation:

      The pineal gland secretes melatonin, while the adrenal glands secrete cortisol, aldosterone, adrenaline, and noradrenaline. The release of pituitary hormones is regulated by the hypothalamus, which synthesizes and secretes releasing hormones. Additionally, the parathyroid glands secrete parathyroid hormone (PTH).

    • This question is part of the following fields:

      • Neurosciences
      26.9
      Seconds
  • Question 9 - A researcher studying early childhood development is interested in the formation of the...

    Incorrect

    • A researcher studying early childhood development is interested in the formation of the nervous system. What is the initial step in the development of the nervous system?

      Your Answer: Formation of the mesencephalon

      Correct Answer: Formation of the neural groove

      Explanation:

      The nervous system in embryos develops from the neural plate, which is a thickening of the ectoderm. The first step in this process is the formation of the neural groove, which is then surrounded by neural folds. These folds gradually come together and fuse to form the neural tube. The neural crest, which is made up of parts of the neural ectoderm, is formed from the rolled-up sides of the neural tube and helps in the development of the peripheral nervous system. The mesencephalon, of midbrain, is formed from the second vesicle of the neural tube. This process of neural development is essential for the proper functioning of the nervous system in later life.

    • This question is part of the following fields:

      • Neurosciences
      12.8
      Seconds
  • Question 10 - What is the embryonic structure that gives rise to the cerebellum and pons?...

    Incorrect

    • What is the embryonic structure that gives rise to the cerebellum and pons?

      Your Answer: Telencephalon

      Correct Answer: Metencephalon

      Explanation:

      During fetal development, the neural tube at the cranial end gives rise to three major parts: the prosencephalon, mesencephalon, and rhombencephalon. The prosencephalon further divides into the telencephalon and diencephalon, forming the forebrain. The mesencephalon forms the midbrain, while the rhombencephalon splits into the metencephalon (which gives rise to the cerebellum and pons) and myelencephalon (which forms the medulla oblongata and spinal cord).

    • This question is part of the following fields:

      • Neurosciences
      12.6
      Seconds
  • Question 11 - Can you identify the brain structure that is not found in both cerebral...

    Incorrect

    • Can you identify the brain structure that is not found in both cerebral hemispheres?

      Your Answer: Mammillary body

      Correct Answer: Pineal gland

      Explanation:

      Neuroanatomical Structures

      The pineal gland is a unique structure in the brain that is not present bilaterally. It is a small endocrine gland responsible for producing melatonin, a hormone derived from serotonin. Along with the pituitary gland and circumventricular organs, the pineal gland is one of the few unpaired structures in the brain.

      In contrast, the caudate nucleus is a paired structure located within the basal ganglia. It is present bilaterally and plays a crucial role in motor control and learning.

      The midbrain contains the Mammillary body, which is also a paired structure involved in long-term memory formation. These structures work together to help us remember and recall past experiences.

      Finally, the supraoptic nucleus is duplicated in each cerebral hemisphere. This structure is involved in regulating water balance and plays a critical role in maintaining homeostasis in the body.

    • This question is part of the following fields:

      • Neurosciences
      101.5
      Seconds
  • Question 12 - Which of these is a feature of Balint's syndrome? ...

    Correct

    • Which of these is a feature of Balint's syndrome?

      Your Answer: Simultagnosia

      Explanation:

      Simultagnosia is a condition where an individual is unable to focus on more than one aspect of a complex scene at a time. This condition, along with optic ataxia and oculomotor apraxia, is part of Balint’s syndrome.

      Gerstmann syndrome is characterized by four symptoms: dysgraphia/agraphia, dyscalculia/acalculia, finger agnosia, and left-right disorientation. This syndrome is linked to a lesion in the dominant parietal lobe, specifically the left side of the angular and supramarginal gyri. It is rare for an individual to present with all four symptoms of the tetrad.

    • This question is part of the following fields:

      • Neurosciences
      112.5
      Seconds
  • Question 13 - Which germ cell layer gives rise to the developing human brain during embryonic...

    Incorrect

    • Which germ cell layer gives rise to the developing human brain during embryonic development?

      Your Answer: Endoderm

      Correct Answer: Ectoderm

      Explanation:

      The three primary cell layers in embryonic development are the ectoderm, endoderm, and mesoderm. The ectoderm is responsible for the development of the nervous system, skin, and tooth enamel. The endoderm differentiates into the epithelial lining of the gastrointestinal, respiratory, and renal tracts, while the mesoderm develops into muscle, blood, and connective tissues. Within the ectodermal layer, a neural plate thickens and folds to form the neural tube, which ultimately gives rise to the brain and spinal cord.

    • This question is part of the following fields:

      • Neurosciences
      16.7
      Seconds
  • Question 14 - What statement accurately describes the trigeminal nerve? ...

    Correct

    • What statement accurately describes the trigeminal nerve?

      Your Answer: It is a mixed nerve with both sensory and motor functions

      Explanation:

      The trigeminal nerve, which is the largest cranial nerve, serves both sensory and motor functions. It is composed of three primary branches, namely the ophthalmic, maxillary, and mandibular branches. This nerve is responsible for providing sensory information to the face and head, while also controlling the muscles involved in chewing. On the other hand, the facial nerve is responsible for controlling the muscles that enable facial expressions and transmitting information from the front two-thirds of the tongue.

      Overview of Cranial Nerves and Their Functions

      The cranial nerves are a complex system of nerves that originate from the brain and control various functions of the head and neck. There are twelve cranial nerves, each with a specific function and origin. The following table provides a simplified overview of the cranial nerves, including their origin, skull exit, modality, and functions.

      The first cranial nerve, the olfactory nerve, originates from the telencephalon and exits through the cribriform plate. It is a sensory nerve that controls the sense of smell. The second cranial nerve, the optic nerve, originates from the diencephalon and exits through the optic foramen. It is a sensory nerve that controls vision.

      The third cranial nerve, the oculomotor nerve, originates from the midbrain and exits through the superior orbital fissure. It is a motor nerve that controls eye movement, pupillary constriction, and lens accommodation. The fourth cranial nerve, the trochlear nerve, also originates from the midbrain and exits through the superior orbital fissure. It is a motor nerve that controls eye movement.

      The fifth cranial nerve, the trigeminal nerve, originates from the pons and exits through different foramina depending on the division. It is a mixed nerve that controls chewing and sensation of the anterior 2/3 of the scalp. It also tenses the tympanic membrane to dampen loud noises.

      The sixth cranial nerve, the abducens nerve, originates from the pons and exits through the superior orbital fissure. It is a motor nerve that controls eye movement. The seventh cranial nerve, the facial nerve, also originates from the pons and exits through the internal auditory canal. It is a mixed nerve that controls facial expression, taste of the anterior 2/3 of the tongue, and tension on the stapes to dampen loud noises.

      The eighth cranial nerve, the vestibulocochlear nerve, originates from the pons and exits through the internal auditory canal. It is a sensory nerve that controls hearing. The ninth cranial nerve, the glossopharyngeal nerve, originates from the medulla and exits through the jugular foramen. It is a mixed nerve that controls taste of the posterior 1/3 of the tongue, elevation of the larynx and pharynx, and swallowing.

      The tenth cranial nerve, the vagus nerve, also originates from the medulla and exits through the jugular foramen. It is a mixed nerve that controls swallowing, voice production, and parasympathetic supply to nearly all thoracic and abdominal viscera. The eleventh cranial nerve, the accessory nerve, originates from the medulla and exits through the jugular foramen. It is a motor nerve that controls shoulder shrugging and head turning.

      The twelfth cranial nerve, the hypoglossal nerve, originates from the medulla and exits through the hypoglossal canal. It is a motor nerve that controls tongue movement. Overall, the cranial nerves play a crucial role in controlling various functions of the head and neck, and any damage of dysfunction can have significant consequences.

    • This question is part of the following fields:

      • Neurosciences
      43
      Seconds
  • Question 15 - Which nuclei in the hypothalamus are responsible for the production and release of...

    Incorrect

    • Which nuclei in the hypothalamus are responsible for the production and release of dopamine that is transported to the pituitary gland through the infundibulum?

      Your Answer: Ventromedial

      Correct Answer: Arcuate

      Explanation:

      Functions of the Hypothalamus

      The hypothalamus is a vital part of the brain that plays a crucial role in regulating various bodily functions. It receives and integrates sensory information about the internal environment and directs actions to control internal homeostasis. The hypothalamus contains several nuclei and fiber tracts, each with specific functions.

      The suprachiasmatic nucleus (SCN) is responsible for regulating circadian rhythms. Neurons in the SCN have an intrinsic rhythm of discharge activity and receive input from the retina. The SCN is considered the body’s master clock, but it has multiple connections with other hypothalamic nuclei.

      Body temperature control is mainly under the control of the preoptic, anterior, and posterior nuclei, which have temperature-sensitive neurons. As the temperature goes above 37ºC, warm-sensitive neurons are activated, triggering parasympathetic activity to promote heat loss. As the temperature goes below 37ºC, cold-sensitive neurons are activated, triggering sympathetic activity to promote conservation of heat.

      The hypothalamus also plays a role in regulating prolactin secretion. Dopamine is tonically secreted by dopaminergic neurons that project from the arcuate nucleus of the hypothalamus into the anterior pituitary gland via the tuberoinfundibular pathway. The dopamine that is released acts on lactotrophic cells through D2-receptors, inhibiting prolactin synthesis. In the absence of pregnancy of lactation, prolactin is constitutively inhibited by dopamine. Dopamine antagonists result in hyperprolactinemia, while dopamine agonists inhibit prolactin secretion.

      In summary, the hypothalamus is a complex structure that regulates various bodily functions, including circadian rhythms, body temperature, and prolactin secretion. Dysfunction of the hypothalamus can lead to various disorders, such as sleep-rhythm disorder, diabetes insipidus, hyperprolactinemia, and obesity.

    • This question is part of the following fields:

      • Neurosciences
      23.3
      Seconds
  • Question 16 - Which of the options below does not belong to the category of small...

    Correct

    • Which of the options below does not belong to the category of small molecule neurotransmitters?

      Your Answer: Prolactin

      Explanation:

      Neurotransmitters are substances used by neurons to communicate with each other and with target tissues. They are synthesized and released from nerve endings into the synaptic cleft, where they bind to receptor proteins in the cellular membrane of the target tissue. Neurotransmitters can be classified into different types, including small molecules (such as acetylcholine, dopamine, norepinephrine, serotonin, and GABA) and large molecules (such as neuropeptides). They can also be classified as excitatory or inhibitory. Receptors can be ionotropic or metabotropic, and the effects of neurotransmitters can be fast of slow. Some important neurotransmitters include acetylcholine, dopamine, GABA, norepinephrine, and serotonin. Each neurotransmitter has a specific synthesis, breakdown, and receptor type. Understanding neurotransmitters is important for understanding the function of the nervous system and for developing treatments for neurological and psychiatric disorders.

    • This question is part of the following fields:

      • Neurosciences
      150.4
      Seconds
  • Question 17 - An older woman presents to the emergency department with sudden onset of left...

    Incorrect

    • An older woman presents to the emergency department with sudden onset of left leg dysfunction, urinary incontinence, and abulia. As her time in the department progresses, her left arm also becomes affected. She has a history of vascular disease. Which artery do you suspect is involved?

      Your Answer: Posterior cerebral artery

      Correct Answer: Anterior cerebral artery

      Explanation:

      When there is a blockage in the anterior cerebral artery, the legs are typically impacted more than the arms. Additionally, a common symptom is abulia, which is a lack of determination of difficulty making firm decisions.

      Brain Blood Supply and Consequences of Occlusion

      The brain receives blood supply from the internal carotid and vertebral arteries, which form the circle of Willis. The circle of Willis acts as a shunt system in case of vessel damage. The three main vessels arising from the circle are the anterior cerebral artery (ACA), middle cerebral artery (MCA), and posterior cerebral artery (PCA). Occlusion of these vessels can result in various neurological deficits. ACA occlusion may cause hemiparesis of the contralateral foot and leg, sensory loss, and frontal signs. MCA occlusion is the most common and can lead to hemiparesis, dysphasia/aphasia, neglect, and visual field defects. PCA occlusion may cause alexia, loss of sensation, hemianopia, prosopagnosia, and cranial nerve defects. It is important to recognize these consequences to provide appropriate treatment.

    • This question is part of the following fields:

      • Neurosciences
      34.7
      Seconds
  • Question 18 - What is a distinguishing characteristic of normal pressure hydrocephalus? ...

    Correct

    • What is a distinguishing characteristic of normal pressure hydrocephalus?

      Your Answer: Incontinence

      Explanation:

      Headache, nausea, vomiting, papilledema, and ocular palsies are symptoms of increased intracranial pressure, which are not typically present in cases of normal pressure hydrocephalus.

      Normal Pressure Hydrocephalus

      Normal pressure hydrocephalus is a type of chronic communicating hydrocephalus, which occurs due to the impaired reabsorption of cerebrospinal fluid (CSF) by the arachnoid villi. Although the CSF pressure is typically high, it remains within the normal range, and therefore, it does not cause symptoms of high intracranial pressure (ICP) such as headache and nausea. Instead, patients with normal pressure hydrocephalus usually present with a classic triad of symptoms, including incontinence, gait ataxia, and dementia, which is often referred to as wet, wobbly, and wacky. Unfortunately, this condition is often misdiagnosed as Parkinson’s of Alzheimer’s disease.

      The classic triad of normal pressure hydrocephalus, also known as Hakim’s triad, includes gait instability, urinary incontinence, and dementia. On the other hand, non-communicating hydrocephalus results from the obstruction of CSF flow in the third of fourth ventricle, which causes symptoms of raised intracranial pressure, such as headache, vomiting, hypertension, bradycardia, altered consciousness, and papilledema.

    • This question is part of the following fields:

      • Neurosciences
      9.4
      Seconds
  • Question 19 - Which structure's degeneration is believed to cause the absence of cholinergic innervation observed...

    Incorrect

    • Which structure's degeneration is believed to cause the absence of cholinergic innervation observed in Alzheimer's disease?

      Your Answer: Nucleus accumbens

      Correct Answer: Nucleus of Meynert

      Explanation:

      The primary origin of acetylcholine in the brain is the Meynert nucleus, which is observed to be atrophied in individuals with Alzheimer’s disease. This clarifies the deficiency of acetylcholine in this disorder and the effectiveness of cholinesterase inhibitors.

      Alzheimer’s disease is characterized by both macroscopic and microscopic changes in the brain. Macroscopic changes include cortical atrophy, ventricular dilation, and depigmentation of the locus coeruleus. Microscopic changes include the presence of senile plaques, neurofibrillary tangles, gliosis, degeneration of the nucleus of Meynert, and Hirano bodies. Senile plaques are extracellular deposits of beta amyloid in the gray matter of the brain, while neurofibrillary tangles are intracellular inclusion bodies that consist primarily of hyperphosphorylated tau. Gliosis is marked by increases in activated microglia and reactive astrocytes near the sites of amyloid plaques. The nucleus of Meynert degenerates in Alzheimer’s, resulting in a decrease in acetylcholine in the brain. Hirano bodies are actin-rich, eosinophilic intracytoplasmic inclusions which have a highly characteristic crystalloid fine structure and are regarded as a nonspecific manifestation of neuronal degeneration. These changes in the brain contribute to the cognitive decline and memory loss seen in Alzheimer’s disease.

    • This question is part of the following fields:

      • Neurosciences
      24.3
      Seconds
  • Question 20 - By which process is dopamine broken down? ...

    Incorrect

    • By which process is dopamine broken down?

      Your Answer: Tyrosine hydroxylase

      Correct Answer: Monoamine oxidase

      Explanation:

      Neurotransmitters are substances used by neurons to communicate with each other and with target tissues. They are synthesized and released from nerve endings into the synaptic cleft, where they bind to receptor proteins in the cellular membrane of the target tissue. Neurotransmitters can be classified into different types, including small molecules (such as acetylcholine, dopamine, norepinephrine, serotonin, and GABA) and large molecules (such as neuropeptides). They can also be classified as excitatory or inhibitory. Receptors can be ionotropic or metabotropic, and the effects of neurotransmitters can be fast of slow. Some important neurotransmitters include acetylcholine, dopamine, GABA, norepinephrine, and serotonin. Each neurotransmitter has a specific synthesis, breakdown, and receptor type. Understanding neurotransmitters is important for understanding the function of the nervous system and for developing treatments for neurological and psychiatric disorders.

    • This question is part of the following fields:

      • Neurosciences
      6
      Seconds
  • Question 21 - The dopamine hypothesis of schizophrenia suggests that an overabundance of dopamine in which...

    Correct

    • The dopamine hypothesis of schizophrenia suggests that an overabundance of dopamine in which specific pathway is accountable for the heightened importance placed on trivial thoughts and events?

      Your Answer: Mesolimbic pathway

      Explanation:

      The mesolimbic pathway is the correct answer, as it is associated with an excess of dopamine in individuals with addiction. This excess is accompanied by a relative deficiency of dopamine in the frontal lobes. The limbopituitary pathway is not a recognized dopamine pathway, so it should not be considered. The other options listed are all established dopamine pathways.

      Neurotransmitters are substances used by neurons to communicate with each other and with target tissues. They are synthesized and released from nerve endings into the synaptic cleft, where they bind to receptor proteins in the cellular membrane of the target tissue. Neurotransmitters can be classified into different types, including small molecules (such as acetylcholine, dopamine, norepinephrine, serotonin, and GABA) and large molecules (such as neuropeptides). They can also be classified as excitatory or inhibitory. Receptors can be ionotropic or metabotropic, and the effects of neurotransmitters can be fast of slow. Some important neurotransmitters include acetylcholine, dopamine, GABA, norepinephrine, and serotonin. Each neurotransmitter has a specific synthesis, breakdown, and receptor type. Understanding neurotransmitters is important for understanding the function of the nervous system and for developing treatments for neurological and psychiatric disorders.

    • This question is part of the following fields:

      • Neurosciences
      20.9
      Seconds
  • Question 22 - What is the most probable cause of medial temporal lobe atrophy on structural...

    Incorrect

    • What is the most probable cause of medial temporal lobe atrophy on structural neuroimaging in an elderly individual with cognitive decline?

      Your Answer: Dementia with Lewy bodies

      Correct Answer: Alzheimer's dementia

      Explanation:

      Medial temporal lobe atrophy (MTA) is prevalent in 80% to 90% of individuals diagnosed with Alzheimer’s dementia, and can also be present in other forms of dementia, albeit less frequently and severely. MTA is an early and relatively reliable indicator of Alzheimer’s disease, although it is not exclusive to this condition.

    • This question is part of the following fields:

      • Neurosciences
      21
      Seconds
  • Question 23 - What is the pathway for cerebrospinal fluid to flow from the third to...

    Correct

    • What is the pathway for cerebrospinal fluid to flow from the third to the fourth ventricle?

      Your Answer: Aqueduct of Sylvius

      Explanation:

      Cerebrospinal Fluid: Formation, Circulation, and Composition

      Cerebrospinal fluid (CSF) is produced by ependymal cells in the choroid plexus of the lateral, third, and fourth ventricles. It is constantly reabsorbed, so only a small amount is present at any given time. CSF occupies the space between the arachnoid and pia mater and passes through various foramina and aqueducts to reach the subarachnoid space and spinal cord. It is then reabsorbed by the arachnoid villi and enters the dural venous sinuses.

      The normal intracerebral pressure (ICP) is 5 to 15 mmHg, and the rate of formation of CSF is constant. The composition of CSF is similar to that of brain extracellular fluid (ECF) but different from plasma. CSF has a higher pCO2, lower pH, lower protein content, lower glucose concentration, higher chloride and magnesium concentration, and very low cholesterol content. The concentration of calcium and potassium is lower, while the concentration of sodium is unchanged.

      CSF fulfills the role of returning interstitial fluid and protein to the circulation since there are no lymphatic channels in the brain. The blood-brain barrier separates CSF from blood, and only lipid-soluble substances can easily cross this barrier, maintaining the compositional differences.

    • This question is part of the following fields:

      • Neurosciences
      92
      Seconds
  • Question 24 - Which of the following eosinophilic inclusion bodies are observed as a neuropathological discovery...

    Correct

    • Which of the following eosinophilic inclusion bodies are observed as a neuropathological discovery in individuals with Alzheimer's disease?

      Your Answer: Hirano bodies

      Explanation:

      Hirano bodies, Pick bodies, Lewy bodies, Negri bodies, and Barr bodies are all types of inclusion bodies that can be seen in various cells. Hirano bodies are rod-shaped structures found in the cytoplasm of neurons, composed of actin and other proteins. They are commonly seen in the hippocampus, along with granulovacuolar degeneration, which may represent lysosomal accumulations within neuronal cytoplasm. The clinical significance of these microscopic features is not yet fully understood. Pick bodies are masses of cytoskeletal elements seen in Pick’s disease, while Lewy bodies are abnormal protein aggregates that develop in nerve cells in Lewy body disease. Negri bodies are inclusion bodies seen in rabies, and Barr bodies are inactive X chromosomes in a female somatic cell.

    • This question is part of the following fields:

      • Neurosciences
      13.3
      Seconds
  • Question 25 - Which substance has the highest level of permeability through the blood brain barrier?...

    Correct

    • Which substance has the highest level of permeability through the blood brain barrier?

      Your Answer: Lipid soluble molecules

      Explanation:

      Understanding the Blood Brain Barrier

      The blood brain barrier (BBB) is a crucial component of the brain’s defense system against harmful chemicals and ion imbalances. It is a semi-permeable membrane formed by tight junctions of endothelial cells in the brain’s capillaries, which separates the blood from the cerebrospinal fluid. However, certain areas of the BBB, known as circumventricular organs, are fenestrated to allow neurosecretory products to enter the blood.

      When it comes to MRCPsych questions, the focus is on the following aspects of the BBB: the tight junctions between endothelial cells, the ease with which lipid-soluble molecules pass through compared to water-soluble ones, the difficulty large and highly charged molecules face in passing through, the increased permeability of the BBB during inflammation, and the theoretical ability of nasally administered drugs to bypass the BBB.

      It is important to remember the specific circumventricular organs where the BBB is fenestrated, including the posterior pituitary and the area postrema. Understanding the BBB’s function and characteristics is essential for medical professionals to diagnose and treat neurological disorders effectively.

    • This question is part of the following fields:

      • Neurosciences
      11.4
      Seconds
  • Question 26 - From which amino acids is serotonin produced? ...

    Incorrect

    • From which amino acids is serotonin produced?

      Your Answer: Serine

      Correct Answer: Tryptophan

      Explanation:

      The synthesis of serotonin involves the conversion of tryptophan to 5-hydroxy-L-tryptophan (5-HTP) by tryptophan hydroxylase (TPH), followed by the conversion of 5-HTP to serotonin by pyridoxal phosphate and aromatic amino acid decarboxylase. Tryptophan, which is found in most protein-based foods, is the precursor for serotonin synthesis. While exogenous serotonin cannot cross the blood-brain barrier, tryptophan and 5-HTP can be taken as dietary supplements to increase serotonin levels.

      Dopamine, on the other hand, is synthesized from phenylalanine and tyrosine. The major pathway involves the conversion of phenylalanine to tyrosine, then to L-Dopa, and finally to dopamine. Noradrenaline and adrenaline are derived from further metabolic modification of dopamine. Serine and alanine are other amino acids that are not directly involved in catecholamine synthesis.

    • This question is part of the following fields:

      • Neurosciences
      30.9
      Seconds
  • Question 27 - What is a typical EEG finding in individuals with Creutzfeldt-Jakob disease? ...

    Incorrect

    • What is a typical EEG finding in individuals with Creutzfeldt-Jakob disease?

      Your Answer: Increased theta activity particularly in the left temporal region

      Correct Answer: Slow background rhythm with paroxysmal sharp waves

      Explanation:

      Creutzfeldt-Jakob disease is characterized by a slow background rhythm accompanied by paroxysmal sharp waves on EEG, while the remaining options are typical EEG features of the aging process.

    • This question is part of the following fields:

      • Neurosciences
      20.8
      Seconds
  • Question 28 - What is a true statement about cerebrovascular accidents? ...

    Correct

    • What is a true statement about cerebrovascular accidents?

      Your Answer: Cerebral infarction commonly occurs during sleep

      Explanation:

      It is widely acknowledged that women who have pre-existing cardiovascular disease should avoid taking oral contraceptives due to the increased risk of stroke and DVTs.

      Cerebrovascular accidents (CVA), also known as strokes, are defined by the World Health Organization as a sudden onset of focal neurological symptoms lasting more than 24 hours and presumed to be of vascular origin. Strokes can be caused by either infarction of hemorrhage, with infarction being more common. Hemorrhagic strokes tend to be more severe. Intracranial hemorrhage can be primary, caused mainly by hypertension, of subarachnoid, caused by the rupture of an aneurysm of angioma. Primary intracranial hemorrhage is most common in individuals aged 60-80 and often occurs during exertion. Infarction can be caused by thrombosis of embolism, with thrombosis being more common. Atherosclerosis, often caused by hypertension, is the main cause of infarction. CT scanning is the preferred diagnostic tool during the first 48 hours after a stroke as it can distinguish between infarcts and hemorrhages. Recovery from embolism is generally quicker and more complete than from thrombosis due to the availability of collateral channels.

    • This question is part of the following fields:

      • Neurosciences
      7.1
      Seconds
  • Question 29 - Which statement about 5-Hydroxyindoleacetic acid (5-HIAA) is accurate? ...

    Incorrect

    • Which statement about 5-Hydroxyindoleacetic acid (5-HIAA) is accurate?

      Your Answer: Low CSF levels are found in treatment resistant schizophrenia

      Correct Answer: Low CSF levels are found in people with depression

      Explanation:

      Depression, suicidality, and aggression have been linked to low levels of 5-HIAA in the CSF.

      The Significance of 5-HIAA in Depression and Aggression

      During the 1980s, there was a brief period of interest in 5-hydroxyindoleacetic acid (5-HIAA), a serotonin metabolite. Studies found that up to a third of people with depression had low concentrations of 5-HIAA in their cerebrospinal fluid (CSF), while very few normal controls did. This suggests that 5-HIAA may play a role in depression.

      Furthermore, individuals with low CSF levels of 5-HIAA have been found to respond less effectively to antidepressants and are more likely to commit suicide. This finding has been replicated in multiple studies, indicating the significance of 5-HIAA in depression.

      Low levels of 5-HIAA are also associated with increased levels of aggression. This suggests that 5-HIAA may play a role in regulating aggressive behavior. Overall, the research on 5-HIAA highlights its potential importance in understanding and treating depression and aggression.

    • This question is part of the following fields:

      • Neurosciences
      21.1
      Seconds
  • Question 30 - What does the following describe: A clinical manifestation that quickly appears and indicates...

    Incorrect

    • What does the following describe: A clinical manifestation that quickly appears and indicates a localized disruption in brain function, believed to be caused by a vascular issue and lasting for more than 24 hours.

      Your Answer: Transient ischemic attack

      Correct Answer: Stroke

      Explanation:

      Cerebrovascular accidents (CVA), also known as strokes, are defined by the World Health Organization as a sudden onset of focal neurological symptoms lasting more than 24 hours and presumed to be of vascular origin. Strokes can be caused by either infarction of hemorrhage, with infarction being more common. Hemorrhagic strokes tend to be more severe. Intracranial hemorrhage can be primary, caused mainly by hypertension, of subarachnoid, caused by the rupture of an aneurysm of angioma. Primary intracranial hemorrhage is most common in individuals aged 60-80 and often occurs during exertion. Infarction can be caused by thrombosis of embolism, with thrombosis being more common. Atherosclerosis, often caused by hypertension, is the main cause of infarction. CT scanning is the preferred diagnostic tool during the first 48 hours after a stroke as it can distinguish between infarcts and hemorrhages. Recovery from embolism is generally quicker and more complete than from thrombosis due to the availability of collateral channels.

    • This question is part of the following fields:

      • Neurosciences
      10.6
      Seconds

SESSION STATS - PERFORMANCE PER SPECIALTY

Neurosciences (15/30) 50%
Passmed