Questão | Responda |
A spinal segment is defined by: ................. | A spinal segment is defined by: the exit of roots by a spinal nerve. |
The trunk of a spinal nerve is formed in:............ | The trunk of a spinal nerve is formed in: Intervertebral foramen |
The spinal cord white matter is organised around the gray matter in three colunms called: A. B. C. | The spinal cord white matter is organised around the gray matter in three colunms called: A. Funiculus Dorsalis B. Funiculus Lateralis C. Funiculus Ventralis |
The spinal cord has the following number of segments: Cervical. Thoracic. Lumbar. Sacral. Coccygeal. | The spinal cord has the following number of segments: Cervical - 8 Thoracic - 12 Lumbar - 5 Sacral - 5 Coccygeal - 1 |
The border between spinal cord and medulla oblongata is defined by the following structures: A. B. C. | The border between spinal cord and medulla oblongata is defined by the following structures: A. Foramen Magnum B. Decussatio pyramidum C. Exit of first pairs of spinal roots |
In adults the spinal cord ends caudally at the level of ............................... vertebra. | In adults the spinal cord ends caudally at the level of "Second Lumbar" vertebra. |
List three elements at the caudal end of the spinal cord: A. B. C. | List three elements at the caudal end of the spinal cord: A. Cauda Equina B. Conus Medullaris C. Filum Terminale |
In spinal cord anesthesia through the sacral hiatus the anesthetic is introduced into ..................... | In spinal cord anesthesia through the sacral hiatus the anesthetic is introduced into Epidural Space. (A caudal anesthesia is administered by a catheter inserted through the sacral hiatus. Anesthetic is placed in the catheter, and the anesthetic bathes the sacral nerve roots. The catheter is in the Epidural Space and this is where the anesthesia is placed.) |
Pain and temperature sensation is conveyed via .......................... | Pain and temperature sensation is conveyed via "Lateral Spinothalamic Tract" |
Spinal cord enlargements are found in the ................. and ............... regions. | Spinal cord enlargements are found in the Cervical and lumbar regions. |
To which of the A to D structures are 1 to 4 most closely related? A. Intervertebral foramen B. Spinal ganglion C. Brachial plexus D. Spinal cord 1. Dorsal root of spinal nerve 2. Trunk of spinal nerve 3. Conus medullaris 4. Cervical intumescentia | To which of the A to D structures are 1 to 4 most closely related? A. Intervertebral foramen - 2. Trunk of spinal nerve B. Spinal ganglion - 1. Dorsal root of spinal nerve C. Brachial plexus - 4. Cervical intumescentia D. Spinal cord - 3. Conus medullaris |
To which of the A to D structures are 1 to 4 most closely related? A. Ventral median fissue B. Epidural space C. Cerebrospinal fluid D. Terminal cistern 1. Spinal dura mater 2. Subarachnoid space 3. Anterior spinal artery | To which of the A to D structures are 1 to 4 most closely related? A. Ventral median fissue - 3. Anterior spinal artery B. Epidural space - 1. Spinal dura mater C. Cerebrospinal fluid - 2. Subarachnoid space D. Terminal cistern - 2. Subarachnoid space |
To which of the A to C structures are 1 to 3 most closely related? A. Posterior funiculus of spinal cord B. Lateral funiculus of spinal cord C. Anterior funiculus of spinal cord 1. Spinal dura mater 2. Subarachnoid space 3. Anterior spinal artery | To which of the A to C structures are 1 to 3 most closely related? A. Posterior funiculus of spinal cord - 2. Subarachnoid space B. Lateral funiculus of spinal cord - 3. Anterior spinal artery C. Anterior funiculus of spinal cord - 1. Spinal dura mater |
To which of the A to D structures are 1 to 4 most closely related? A. Grey commissure B. Lateral colunm C. Ventral median fissue D. Ventrolateral sulcus 1.Spinal pia mater 2. Ventral root of spinal nerve 3. Visceromotor neurons 4. Canalis centralis | To which of the A to D structures are 1 to 4 most closely related? A. Grey commissure - 4. Canalis centralis B. Lateral colunm - 3. Visceromotor neurons C. Ventral median fissue - 1.Spinal pia mater D. Ventrolateral sulcus - 2. Ventral root of spinal nerve |
The border between medulla oblongata and pons on the ventral surface of brain is:............................................................... | The border between medulla oblongata and pons on the ventral surface of brain is: Sulcus bulbopontinus |
The pons connects with the cerebellum via:................. | The pons connects with the cerebellum via: Middle cerebellar peduncle. |
The cranial nerves appearing in sulcus bulbopontinus are: A. B. C. | The cranial nerves appearing in sulcus bulbopontinus are: A. N.Abducens B. N. facialis C. N. Vestibulocochlearis |
The cranial nerves nuclei located in the tegmentum of pons include: A. B. C. D. | The cranial nerves nuclei located in the tegmentum of pons include: A. N.Trigeminus B. N.Abducens C. N.Facialis D. N.Vestibulocochlearis |
The midbrain includes the following parts: A. B. C. | The midbrain includes the following parts: A. Tectum B. Tegmentum C. Crus cerebri |
In sulcus medialis cruris cerebri appear the roots of .......................................... nerve. | In sulcus medialis cruris cerebri appear the roots of N.Oculomotorius nerve. |
The ............................ has the main centers for breathing reflexes. | The Medulla has the main centers for breathing reflexes. (The pons has accessory breathing areas; the cerebrum initiates conscious breathing; the hypothalamus has a minor role in respiration; the medulla has the major respiratory centers.) |
The connection between the third and fourth ventricle is called the ....................... | The connection between the third and fourth ventricle is called the "cerebral aqueduct" |
Phylogenically new part of the midbrain is .......................................................... | Phylogenically new part of the midbrain is "Crus cerebri" |
The nucleus of the caudal colliculus is a relay station in the ........................................ pathway. | The nucleus of the caudal colliculus is a relay station in the "Auditory" pathway. |
To which of 1 to 6 cranial nerve nuclei the A to C are most closely related? A. Medulla oblongata B. Pons C. Midbrain 1.Nucleus dorsalis nervi vagi 2.Nucleus facialis 3.Nucleus oculomotorius 4.Nucleus olivaris inferior 5.Nucleus ruber 6.Nucleus salivatorius caudalis | To which of 1 to 6 cranial nerve nuclei the A to C are most closely related? A. Medulla oblongata - 1.Nucleus dorsalis nervi vagi, 4.Nucleus olivaris inferior, 6.Nucleus salivatorius caudalis B. Pons - 2.Nucleus facialis C. Midbrain - 3.Nucleus oculomotorius, 5.Nucleus ruber |
To which of the A to D brain stem tracts 1 to 4 functions are most closely related? A.Colliculus caudalis B.Colliculus rostralis C.Nucleus olivaris inferior D.Nucleus ceruleus 1.Voluntary movement control 2.Hearing reflex 3.Visual reflex 4.Stress reaction | To which of the A to D brain stem tracts 1 to 4 functions are most closely related? A.Colliculus caudalis - 2.Hearing reflex B.Colliculus rostralis - 3.Visual reflex C.Nucleus olivaris inferior - 1.Voluntary movement control D.Nucleus ceruleus - 4.Stress reaction |
To which of the A to C brain stem tracts 1 to 3 functions are most closely related? A.Pyramid tract B.Vestibulospinal tract C.Medial lemniscus 1.Voluntary movement control 2.Balance control 3.Proprioception | To which of the A to C brain stem tracts 1 to 3 functions are most closely related? A.Pyramid tract - 1.Voluntary movement control B.Vestibulospinal tract - 2.Balance control C.Medial lemniscus - 3.Proprioception |
To which of A to D 1 to 4 are most closely related? A.Pyramid Decussation B.Trapezoid Body C.Ventral Tegmental Decussation (forel) D.Dorsal Tegmental Decussastion (meynert) 1.Medulla Oblongata 2.Pons 3.Tectum 4.Nucleus Ruber | To which of A to D 1 to 4 are most closely related? A.Pyramid Decussation - 1.Medulla Oblongata B.Trapezoid Body - 2.Pons C.Ventral Tegmental Decussation (forel) - 4.Nucleus Ruber D.Dorsal Tegmental Decussastion (meynert) - 3.Tectum |
To which of 1 to 4 regions A to D functions are most closely related? A.Cardiovascular Center B.Proprioception C.Gustatory system D.Pain control 1.Raphe nuclei 2.Medulla oblongata 3.Nucleus Solitarius 4.Nucleus gracilis & Cuneatus | To which of 1 to 4 regions A to D functions are most closely related? A.Cardiovascular Center - 2.Medulla oblongata B.Proprioception - 4.Nucleus gracilis & Cuneatus C.Gustatory system - 3.Nucleus Solitarius D.Pain control - 1.Raphe nuclei |
To which of 1 to 3 regions A to D functions are most closely related? A.Controls visual reflexes B.Has nerve tracts that connect the cerebrum to the cerebellum C.Controls blood pressure D.Controls coughing and sneezing reflexes 1.Midbrain 2.Medulla Oblongata 3.Pons | To which of 1 to 3 regions A to D functions are most closely related? A.Controls visual reflexes - 1.Midbrain B.Has nerve tracts that connect the cerebrum to the cerebellum - 3.Pons C.Controls blood pressure - 2.Medulla Oblongata D.Controls coughing and sneezing reflexes - 2.Medulla Oblongata |
To which of A to D structures 1 to 3 regions are most closely related? A.Pyramids B.Cerebral Peduncle C.Corpora Quadrigemina D.Middle Cerebellar Peduncle 1.Midbrain 2.Medulla Oblongata 3.Pons | To which of A to D structures 1 to 3 regions are most closely related? A.Pyramids - 2.Medulla Oblongata B.Cerebral Peduncle - 1.Midbrain C.Corpora Quadrigemina - 1.Midbrain D.Middle Cerebellar Peduncle - 3.Pons |
The afferent cerebellar pathway passing through the superior cerebellar peduncles is......................... | The afferent cerebellar pathway passing through the superior cerebellar peduncles is "Tractus Spinocerebellaris Ventralis" |
The pathway passing through the middle cerebellar peduncles is .......................... | The pathway passing through the middle cerebellar peduncles is "Tractus Corticocerebellaris" |
The pathways for proprioception from the body to the cerebellum include: A. B. C. | The pathways for proprioception from the body to the cerebellum include: A. Tractus Spinicerebellaris Ventralis B.Tractus Spinocerebellaris Dorsalis C.Tractus Cuneocerebellaris |
The glial cells in the cerebellum are presented by: A. B. | The glial cells in the cerebellum are presented by: A.Bergman cells B.Fanana Cells |
The purkinje cells receive excitatory impulses from: A. B. | The purkinje cells receive excitatory impulses from: A.Granule Cells B.Climbing Fibers |
The archicerebellum includes the following cerebellar lobules: A. B. C. | The archicerebellum includes the following cerebellar lobules: A.Floculus B.Nodulus C.Lingula |
Phylogenically the oldest part of the cerebellum is called ............................ | Phylogenically the oldest part of the cerebellum is called "Archicerebellum" |
The trunco-cerebellar feedback circuit includes the following pathways: A. B. C. | The trunco-cerebellar feedback circuit includes the following pathways: A.Tractus Cerebellorubralis B.Tractus Ruboolivaris C.Tractus Olivocerebellaris |
The pathways forming the vestibulo-cerebellar feedback circuit are: A. B. | The pathways forming the vestibulo-cerebellar feedback circuit are: A.Tractus cerebellovestibularis B.Tractus vestibulocerebellaris |
To which of the A to E neurons are the transmitters 1 to 2 most closely related? A.Basket Cells B.Stellate cells C.Purkinje Cells D.Granule Cells E.Golgi Cells 1.Gama-amino butyric acid 2.Glutamate | To which of the A to E neurons are the transmitters 1 to 2 most closely related? A.Basket Cells - 1.Gama-amino butyric acid B.Stellate cells - 1.Gama-amino butyric acid C.Purkinje Cells - 1.Gama-amino butyric acid D.Granule Cells - 2.Glutamate E.Golgi Cells - 2.Glutamate 1.Gama-amino butyric acid 2.Glutamate |
To which of the A to C cerebellar peduncles are the pathways 1 to 4 most closely related? A.Pedunculus cerebellaris superior B.Pedunculus cerebellaris medius C.Pedunculus cerebellaris inferior 1.Tractus pontocerebellaris 2.Tractus Spinocerebellaris Ventralis 3.Tractus Spinocerebellaris Dorsalis 4.Tractus Cerebellorubralis | To which of the A to C cerebellar peduncles are the pathways 1 to 4 most closely related? A.Pedunculus cerebellaris superior - 2.Tractus Spinocerebellaris Ventralis + 4.Tractus Cerebellorubralis B.Pedunculus cerebellaris medius - 1.Tractus pontocerebellaris C.Pedunculus cerebellaris inferior - 3.Tractus Spinocerebellaris Dorsalis |
To which of A to D vermis lobules 1 to 4 lobules of the hemispheres are related? A.Declive B.Uvula C.Pyramis D.Folium 1.Lobulus biventer 2.Lobulus semilunaris superior 3.Tonsilla 4.Lobulus simplex | To which of A to D vermis lobules 1 to 4 lobules of the hemispheres are related? A.Declive - 4.Lobulus simplex B.Uvula - 3.Tonsilla C.Pyramis - 1.Lobulus biventer D.Folium - 2.Lobulus semilunaris superior |
Match the A to E cells with 1 to 2 layers of cerebellar cortex? A.Basket Cells B.Stellate cells C.Purkinje cells D.Granule cells E.Golgi Cells 1.Molecular layer 2.Ganglionic layer 3.Granular cells layer | Match the A to E cells with 1 to 2 layers of cerebellar cortex? A.Basket Cells - 1.Molecular layer B.Stellate cells - 1.Molecular layer C.Purkinje cells - 2.Ganglionic layer D.Granule cells - 3.Granular cells layer E.Golgi Cells - 3.Granular cells layer |
Match the A to C phylogencially distinct parts with the 1 to 4 lobules of cerebellum? A.Archicerebellum B.Paleocerebellum C.Neocerebellum 1.Ala lobuli centralis 2.Lobulus biventer 3.Lingula 4.Flocculus | Match the A to C phylogencially distinct parts with the 1 to 4 lobules of cerebellum? A.Archicerebellum - 3.Lingula + 4.Flocculus B.Paleocerebellum - 1.Ala lobuli centralis C.Neocerebellum - 2.Lobulus biventer |
Match the A to C phylogenically distinct parts with the 1 to 3 functions? A.Archicerebellum B.Paleocerebellum C.Neocerebellum 1.Tone of skeletal muscles 2.Balance 3.Coordination of movements | Match the A to C phylogenically distinct parts with the 1 to 3 functions? A.Archicerebellum - 2.Balance B.Paleocerebellum - 1.Tone of skeletal muscles C.Neocerebellum - 3.Coordination of movements |
The nuclei of the hypothalamus connected to the neurohypophysis are: A. B. | The nuclei of the hypothalamus connected to the neurohypophysis are: A. Nucll. Supraopticus B. Nucll. Paraventicularis |
The metathalamus is presented by: A. B. | The metathalamus is presented by: A. Corpus Geniculatum laterale B.Corpus Geniculatum mediale |
The nuclei of the middle (tuberal) part of the hypothalamus are: A. B. C. | The nuclei of the middle (tuberal) part of the hypothalamus are: A.Nucll. Arcuatus B.Nucll. Ventrolateralis C.Nucll. Dorsolateralis |
Neurosecretory nuclei in the anterior part of the medial hypothalamus are: A. B. | Neurosecretory nuclei in the anterior part of the medial hypothalamus are: A.Nucll. Supraopticus B.Nucll. Paraventricularis |
The somatosensory relay nuclei of the thalamus are: A. B. | The somatosensory relay nuclei of the thalamus are: A.Nucll. Ventroposterolateralis B.Nucll. Ventroposteromedialis |
The epithalamus is located on the ...................... aspect of the diencephalon. | The epithalamus is located on the "Dorsal" aspect of the diencephalon. |
Thalamic nuclei concerned with somatomotor control are: A. B. | Thalamic nuclei concerned with somatomotor control are: A.Nucl. Ventralis Lateralis B.Nucl. Ventralis Anterior |
Thalamic nucleus intergrated into the limbic system is................ | Thalamic nucleus intergrated into the limbic system is "Nucl. Anterior thalami" |
The hypothalamic nucleus associated with circadian rhythm control is .......................... | The hypothalamic nucleus associated with circadian rhythm control is "Nucl. Suprachiasmatis" |
The hormones produced by the pineal gland are ................ and ................. | The hormones produced by the pineal gland are "Melatonin" and "Serotonin" |
Match each pathway with the appropriate nucleus to which it gives input. A Anterior nucleus B.Ventral lateral nucleus C.Medial geniculate (nucleus) body D.Ventral posteromedial (VPM) nucleus E.Ventral Posteroinferior (VPI) nucleus 1.Brachium of the inferior colliculus 2.Thalamic fasciculus (H1) 3.Mamillothalamic tract 4.Dentatothalamic tract 5.Gustatory (taste) pathway | Match each pathway with the appropriate nucleus to which it gives input. A Anterior nucleus - 3.Mamillothalamic tract B.Ventral lateral nucleus - 2.Thalamic fasciculus (H1) + 4.Dentatothalamic tract C.Medial geniculate (nucleus) body - 1.Brachium of the inferior colliculus D.Ventral posteromedial (VPM) nucleus - 5.Gustatory (taste) pathway E.Ventral Posteroinferior (VPI) nucleus - No answer given |
Match each of the following descriptions with the appropriate thalamic nucleus: A.Anterior Nucleus B.Centromedian nucleus C.Lateral geniculate nucleus D.Mediodorsal nucleus E.Pulvinar F.Ventral anterior nucleus G.Ventral lateral nucleus H.Ventral Posterolateral (VPL) Nucleus I.Ventral Posteromedial (VPM) Nucleus 1.Receives input from the ipsilateral central tegmental tract 2.Has reciprocal connections with the inferior parietal lobule 3.Receives input from the contralateral lateral spinothalamic tract. 4.Projects to the putamen 5.Receives the dentatothalamic tract 6.Plays a role in the expression of affect, emotion and behaviour (limbic function) | Match each of the following descriptions with the appropriate thalamic nucleus: A.Anterior Nucleus - No answer B.Centromedian nucleus - 4.Projects to the putamen C.Lateral geniculate nucleus - No answer D.Mediodorsal nucleus - 6.Plays a role in the expression of affect, emotion and behaviour (limbic function) E.Pulvinar - 2.Has reciprocal connections with the inferior parietal lobule F.Ventral anterior nucleus - No answer G.Ventral lateral nucleus - 5.Receives the dentatothalamic tract H.Ventral Posterolateral (VPL) Nucleus - 3.Receives input from the contralateral lateral spinothalamic tract. I.Ventral Posteromedial (VPM) Nucleus - 1.Receives input from the ipsilateral central tegmental tract |
Match each hormone/pathway with the appropriate nucleus. A.Nucleus paraventicularis B.Corpus geniculatum laterale C.Epithalamus D.Corpus geniculatum mediale E.Nucleus supraopticus 1.Radiatio acustica 2.Vasopresin 3.Oxitocin 4.Corpus Pineale 5.Radiation Optica | Match each hormone/pathway with the appropriate nucleus. A.Nucleus paraventicularis - 3.Oxitocin B.Corpus geniculatum laterale - 5.Radiation Optica C.Epithalamus - 4.Corpus Pineale D.Corpus geniculatum mediale - 1.Radiatio acustica E.Nucleus supraopticus - 2.Vasopresin |
Match each of the structures from the two columns. A.Lamina affixa B.Corpus geniculatum mediale C.Stria terminalis thalami D.Corpus mamillare E.Nuclei habenulares 1.Vena thalamostriata 2.Limbic system 3.Metathalamus 4.Tenia Thalami 5.Fasciculus retroflexus | Match each of the structures from the two columns. A.Lamina affixa - 4.Tenia Thalami B.Corpus geniculatum mediale - 3.Metathalamus C.Stria terminalis thalami - 1.Vena thalamostriata D.Corpus mamillare - 2.Limbic system E.Nuclei habenulares - 5.Fasciculus retroflexus |
Corpus striatum comprises: A. B. | Corpus striatum comprises: A.Neostriatum B.Paleostriatum |
Basal ganglia indicated as neostriatum are: A. B. | Basal ganglia indicated as neostriatum are: A.Nucleus caudatus B.Nucleus putamen |
Cortical circuit in a columnar unit includes the following neurons: A. B. C. | Cortical circuit in a columnar unit includes the following neurons: A.Pyramidal cell B.Inhibitory Granular cell C.Exctatory granular cell |
Isocortex is subdivided into two major variants: A. B. | Isocortex is subdivided into two major variants: A.Homotypical isocortex B.Heterotypical isocortex |
Limbic cortex is for the most part, phylogenically old cortex denoted as ............ to which are associated parts from .............. | Limbic cortex is for the most part, phylogenically old cortex denoted as "archicortex" to which are associated parts from "neocortex" |
The anatomical substrate of the limbic system is represented by: A. B. C. | The anatomical substrate of the limbic system is represented by: A.Limbic cortex B.Limbic nuclei C.Limbic pathways |
Heterotypical isocortex comprises: A. B. | Heterotypical isocortex comprises: A.Granular isocortex B.Agranular isocortex |
Fibers, which cross the midline connecting corresponding areas of the two hemispheres are ................. | Fibers, which cross the midline connecting corresponding areas of the two hemispheres are "commissural fibers" |
The buried cerebral cortex under the lips of the lateral sulcus is ................ | The buried cerebral cortex under the lips of the lateral sulcus is "Insula" |
Match the structures from A to F with the structures from 1 to 6: A.Hippocampus B.Cortex cerebri C.Corpus callosum D.Fasciculus uncinatus E.Sulcus calcarinus F.Trigonum habenulae 1.Stria medullaris thalami 2.Association fibres 3.Fornix 4.Postcentral gyrus 5.Commissural fibres 6.Radiation optica | Match the structures from A to F with the structures from 1 to 6: A.Hippocampus - 3.Fornix B.Cortex cerebri - 4.Postcentral gyrus C.Corpus callosum - 5.Commissural fibres D.Fasciculus uncinatus - 2.Association fibres E.Sulcus calcarinus - 6.Radiation optica F.Trigonum habenulae -1.Stria medullaris thalami |
Match the structures from A to E with structures from 1 to 5. A.Internal capsule B.Corpus callosum C.Basal ganglion D.csf E.Postcentral gyrus 1.Rostrum 2.Choroid plexus 3.Anterior limb. 4.Primary sensory cortex 5.Claustrum | Match the structures from A to E with structures from 1 to 5. A.Internal capsule - 3.Anterior limb. B.Corpus callosum - 1.Rostrum C.Basal ganglion - 5.Claustrum D.csf - 2.Choroid plexus E.Postcentral gyrus - 4.Primary sensory cortex |
Match the structures from A to F with the structures from 1 to 6. A.Hippocampal sulcus B.Parahippocampal gyrus C.Calcar avis D.Corpus callosum E.Cingulum F.Internal capsule 1.Commissural fibers 2.Hippocampus 3.Association fibers 4.Calcarine fissure (sulcus) 5.Uncus 6.Projection fibers | Match the structures from A to F with the structures from 1 to 6. A.Hippocampal sulcus - 2.Hippocampus B.Parahippocampal gyrus - 5.Uncus C.Calcar avis - 4.Calcarine fissure (sulcus) D.Corpus callosum -1.Commissural fibers E.Cingulum - 3.Association fibers F.Internal capsule - 6.Projection fibers |
Match the structures from A to E with the structures from 1 to 5. A.Trunk B.Crus C.Head D.Posterior limb E.Putamen 1.Fornix 2.Lentiform (lenticular) nucleus 3.Corpus callosum 4.Caudate nucleus 5.Internal capsule | Match the structures from A to E with the structures from 1 to 5. A.Trunk - 3.Corpus callosum B.Crus - 1.Fornix C.Head - 4.Caudate nucleus D.Posterior limb - 5.Internal capsule E.Putamen -2.Lentiform (lenticular) nucleus |
Match the structures from A to C with the structures from 1 to 3. A.commissural fibers B.Association fibers C.Projection fibers 1.Internal capsule 2.Corpus callosum 3.Uncinate fasciculus | Match the structures from A to C with the structures from 1 to 3. A.commissural fibers - 2.Corpus callosum B.Association fibers - 3.Uncinate fasciculus C.Projection fibers - 1.Internal capsule |
Match the structures from A to C with structures from 1 to 3. A.Association cortex B.Visual cortex C.Primary motor cortex 1.Isocortex 2.Granular heterocortex 3.Agranular heterocortex | Match the structures from A to C with structures from 1 to 3. A.Association cortex - 1.Isocortex B.Visual cortex - 2.Granular heterocortex C.Primary motor cortex - 3.Agranular heterocortex |
Connect each description with its corresponding structure. A. Stria terminalis B.Stria Medullaris C.Medial forebrain bundle D.Fasciculus Retroflexus E. Diagonal band of broca 1.Connects area septalis with nucleus habenulae 2. Forms the medial border of the substantia perforata anterior. 3.Lies between the thalamus and nucleus caudatus 4.Projects from epithalamus to the midbrain tegmentum 5.Is the major efferent pathway from corpus amygdaloideum. | Connect each description with its corresponding structure. A. Stria terminalis - 3.Lies between the thalamus and nucleus caudatus B.Stria Medullaris - 1.Connects area septalis with nucleus habenulae C.Medial forebrain bundle - 5.Is the major efferent pathway from corpus amygdaloideum. D.Fasciculus Retroflexus - 4.Projects from epithalamus to the midbrain tegmentum E. Diagonal band of broca - 2. Forms the medial border of the substantia perforata anterior. |
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