Anatomy 🫀

Question 1

what is the 4th ventricle?

Answer 1

• Cavity of hind brain

Question 2

Site of 4th ventricle

Answer 2

• in front of the cerebellum, behind pons & upper half of the medulla

Question 3

Shape of 4th ventricle

Answer 3

diamond shape

Question 4

angles of 4th ventricle

Answer 4

• Upper angle continuous with aqueduct of sylvius.
• Lower angle continuous with central canal
• Lateral angels form the lateral recess of the 4th ventricle

Question 5

Boundaries of 4th ventricle

Answer 5

• Lateral
• roof (post wall)
• Floor (ant wall)

Question 6

Lateral borders of 4th ventricle

Answer 6

Superior: superior cerebellar peduncle

Inferior: inferior cerebellar peduncle & gracile and cuneate

Middle: lateral recess

Question 7

Roof (Post wall) of 4th ventricle

Answer 7

• Sup. Medullary velum.
• Inf. Medullary velum.
• Middle: part of cerebellum

Question 8

Flor (Anterior wall) of 4th ventricle

Answer 8

• Upper pontine part
• Lower medullary part
• Intermdiate zone which is formed by stria medullaris of 4th ventricle

Question 9

Contents of anterior wall of pontine part of 4th ventricle

Answer 9

1. Medial eminence & facial colliculus: overlies abducent nucleus.
2. Vestibular area: overlies vestibular nuclei.
3. Sulcus limitans (superior fovae)

Question 10

Contents of anterior wall of medullary part of 4th ventricle

Answer 10

• Sulcus limitans (inferior fovea) divides medullary part into 3 trigons
  1. Hypoglossal triangle (H)
  2. Vagal triangle (Vg)
  3. Vestibular area (Vs)
• area postrema.
• stria medullaris of 4th ventricle.

Question 11

what are cranial nerve nuclei in floor of 4th ventricle?

Answer 11

Hypoglossal trigone: contains hypoglossal nucleus

Vagal trigone: contains dorsal motor nucleus of vagus

Vestibular trigone: contains medullary and pontine vestibular nuclei

Facial colliculus: cantains abducent nucleus

Question 12

Communications of 4th ventricle

Answer 12

1. With 3rd ventricle through cerebral aqueduct of sylvius
2. With centeral canal of spinal cord through lower angle
3. With subarachinoid space through foramen of Magendie& foramina of Luschka

Question 13

Site of choroid plexus of 4th ventricle

Answer 13

• it is attached to the inferior medullary velum.

Question 14

Shape of choroid plexus of 4th ventricle

Answer 14

• T shaped it has stem attached to he velum and 2 lateral arms extend laterally into the lateral recess.

Question 15

Arterial supply of choroid plexus of 4th ventricle

Answer 15

PICA

Question 16

what separates the cerebellum from cerebrum?

Answer 16

tentorium cerebelli

Question 17

what separates the cerebellum from pons and medulla?

Answer 17

4th ventricle

Question 18

Gross feature of cerebellum

Answer 18

• It is formed of vermis (Superior & Inferior) and two cerebellar hemispheres
• It has two notches Ant. surround the brainstem & post Contain the falx cerebelli

Question 19

Notches of cerebellum

Answer 19

• It has two notches Ant. surround the brainstem & post Contain the falx cerebelli

Question 20

what are cerebellar peduncles? and what do they connect?

Answer 20

Superior cerebellar peduncle: Connects midbrain & Cerebellum

Middle cerebellar peduncle: Connects pons & Cerebellum.

Inferior cerebellar peduncle: Connects medulla & Cerebellum.

Question 21

what are the fissures of Cerebellum?

Answer 21

• Horizontal fissure
• Primary fissure
• osterolateral fissure (uvulo-nodular fissure)

Question 22

Significance of Horizontal fissure

Answer 22

• divides the cerebellum into superior & inferior surfaces.

Question 23

Significance of Primary fissure

Answer 23

• extends on the superior surface
• It separates the anterior lobe from the posterior lobe.

Question 24

Significance of Posterolateral fissure (uvulo-nodular fissure)

Answer 24

• extends on the inferior surfaces separating nodule from the uvula .

Question 25

Anatomical divisions of cerebellum

Answer 25

It is divided by 1ry fissure & posterolateral fissure into:

1. Anterior lobe
2. Posterior lobe
3. Folliculonodular lobe

Question 26

Longitudinal divisions of cerebellum

Answer 26

According to connections of the deep cerebellar nuclei

1. Vermal zone projects to fastigial nucleus
2. Paravermal zone Projects to globose and emboliform nuclei
3. Lateral zone projects to dentate nucleus

Question 27

Functional divisions of cerebellum

Answer 27

1. Archicerebellum (vestibulocerebellum)
2. Paleocerebellum (spinocerebellum)
3. Neocerebellum (cerebrocerebellum)

Question 28

Position of the diencephalon

Answer 28

• It is located between the cerebral hemisphers and the midbrain.

Question 29

Boundaries of diancephalon

Answer 29

• Superiorly
• Anteriorly
• Medially
• Inferiorly
• Posteriorly
• Laterally

Question 30

Superior boundaries of diancephalon

Answer 30

• Body of the fornix
• Lateral ventricle

Question 31

Inferior boundaries of diancephalon

Answer 31

• Optic chiasma
• Tuber cinereum
• Infundibulum of pituitary gland

Question 32

Anterior boundaries of diancephalon

Answer 32

• Anterior commissure
• Lamina terminalis

Question 33

Posterior boundaries of diancephalon

Answer 33

• Habenular nucleus
• Pineal gland
• Posterior commissure

Question 34

Medial boundaries of diancephalon

Answer 34

• Third ventricle

Question 35

Lateral boundaries of diancephalon

Answer 35

• Internal capsule
• Lentiform nucleus

Question 36

Divisions of diancephalon

Answer 36

From PPT

Question 37

Function of the Diencephalon

Answer 37

Thalamus:
- receives all sensations (except olfaction) and projects them to the sensory areas of the brain.

Hypothalamus:
- is the principal autonomic and endocrinal center of the brain.

Subthalamus:
- is one of the motor nuclei that regulate muscle movement.

Epithalamus:
- is formed of Stria medullaris thalami (limbic system), Habenular nucleus (limbic system), Pineal gland (sleep) and Posterior commissure (upward gaze).

Question 38

Site of Choroid plexus of 3rd ventricle

Answer 38

• roof of the 3rd ventricle.

Question 39

Arterial supply of Choroid plexus of 3rd ventricle

Answer 39

posterior choroidal artery.

Question 40

what is 3rd ventricle?

Answer 40

• It is the cavity of the diencephalon.

Question 41

Location of 3rd ventricle

Answer 41

• It is located in the midline between two thalami.

Question 42

Site of choroid plexus of 3rd ventricle

Answer 42

• projects downward from the roof.

Question 43

Shape of choroid plexus of 3rd ventricle

Answer 43

• two vascular ridges, one on each side of the midline.

Question 44

Arterial supply of choroid plexus of 3rd ventricle

Answer 44

posterior choroidal artery.

Question 45

Communications of 3rd ventricle

Answer 45

1- with the lateral ventricle : through interventricular
foramen of Morno.

2- with 4th ventricle : through cerebral aqueduct of sylvius.

Question 46

what does each cerebral hemisphere contain?

Answer 46

3 (Poles, Borders, Surfaces)
4 (Major sulci, Lobes)

Question 47

Poles of each cerebral hemisphere

Answer 47

• Frontal
• Temporal
• Occipital

Question 48

Borders of of each cerebral hemisphere

Answer 48

• Superomedial border
• Inferomedial border
• Inferolateral border

Question 49

Surfaces of of each cerebral hemisphere

Answer 49

• Lateral (superolateral) surface
• Medial surface
• Inferior surface

Question 50

what are the parts of the inferior surface?

Answer 50

• Orbital part
• Tentorial part

Question 51

what divides the inferior surface?

Answer 51

It is divided by the lateral sulcus into two parts

Question 52

Parts of inferior surface

Answer 52

Orbital part: lies on the roof of the orbit.

Tentorial part: lies on the tentorium cerebelli.

Question 53

what are major sulci of each cerebral hemisphere?

Answer 53

• Central sulcus.
• Lateral sulcus.
• Calcarine sulcus.
• Parieto-occipital

Question 54

what does lateral sulcus consist of?

Answer 54

It consists of a short stem & 3 rami:
- Anterior ramus.
- ascending ramus.
- posterior ramus.

Question 55

what is The area of cerebral cortex at the bottom of the lateral sulcus?

Answer 55

Insula

Question 56

what are sulci of lateral Surface?

Answer 56

• Central sulcus.
• Precentral sulcus.
• Postcentral sulcus.

———-

• Lateral sulcus
• Two frontal sulci
• Two temporal sulci

———

• Intraparietal sulcus.
• Parieto-occipital sulcus.
• Calcarine sulcus.
• Sulcus lunatus.

Question 57

what are parts of lateral sulcus?

Answer 57

(stem & 3 rami)
- Anterior ramus.
- ascending ramus.
- posterior ramus.

Question 58

what are two frontal sulci of lateral Surface?

Answer 58

• Superior frontal sulcus
• Inferior frontal sulcus

Question 59

what are two temporal sulci of lateral Surface?

Answer 59

• Superior temporal sulcus.
• Inferior temporal sulcus.

Question 60

what are gyri of lateral Surface?

Answer 60

• Precentral gyrus.
• Postcentral gyrus.

———

• Three frontal gyri

——-

• Three temporal gyri

———–

• Two parietal gyri

Question 61

what are three frontal gyri of lateral Surface?

Answer 61

• Superior frontal gyrus.
• Middle frontal gyrus.
• Inferior frontal gyrus:

Question 62

what divides inferior frontal gyrus?

Answer 62

Divided by the anterior & ascending rami of the lateral sulcus into 3 parts:
- Orbital part.
- Triangular part.
- Opercular part.

Question 63

Parts of inferior frontal gyrus

Answer 63

• Orbital part.
• Triangular part.
• Opercular part.

Question 64

what are three temporal gyri of lateral Surface?

Answer 64

• Superior temporal gyrus.
• Middle temporal gyrus.
• Inferior temporal gyrus.

Question 65

what are 2 parital gyri of lateral Surface?

Answer 65

• Superior parietal lobule.
• Inferior parietal lobule

Question 66

what is Inferior parietal lobule divided
into?

Answer 66

• Supramarginal gyrus.
• Angular gyrus.

Question 67

what are cortical areas? and what do they contain? (In brief)

Answer 67

Frontal lobe contains:
- Motor areas
- Personality center

The other 3 lobes contain:
- Primary sensory areas.
- Sensory association areas

Question 68

what are motor areas of frontal lobe?

Answer 68

• Primary motor area (area 4)
• Premotor area (area 6)
• Frontal eye field area (area 8)
• Motor speech area (Broca’s area, areas 44 & 45)

Question 69

Site of Primary motor area (area 4)

Answer 69

• In the precentral gyrus &
  anterior part of the paracentral lobule.

Question 70

Representation of Primary motor area (area 4)

Answer 70

• Opposite half of body is represented upside down.

Question 71

Function of Primary motor area (area 4)

Answer 71

• Initiation of highly skilled
  fine movements.

Question 72

what does a lesion in Primary motor area (area 4) cause?

Answer 72

• Contralateral hemiplegia with
  all signs of upper motor neuron lesion.

Question 73

Site of Premotor area (area 6)

Answer 73

• Anterior to the primary motor area.

Question 74

Function of Premotor area (area 6)

Answer 74

• Gross or Stereotyped movements of groups of muscles via connections with the basal ganglia.

Question 75

what does a lesion in Premotor area (area 6) cause?

Answer 75

Apraxia: (difficulty in performing a learned movement without paralysis)

Question 76

Site of Frontal eye field area (area 8)

Answer 76

• Middle frontal gyrus.

Question 77

Function of Frontal eye field area (area 8)

Answer 77

• Horizontal movement of both eyes to the opposite side.

Question 78

What does a lesion in Frontal eye field area (area 8) cause?

Answer 78

• Ipsilateral deviation of both eyes.

Question 79

Site of Motor speech area (Broca’s area, areas 44 & 45)

Answer 79

• Inferior frontal gyrus of the dominant hemisphere: Opercular & triangular gyri.

Question 80

Function of Motor speech area (Broca’s area, areas 44 & 45)

Answer 80

• Coordinates actions of the muscles used in speech (lips, tongue & vocal cords).

Question 81

what does a lesion in Motor speech area (Broca’s area, areas 44 & 45) cause?

Answer 81

Motor aphasia:
- Aphasia is paralysis of the speech.

Lesion in hemisphere (right):
- No effect.

Question 82

Personality centre in frontal lobe

Answer 82

• Personality Center Personality Center (Areas 9, 10, 11 & 12)

Question 83

Site of Personality centre

Answer 83

frontal pole.

Question 84

Function of Personality centre

Answer 84

Makeup of the personality.

Question 85

what does a lesion in Personality centre cause?

Answer 85

Loss of personality:
- Patients neglect their appearance.
- Inappropriate judgmental behavior.
- No appreciation to any social behavior.

Question 86

what are sensory areas?

Answer 86

• General (somatic) sensory area (areas 3, 1, 2)
• Somatosensory association area (areas 5, 7 & 40)
• Primary gustatory area (taste area, area 43)
• Primary auditory area (Heschl’s area, areas 41 & 42)
• Auditory association area (Wernicke’s area, area 22)
• Primary visual area (area 17)
• Visual association areas (areas 18, 19 & 39)
• Sensory speech (language) areas (present in the dominant hemisphere)

Question 87

Site of General (somatic) sensory area (areas 3, 1, 2)

Answer 87

• Postcentral gyrus & posterior part of paracentral lobule.

Question 88

Function of General (somatic) sensory area (areas 3, 1, 2)

Answer 88

• Perception of all sensations
  from the opposite side of the body &face

Question 89

Representation of General (somatic) sensory area (areas 3, 1, 2)

Answer 89

• Opposite half of body is represented upside down.

Question 90

What does a lesion in General (somatic) sensory area (areas 3, 1, 2) cause?

Answer 90

• Loss of all sensations on the opposite side of the body & face followed by crude awareness of pain,temperature and touch after recovery from the acute stage.

Question 91

Site of Somatosensory association area (areas 5, 7 & 40)

Answer 91

(areas 5,7):
- Superior parietal lobule.

(Area 40):
- Supramarginal gyrus

Question 92

Function of Somatosensory association area (areas 5, 7 & 40)

Answer 92

Stereognosis

• Interpretation of senses received in the general sensory area (recognition of size, shape & texture of objects)

Question 93

what does a lesion in Somatosensory association area (areas 5, 7 & 40) cause?

Answer 93

Astereognosis

• Inability to recognize objects by the sense of touch and pressure with eyes closed.

Question 94

Site of Primary gustatory area (taste
area, area 43)

Answer 94

• Lower end of the general sensory area.

Question 95

Function of Primary gustatory area (taste area, area 43)

Answer 95

• Discrimination of different taste sensations.

Question 96

Site of Primary auditory area (Heschl’s area, areas 41 & 42)

Answer 96

• Middle of the superior temporal gyrus.

Question 97

Function of Primary auditory area (Heschl’s area, areas 41 & 42)

Answer 97

• Perception of sounds from the 2 ears, mainly from the opposite ear.

Question 98

Lesion in Primary auditory area (Heschl’s area, areas 41 & 42)

Answer 98

• Bilateral diminution of hearing mainly on the opposite side.

Question 99

Site of Auditory association area
(Wernicke’s area, area 22)

Answer 99

• Posterior part of the superior temporal gyrus.

Question 100

Function of Auditory association area
(Wernicke’s area, area 22)

Answer 100

• understands the spoken language.
• It is a sensory speech area.

Question 101

Lesion in Auditory association area
(Wernicke’s area, area 22)

Answer 101

Auditory agnosia:
- inability to recognize sounds.

Sensory aphasia:
- inability to understand the spoken language.

Question 102

Site of Primary visual area (area 17)

Answer 102

• Lips of calcarine sulcus (above and below calcarine sulcus).

Question 103

Function of Primary visual area (area 17)

Answer 103

• Perception of light.

Question 104

Lesion in Primary visual area (area 17)

Answer 104

• Contralateral homonymous hemianopia with macular sparing.

Question 105

Site of Visual association areas
(areas 18, 19 & 39)

Answer 105

Areas 18, 19:

• Above and below primary visual area.

Area 39:

• In angular gyrus.

Question 106

Function of Visual association areas
(areas 18, 19 & 39)

Answer 106

Areas 18, 19:
- Recognition of what we see.

Area 39:
- understand written language.

Question 107

Lesion in Visual association areas
(areas 18, 19 & 39)

Answer 107

Visual agnosia:
- inability to recognize what we see.

Alexia & agraphia:
- inability to read & write (Lesion in angular gyrus).

Question 108

Sensory speech (language) areas (present in the dominant hemisphere)

Answer 108

• Sensory speech areas.
• Motor speech area (Broca’s area).

Question 109

Significance of connection between The sensory speech areas are connected with the motor speech
area (Broca’s area)

Answer 109

• to answer a spoken or a written question.

Question 110

Site of Sensory speech (language) areas (present in the dominant hemisphere)

Answer 110

Wernicke’s area (Area 22):
- In superior temporal gyrus.

(area 39):
- In angular gyrus.

(Area 40):
- In supramarginal gyrus.

Question 111

Functions of Sensory speech (language) areas (present in the dominant hemisphere)

Answer 111

Wernicke’s area (Area 22):
- Understands spoken language

(area 39):
- Understands written language

(Area 40):
two main functions

• Recognition of size, shape & texture of objects (Stereognosis).
• Recognition of the individual’s body image (left from right side).

Question 112

lesion in Sensory speech (language) areas (present in the dominant hemisphere)

Answer 112

• In the dominant hemisphere
• In the non-dominant hemisphere:

Question 113

lesion in Sensory speech (language) areas (present in the dominant hemisphere) in dominant hemisphere

Answer 113

• Lesion in Wernicke’s area
• Lesion in the angullar gyrus
• Lesion limited to the supramarginal gyrus

Question 114

Lesion in Wernicke’s area in dominant hemisphere

Answer 114

Auditory agnosia: inability to recognize sounds.

Sensory aphasia: inability to understand spoken langua

Question 115

Lesion in the angullar gyrus in dominant hemisphere

Answer 115

inability to understand written language

Alexia: inability to read.
Agraphia: inability to write.

Question 116

Lesion limited to the supramarginal gyrus in dominant hemisphere

Answer 116

Tactile agnosia (astereognosis):
- inability to recognize objects by the sense of touch with the eyes closed.

Unilateral neglect:
- inability to recognize his left from right side.

Question 116

Lesion in Sensory speech (language) areas (present in the dominant hemisphere) in non-dominant hemisphere

Answer 116

• Disturbances in drawing

Question 117

what are sulci of Medial Surface?

Answer 117

• Callosal sulcus.
• Cingulate sulcus.
• Marginal sulcus.
• Subparietal sulcus.
• Calcarine sulcus.
• Parieto-occipital sulcus.

Question 118

what are gyri of Medial Surface?

Answer 118

• Cingulate gyrus
• Lingual gyrus.
• Cuneus.
• Precuneus.
• Paracentral lobule.

Question 119

Cortical areas in Medial Surface

Answer 119

Primary visual area (area 17):
- lips of the calcarine sulcus.

Visual association areas (areas 18 & 19):
- on either side of the primary visual area.

Extension of the primary motor & general sensory areas:
- In the anterior & posterior parts of the paracentral lobule, respectively.

Prefrontal cortex (personality center):
- In the frontal pole.

Question 120

parts of Inferior Surface

Answer 120

• Orbital surface
• Tentorial surface

Question 121

Sulci in Orbital surface

Answer 121

• Olfactory sulcus.
• Orbital sulcus (H-shaped)

Question 122

Gyri in Orbital surface

Answer 122

• Gyrus rectus: medial to the olfactory sulcus.
• Orbital gyri.

Question 123

Sulci in Tentorial surface

Answer 123

• Collateral sulcus.
• Rhinal sulcus.
• Occipitotemporal sulcus.

Question 124

gyri in tentorial surface

Answer 124

• Parahippocampal gyrus.
• Uncus (the anterior end of the parahippocampal gyrus).
• Occipitotemporal gyrus (fusiform gyrus): Between collateral & occipitotemporal sulci.

Question 125

Cortical areas of Inferior Surface

Answer 125

• Primary olfactory area
• Olfactory association area (area 28)
• Face recognition area (area 37)

Question 126

Site of Primary olfactory area

Answer 126

Uncus

Question 127

lesion in uncus

Answer 127

olfactory hallucinations.

Question 128

Site of Olfactory association area (area 28)

Answer 128

• anterior part of parahippocampal gyrus & the amygdaloid nucleus.

Question 129

Function of Olfactory association area (area 28)

Answer 129

• recognition of different odors

Question 130

Site of Face recognition area (area 37)

Answer 130

• Posterior part of fusiform gyrus.

Question 131

Lesion in Face recognition area (area 37)

Answer 131

Prospagnosia: inability to recognize familiar faces.

Question 132

compenents of limbic system

Answer 132

a) Nuclei
b) Fibers

Question 133

nuclei (gray matter) of limbic system

Answer 133

• Limbic lobe (Cingulate gyrus, Parahippocampal gyrus, Uncus).
• Hippocampal Formation (Hippocampus, Dentate gyrus).
• Hypothalamus (Mamillary body)
• Anterior & medial thalamic nuclei
• Septal nuclei
• Amygdaloid
• Habinular nucleus

Question 134

Fibers (white matter) connecting the nuclei of limbic system

Answer 134

• Cingulum
• Fornix (Fimbria, Crus, Body, Anterior column)
• Mamillothalamic Tract .
• Anterior Thalamic Radiation
• Stria Terminalis
• Stria Medullaris Thalami

Question 135

Cingulum

Answer 135

• fiber of the limbic lobe

Question 136

Fornix (Fimbria, Crus, Body, Anterior column)

Answer 136

• connect hippocampus
  & mammillary body

Question 137

Mamillothalamic Tract

Answer 137

• from mammillary body to anterior thalamic nucleus.

Question 138

Anterior Thalamic Radiation

Answer 138

• from anterior thalamic nucleus to the cingulate gyrus & from medial thalamic nucleus to prefrontal cortex.

Question 139

Stria Terminalis

Answer 139

• from amygdaloid nucleus to septal area.

Question 140

Stria Medullaris Thalami

Answer 140

• from septal area to habinular nucleus

Question 141

what are nerve fibers of white matter?

Answer 141

Commisural fibers:
- connect the same cortical areas of two cerebral hemispheres.

Association fibers:
- connect cortical areas in the same cerebral hemisphere.

Projection fibers:
- connect the cerebral cortex with subcortical areas.

Question 142

types of Commissural fibers

Answer 142

1- Corpus callosum.
2- Anterior commissure
3- Posterior commissure
4- Hippocampal commissure: connect 2 fornices and 2 hippocampi
5- Habenular commissure:Connect 2 habenular nulei

Question 143

function of corpus callosum

Answer 143

• Transfere information between 2 hemisphere

Question 144

what is the rostrum of corpus callosum continous with?

Answer 144

continous with lamina terminalis

Question 145

what does the fibers of genu of corpus callosum form?

Answer 145

• its fibers form forceps minor that connect the two frontal lobes.

Question 146

what does the body of corpus callosum form?

Answer 146

Form radiation of corpus callosum posterior fibers called tapetum connect two temporal lobes

Question 147

what does the splenium of corpus callosum form?

Answer 147

• its fibers form forceps major that connect the two occipital lobes.

Question 148

Blood supply of Corpus Callosum

Answer 148

• Supplied by Anterior cerebral artery .
• Splenium may supplied by posterior cerebral artery.

Question 149

Lesion of corpus callosum

Answer 149

Callosal Apraxia:

• The language and memory processes not be accessible to non dominant hemisphere cause left sided disorders

Question 150

Function of Anterior commisure

Answer 150

• Anterior commissure: connect the two temporal lobes

Question 151

Function of posterior commisure

Answer 151

Connects:

• two superior colliculi
• the pretectal nucleus and Edinger Westiphal N for bilateral light reflex.
• Two occulomotor nuclei for upward gaze

Question 152

function of association fibers

Answer 152

• Connect one cortical area with another area in same cortical hemisphere

Question 153

types of association fibers

Answer 153

• Short association fibers connect adjacent cortical areas
• Long association fibers connect distant cortical areas

Question 154

examples of association fibers

Answer 154

• Superior longitudinal Fasciculus arcuate fasciculus Connect 4 lobes together
• Inferior longitudinal Fasciculus Connect occipital lobe with temporal lobe
• Uncinate Fasciculus Connect frontal lobe with temporal lobe
• Cingulum (limbic lobe) Connect cingulate gyrus with parahippocampal gyrus end in uncus

Question 155

function of projection fibers

Answer 155

• connect the cerebral cortex with subcortical areas. Form a compact bundle called internal capsule.

Question 156

types of projection fibers

Answer 156

• Ascending projection fibers as thalamocortical fibers
• Descending projection fibers as corticospinal and corticobulbar fibers

Question 157

Components of the basal ganglia

Answer 157

• Corpus Striatum
• Amygdaloid nucleus
• Claustrum

Question 158

what is corpus striatum formed of?

Answer 158

Caudate nucleus: head, body & tail.

Lentiform nucleus: putamen & glabus pallidus.

Question 159

what is amygdaloid nucleus functionally part of?

Answer 159

functionally, it is a part of the limbic system.

Question 160

Shape of Caudate nucleus

Answer 160

C shaped

Question 161

What is Caudate nucleus formed of?

Answer 161

formed of head, body & tail.

Question 162

what is The head of caudate separated from the lentiform nucleus by?

Answer 162

• by the anterior limb of internal
  capsule.

Question 163

what is The body of caudate separated from the thalamus by?

Answer 163

thalamostriate vein and stria terminalis.

Question 164

Relations of caudate and amygdaloid to the lateral ventricle

Answer 164

• Head of caudate forms the lateral wall of the anterior horn of the lateral ventricle.
• Body of caudate lies the floor of the central part of the lateral ventricle.
• Tail of caudate and amygdaloid lie the roof of the inferior horn of the lateral ventricle.

Question 165

what is Lentiform nucleus formed of?

Answer 165

formed of putamen (lateral part) & glabus pallidus (medial part).

Question 166

Relations of Lentiform nucleus

Answer 166

Medially: internal capsule
- Anterior limb: separating it from the head of caudate.
- Posterior limb: separating it from the thalamus.

Laterally:
- external capsule separating it from the claustrum.

Inferiorly:
- related to amygdaloid nucleus & anterior commissure.

Question 167

Definition of internal capsule

Answer 167

• A band of projection fibers

Question 168

Parts of internal capsule

Answer 168

Anterior Limb: between head of caudate and lentiform
——–
Genu: opposite the apex of lentiform
———-
Posterior Limb:

Lenticulothalamic part: between lentiform and thalamus

Reterolenticular part: behind lentiform

Sublenticular part: below lentiform

Question 169

Fiber content of the internal capsule

Answer 169

• Anterior limb
• Genu
• Posterior limb

Question 170

Fiber content of Anterior limb

Answer 170

Anterior thalamic radiation: From anterior & mediodorsal thalamic nuclei, to the frontal cortex.

Frontopontine fibers: That project to pontine nuclei, in the basal part of the Pons.

Question 171

Fiber content of Genu of internal capsule

Answer 171

Corticobulbar fibers.

Question 172

Fiber content of posterior part of internal capsule

Answer 172

• Lenticothalamic part
• Retrolentiular part
• sublenticular part

Question 173

fiber content of Lenticothalamic part

Answer 173

• Corticospinal fibers.
• Thalamocortical.
• Frontorubral.
• Main sensory (superior thalamic ) radiation, from the ventral posterior nucleus to the primary somatosensory cortex.

Question 174

Fiber content of Retrolentiular part

Answer 174

• contains posterior thalamic radiation (optic radiation & fibers from pulvinar to the sensory association areas).

Question 175

Fiber content of sublenticular part

Answer 175

• contains Auditory radiation & nonfrontopontine fibers.

Revise blood supply from PPT (VIP)

Question 176

what is the lateral ventricle?

Answer 176

• It is the cavity of the cerebral hemisphere.

Question 177

shape and lining of lateral ventricle

Answer 177

• C shaped lined with ependyma and filled with CSF.

Question 178

parts of lateral ventricle

Answer 178

1) Anterior horn.
2) Body.
3) Posterior horn.
4) Inferior horn.

Question 179

relation of anterior horn of lateral ventricle

Answer 179

PPT

Question 180

relation of body or central part of lateral ventricle

Answer 180

PPT

Question 181

relation of posterior horn of lateral ventricle

Answer 181

PPT

Question 182

relation of inferior horn of lateral ventricle

Answer 182

PPT

Question 183

The lateral ventricle communicates with the 3rd ventricle through……

Answer 183

interventricular foramen of Monro.

Question 184

The choroid plexus of the lateral ventricle is attached to…..

Answer 184

body and inferior horn of lateral ventricle