SA_chap1

Question 1

Central tegmental tract

Answer 1

connects the rostral solitary nucleus to the medial thalamic VPM and the red nucleus to the inferior olive

Question 2

Medial forebrain bundle

Answer 2

connects the septal area, hypothalamus, basal olfactory areas, hippocampus and subiculum to the midbrain, pons and medulla.

Question 3

Stria medularis

Answer 3

Connects the septal area, hypothalamus, olfactory area and anterior thalamus to the habenulum.

Question 4

Stria terminalis

Answer 4

amygdala to the hypothalamus

Question 5

Postcommisural Fornix

Answer 5

Hippocampus to the cingulate gyrus

Question 6

Nucleus of the diagonal band of Broca/vertical limb

Answer 6

septal nuclei to the hippocampus

Question 7

Retinohypothalamic tract

Answer 7

retinal ganglion cells to the suprachiasmatic nuclei and other hypothalamic nuclei

Question 8

Supraopticohypophyseal

Answer 8

connects the supraoptic and paraventricular nuclei to the neurohypophysis/posterior pituitary

Question 9

Tuberoinfundibular or tuberohypophyseal tract

Answer 9

Neuroendocrine neurons from the arcuate nucleus to the hypophyseal portal system - release dopamine and GHRH

Question 10

Trapezoid body

Answer 10

Ventral cochlear nuclei to the contralateral superior olive

Question 11

Thalamic fasciculus - FFH1

Answer 11

combines the ansa lenticularis, lenticular fasciculus and cerebellothalamic tract to the VA/VL thalamus

Question 12

Nucleus of the diagonal band of Broca/horizontal limb

Answer 12

septal nuclei to the amygdala

Question 13

Mammillothalamic tract

Answer 13

Mamillary bodies to the anterior thalamic nuclei

Question 14

Tapetum

Answer 14

Corpus callosal fibers to the occipital lobes

Question 15

White rami communicans

Answer 15

Contain preganglionic myelinated sympathetics fibers from the intermediolateral nucleus exiting the spinal cord going to the paravertebral ganglia of the sympathetic trunk

Question 16

Gray Rami Communicans

Answer 16

Contain unmyelinated postganglionic sympathetic fibers from the paravertebral ganglia which are then received by the spinal nerves and then travel out to an effector organ

Question 17

Lesions of the STN cause

Answer 17

Hemiballismus

Question 18

What regions/tracts are responsible for inhibiting extensor action in the arms and legs

Answer 18

1. Cortical inhibition of lateral vestibular nucleus/vestibulospinal tract 2. Cortical inhibition of the pontine reticular formation 3. Projections from the red nucleus to the spinal cord (stop at the cervical level.) (Rubrospinal projections) 4. Medullary reticular formation

Question 19

Disconnection lesions above the red nucleus result in

Answer 19

Decorticate posturing

Question 20

Disconnection lesions below the red nucleus result in

Answer 20

Decerebrate posturing

Question 21

The veins which drain into the cavernous sinus are:

Answer 21

1. Superior and inferior ophthalmic veins 2. Superficial middle cerebral vein 3. Sphenoparietal sinus.

Question 22

The persistent trigeminal artery runs from what to what

Answer 22

The cavernous ICA, proximal to the meningohypophyseal trunk to the mid basilar artery between the SCA and AICA. Seen in 0.1-0.6% of people.

Question 23

The Hering-Breuer reflex is mediated by

Answer 23

Cranial nerve 10 which sends afferent information to the medullary inspiratory center and pontine apneustic center to control the depth of breathing.

Question 24

Annulus of Zinn contents:

Answer 24

Annulus of Zinn is a fibrous ring continuous with the dura of the middle cranial fossa. It contains - Optic nerve, ophthalmic artery, superior and inferior division of cranial nerve 3, nasociliary division of V1 and the abducens nerve.

Question 25

How many primary and secondary ossification centers are typically seen in each vertebrae

Answer 25

3 primary. 5 secondary.

Question 26

What are the three stages of vertebral column development

Answer 26

1. Mesenchymal - formation of sclerotomes and myotomes. The former give rise to centrum aka primordial vertebral body
2. Cartilaginous - chrondrification centers arise in the centrum and vertebral arches.
3. Bony - ossification. 3 primary and 5 secondary (after puberty)

Question 27

What are splanchnic nerves

Answer 27

Preganglionic myelinated sympathetic nerve fibers which arised from the intermediolateral column, exited via the white rami communicans and then passed through the sympathetic ganglia without synpasing before going onto the prevertebral ganglia.

Seen in the abdominal and pelvic sympathetic innervation which arises from T4-L2 (go to the celiac and hypogastric plexi) and T10-L2 (go to the pelvic plexus) respectively.

Question 28

What are the nervi erigentes

Answer 28

The nervis erigentes represent the sacral parasympathetic outflow. They arise off of the anterior rami of S2, S3 and S4 and are essentially pelvic splanchnic nerves. They provide

1. visceromotor to rectal muscles, inibition to the internal anal sphincter
2. motor to the bladder wall, inhibition to the internal vesicle sphincter
3. vasodilator to the cavernous sinuses of the penis and clitoris

Question 29

Where do parasympathetic sensory afferents synpase?

Answer 29

1. The nucleus solitarius - located in the medulla and receieved parasympathetic sensory afferent fibers from the GI, respiratory, cardiac, mouth and pharynx regions via cranial nerves 7, 9 and 10.
2. Sacral parasympathetic sensory afferents terminate in the S2-S4 gray matter.

Question 30

What are the segments of the internal carotidNext

Answer 30

Cervical. Petrous. Lacerum. Cavernous. Clinoidal. Ophthalmic/supraclinoidal. Communicating.

Question 31

What are the three branches of the meningohypophyseal artery

Answer 31

The inferior hypophyseal artery, the tentotial artery/B&C, the dorsal clival artery

Question 32

What does the inferolateral trunk of the cavernous sinus supply

Answer 32

The 3rd, 4th and 6th cranial nerves as well as the gasserian ganglia and the dura of the cavernous sinus.

Question 33

Which arteries supply the following regions:

Answer 33

A: Medial lenticulostriates - head of the caudate

B: Lateral lenticulostriates - globus pallidus and anterior limb of the IC

C: Thalamoperforating arteries

D: Medial posterior choroidal arteries

E: Thalamogeniculate arteries

F: Anterior choroidal artery (genu and posterior limb of the IC)

Question 34

What are the cranial parasympathetic ganglia

Answer 34

Ciliary ganglia

Pterygopalatine ganglia

Otic Ganglia

Submandibular ganglia

Question 35

Parasympathetic innveration for pupillary constriction

Answer 35

The Edinger-Westphal nucleus lies in the midbrain and is the origin of parasympathetic innervation to the ciliary muscle and sphincter pupillae. It sends preganglionic parasympathetic fibers via cranial nerve 3, to the ciliary ganglion which are on the ciliary muscle and sphincter pupillae.

Question 36

The superior salivatory nuclei contains

Answer 36

SALVIATORY and LACRIMATORY nuclei.

Question 37

Motor innervation of the salivary glands from the superior salivary nuclei

Answer 37

The salivatory nuclei from the superior salivatory nucleus sends it fibers via the nervus intermedius but within the geniculate ganglion they organize and continue on with the chorda tympani which then runs with/joins the lingual nerve and synapses in the submandibular ganglion where it then goes on to innervate the submandibular and sublingual salivary glands.

Question 38

Lacrimal gland innervation

Answer 38

The superior salivary sends preganglionic parasympathetic fibers via the nervus intermedius - these fibers then PASS THROUGH the GENICULATE GANGLION - they do not synapse there. The fibers which originated from the lacrimatory nuclei continue on as the GSPN, which merges with the deep petrosal to form the nerve of the Vidian canal. These parasympathetic fibers then synapse in the pterygopalatine ganglion before going on to innervate the lacrimal glands and the mucosae of the nose and mouth.

Question 39

Motor innervation of the parotid gland

Answer 39

The inferior salivatory nucleus lies in the medulla caudal to the superior salivary nuclei and rostral to the dorsal nucleus of 10 and sends preganglionic fibers via cranial nerve 9, which then leave via the tympanic nerve, pass through the tympanic plexus and exit as the lesser superficial petrosal nerve which then goes on to synapse on the otic ganglion. Post-ganglionic parasympathetic fibers from the otic ganglion then travel within the auriculotemporal nerve to the parotid gland.

Question 40

What is the difference in the course of the ansa lenticularis and the lenticular fasciculus

Answer 40

While both the ansa lenticularis and the lenticular fasciculus connect the GPi to the thalamus. The ansa lenticularis travels around the posterior limb of the internal capsule the lenticular fasciculus travels through it.

Question 41

What tract connects the bilateral lateral lemniscus

Answer 41

The commissure of Probst. Really it connects the dorsal nucleus of the lateral lemniscus and the inferior colliculus to the corresponding structure on the contralateral side.

Question 42

Name the regions of the thalamus

Answer 42

A. Anterior nucleus

B. Ventral Anterior nucleus

C. Lateral dorsal nuclei

D. Ventral lateral nucleus (o)

E. Ventral lateral nucleus (c)

F. Lateral posterior nucleus

G. Ventral posterolateral and ventral posteromedial nuclei

H. Magnocellular component of the mediodorsal nuclei

I. Parvocellular component of the mediodorsal nuclei

J. Pulvinar

K. Lateral geniculate nucleys

L. Medial geniculate nucleus

The centromedian and parafascicular nucleus of the thalamus lies within the intralaminar nuclei.

Question 43

The medial and lateral geniculate nuclei are responsible for…

Answer 43

Medial geniculate nuclei - part of the auditory thalamus and represents the thalamic relay between the inferior colliculus and the auditory cortex

Lateral geniculate nuclei - part of the visual thalamus and connects input from the retinal ganglion cells to the the primary visual cortex.

Question 44

Organization of the lateral geniculate nuclei

Answer 44

The LGN has two major layers - the magnocellular layer (layers 1 and 2), and the parvocellular layer (layers 3,4,5 and 6).

Each LGN receives input from both eyes but one visual field

Ipsilateral eye: Layers 2,3, and 5

Contralateral eye: Layers 1,4, and 6

The magnocellular layer is necessary for perception of movement and depth and receives input from RODS/Y-ganglion cells. Fast conductions

The parvocellular layer is necessary for the perception of color and receives input from CONES/X-ganglion cells. Moderate velocity.

Question 45

Which portion of the thalamus receives input from the mamillary bodies

Answer 45

The anterior thalamic nuclei

Question 46

Which regions of the thalamic nuclei are involved in sensation

Answer 46

The ventral posterior nuclei.

VPM -> Face

VPL -> rest of the body

Question 47

The indusium griseum covers the

Answer 47

The indusium griseum is a thin layer of grey matter which covers the corpus callosum and is continuous with the cingulate gyrus laterally.

Question 48

What are the other names for the superior, middle and inferior cerebellar peduncles

Answer 48

Brachium conjunctivum, brachium pontis, and restiform/juxtarestiformbodies respectively.

Question 49

The dorsal longitudinal fasciculus connects:

Answer 49

The dorsal longitudinal fasciculus connects the periventricular hypothalamus and mammillary bodies to the midbrain central gray.

Question 50

The orbitofrontal gyrus and the anterior temporal lobe are connected by the

Answer 50

Uncinate fasciculus

Question 51

Crossing fibers from the pretectal nuclei for the consensual light reflex run within the

Answer 51

Posterior commissure

Question 52

Answer 52

a, Edinger-Westphal nucleus; b, Oculomotor nucleus; c, Trochlear nucleus; d, Trigeminal motor nucleus; e, Abducens nucleus; f, Facial motor nucleus; g, Salivatory nuclei (superior); h, Salivatory nuclei (inferior); i, Dorsal vagal motor nucleus; j, Nucleus ambiguous; k, Hypoglossal nucleus; l, Trigeminal mesencephalic nucleus; m, Trigeminal main sensory nucleus; n, Trigeminal spinal nucleus; o, Dorsal cochlear nucleus; p, Nucleus of tractus solitaries.

Question 53

What are the three sensory nuclei of the trigeminal nucleus.

Answer 53

The mesencephalic nucleus of 5 (most rostral): - Proproception to the face and the jaw jerk reflex

The principal sensory nucleus of 5 (middle): Light touch and discriminative sensation. Relays to the contralateral VPM for most of the face via the trigeminal lemniscus. The oral cavity travels to the ipsilateral VPM via the dorsal trigeminothalamic tract.

The spinal trigeminal nucleus (most caudal): Crude touch, pain and temperature from the face to the VPM.

Question 54

The lingual gyrus is continuous anteriorly with the

Answer 54

Parahippocampal gyrus. The two are separated from the fusiform gyrus laterally by the collateral sulcus.

Question 55

Answer 55

a, Central sulcus; b, Posterior paracentral gyrus; c, Marginal sulcus; d, Precuneus; e, Parieto-occipital sulcus; f, Cuneus; g, Hippocampal commissure; h, Calcarine sulcus; i, Occipital pole; j, Lingual gyrus; k, Isthmus of cingulate gyrus; l, Pineal; m, Occipitotemporal gyri; n, Collateral sulcus; o, Posterior commissure; p, Parahippocampal gyrus; q, Uncus; r, Optic chiasm; s, Temporal pole; t, Lamina terminalis; u, Anterior commissure; v, Subcallosal area; w, Fornix; x, Frontal pole; y, Callosal sulcus; z, Cingulate gyrus; a1, Cingulate sulcus; b1, Superior frontal gyrus; c1, Paracentral sulcus; d1, Anterior paracentral gyrus.

Question 56

Answer 56

a, Anterior medullary velum; b, Middle cerebellar peduncle; c, Median sulcus of rhomboid fossa; d, Striae medullares; e, Foramen of Luschka; f, Hypoglossal trigone; g, Vagal trigone; h, Tela choroidea (cut edge); i, Gracile tubercle; j, Superior cerebellar peduncle; k, Medial eminence of fourth ventricle; l, Facial colliculus; m, Superior fovea; n, Vestibular area; o, Lateral recess; p, Sulcus limitans; q, Restiform body; r, Inferior fovea; s, Cuneate tubercle.

Question 57

Answer 57

a, Gracile fasciculus; b, Gracile nucleus; c, Cuneate fasciculus; d, Cuneate nucleus; e, Spinal trigeminal: Nucleus (pars caudalis); f, Spinothalamic tract; g, Internal arcuate fibers; h, Reticular formation; i, Lateral reticular nucleus; j, Hypoglossal nerve; k, Pyramid (corticospinal fibers); l, Central canal; m, Central gray; n, Solitary nucleus and tract; o, Dorsal motor vagal nucleus; p, Posterior spinocerebellar fibers; q, Accessory cuneate nucleus; r, Hypoglossal nucleus; s, Nucleus ambiguous; t, Anterolateral system; u, Medial longitudinal fasciculus; v, Tectobulbospinal system; w, Principal olivary nucleus; x, Medial accessory olivary nucleus; y, Medial lemniscus.

Question 58

Answer 58

a, Medial vestibular nucleus; b, Inferior vestibular nucleus; c, Reticular formation; d, Hypoglossal nerve; e, Spinal trigeminal: Nucleus (pars interpolaris); f, Tract; g, Anterior spinocerebellar tract; h, Lateral reticular nucleus; i, Hypoglossal nerve; j, Pyramid (corticospinal fibers); k, Choroid plexus and fourth ventricle; l, Hypoglossal nucleus; m, Sulcus limitans; n, Dorsal motor vagal nucleus; o, Accessory cuneate nucleus; p, Solitary tract and nucleus; q, Restiform body; r, Medial longitudinal fasciculus; s, Tectobulbospinal system; t, Nucleus ambiguous; u, Rubrospinal tract; v, Anterolateral system; w, Posterior accessory olivary nucleus; x, Principal olivary nucleus; y, Medial accessory olivary nucleus; z, Medial lemniscus.

Question 59

Answer 59

Rostral Medulla

A is the medial vestibular nucleus. B is the inferior vestibular nucleus. C is the lateral recess of the fourth ventricle. D and E are the anterior and posterior cochlear nuclei respectively. F and G are the spinal trigeminal nucleus (pars oralis) and spinal trigeminal tract respectively. H is the vestibulocochlear nerve. I is the glossopharyngeal nerve. J is the anterior spinocerebellar nerve. K is the principal olivary nucleus. L is the anterior trigeminothalamic fibers. M are the medullary pyramids/corticospinal fibers. N is the fourth ventricle and the choroid plexus. N is the nucleus prepositus hypoglossi which is involved in horizontal gaze.. P is the MLF. Q is the tectobulbospinal tract. R is the inferior salivatory nucleus which lies in between - S - the solitary nucleus and tract and MLF/tectobulbospinal tract. T is the reticular formation. U is the rubrospinal tract. V is the anterolateral/spinothalamic system. Nucleus ambiguus is W. X and Y are the posterior and medial accessory olivary nucleus and Z is the MLF.

Question 60

Answer 60

a, Medial longitudinal fasciculus; b, Tectobulbospinal system; c, Internal genu of facial nerve; d, Superior salivatory nucleus; e, Spinal trigeminal: Tract; f, Spinal trigeminal: Nucleus (pars oralis); g, Facial nucleus; h, Facial nerve; i, Rubrospinal tract; j, Superior olivary nucleus; k, Central tegmental tract; l, Transverse pontine fibers (pontocerebellar); m, Corticospinal fibers; n, Nucleus raphe magnus; o, Facial colliculus; p, Abducens nucleus; q, Inferior cerebellar peduncle: Juxtarestiform body; r, Inferior cerebellar peduncle: Restiform body; s, Vestibular nuclei: Superior; t, Vestibular nuclei: Medial; u, Vestibular nuclei: Lateral; v, Solitary tract and nucleus; w, Anterolateral system; x, Anterior trigeminothalamic tract; y, Medial lemniscus; z, Abducens nerve; a1, Pontine nuclei; b1, Trapezoid body.

Question 61

Answer 61

a, Tectobulbospinal system; b, Brachium conjunctivum; c, Mesencephalic tract; d, Mesencephalic nucleus; e, Trigeminal nuclei: Principal sensory; f, Trigeminal nuclei: Motor; g, Reticulotegmental nucleus; h, Brachium pontis; i, Rubrospinal tract; j, Transverse pontine fibers (pontocerebellar); k, Pontine nuclei; l, Corticospinal fibers; m, Nucleus raphe pontis; n, Medial longitudinal fasciculus; o, Fourth ventricle; p, Locus ceruleus; q, Anterior spinocerebellar fibers; r, Lateral lemniscus; s, Anterolateral system; t, Central tegmental tract; u, Anterior trigeminothalamic fibers; v, Medial lemniscus; w, Pontine nuclei.

Question 62

Answer 62

a, Periaqueductal gray; b, Mesencephalic tract and nucleus; c, Locus ceruleus; d, Medial longitudinal fasciculus; e, Tectobulbospinal system; f, Anterior trigeminothalamic fibers; g, Rubrospinal tract; h, Corticospinal fibers; i, Frenulum; j, Fourth ventricle-cerebral aqueduct transition; k, Trochlear nerve; l, Posterior raphe nucleus; m, Brachium conjunctivum; n, Central tegmental tract; o, Anterolateral system; p, Medial lemniscus; q, Middle cerebellar peduncle; r, Pontine nuclei; s, Central superior nucleus (of the raphe).

Question 63

Answer 63

a, Trochlear nucleus; b, Medial longitudinal fasciculus; c, Mesencephalic tract and nucleus; d, Posterior trigeminothalamic fibers; e, Reticular formation; f, Anterior trigeminothalamic fibers; g, Parieto-, occipito-, and temporopontine fibers; h, Corticospinal fibers; i, Corticonuclear (corticobulbar) fibers; j, Frontopontine fibers; k, Tectobulbospinal system; l, Cerebral aqueduct; m, Periaqueductal gray; n, Inferior colliculus: Pericentral nucleus; o, Inferior colliculus: External nucleus; p, Inferior colliculus: Central nucleus; q, Lateral lemniscus; r, Posterior raphe nucleus; s, Anterolateral system; t, Central tegmental tract; u, Medial lemniscus; v, Decussation of the superior cerebellar peduncle; w, Substantia nigra; x, Crus cerebri; y, Rubrospinal fibers; z, Interpeduncular nucleus.

Question 64

Answer 64

A is the posterior tegmental decussation. B is the MLF which lies adjacent and anterolateral to - O - the oculomotor nucleus. G is the oculomotor nerve. C is the mesencephalic tract and nucleus. D is posterior trigeminothalamic fibers. E is the central tegmental tract. F is the anterior trigeminothalamic fibers. H are the parieto/occipito/temporo - pontine fibers. I and J are the corticospinal and corticobulbar fibers respectively. K is the frontopontine fibers. L is the interpeduncular nucleus. M is the cerebral aqueduct. N is the periaqueductal gray. O is the oculomotor nucleus. P is the superior colliculus. Q if the spinotectal fibers. R is the anterolateral system/spinothalamic fibers. U is the medial lemniscus. V are cerebellothalamic fibers. The SN- pars reticulata is W and the SN-pars compacta is X. Note that the pars reticulata is anterior to the pars compacta. Crus cerebri - Y. Red nucleus is Z. The anterior tegmental decussation is A1.

Question 65

Answer 65

A is the Edinger-Westphal preganglionic nucleus. B is the Edinger-Westphal centrally projecting nucleus. C is the oculomotor nucleus. D is the mesencephalic tract and nucleus. E is the Pulvinar. F is the brachium of the superior colliculus which runs into the lateral geniculate nucleus - H. I is the optic tract lateral and anterior to the lateral geniculate nucleus. G are the posterior and anterior trigeminothalamic tracts. J are all the corticopontine fibers with the exception of the frontopontine fibers. K and L are corticospinal and corticobulbar tracts, M are the frontopontine fibers. N is the oculomotor nerve. O is the cerebral aqueduct. P is the periaqueductal gray. Q is the MLF. R is the superior colliculus and S is the anterolateral system/spinothalamic tract. T is the medial geniculate nucleus. U is the brachium of the inferior colliculus. V is the medial lemniscus. W are cerebellothalamic fibers. X and Y are the substantia nigra pars reticulata and compacta respectively. Z are the crus cerebri. A1 is the central tegmental tract and B1 is the red nucleus