Structural Neuroanatomy

Question 1

How many spinal nerves? Which levels?

Answer 1

31 total. 8 cervical, 12 thoracic, 5 lumbar, 5 sacral, 1 coccygeal.

Question 2

Which SC levels have sympathetic neurons?

Answer 2

T1-L2

Question 3

Which SC levels have parasympathetic neurons?

Answer 3

Brainstem / cervical and S2-4

Question 4

Dermatomes for nipples, umbilicus, and perineum

Answer 4

Nipples at T4
Umbilicus at T10
Perineum at S3

Question 5

General characteristics seen in myopathies.

Answer 5

Symmetric proximal muscle weakness

Question 6

Waddling gait

Answer 6

Caused by myopathy. Pelvis falls on the side of the striding leg due to hip muscle weakness.

Question 7

What part of body do myopathies usually not affect?

Answer 7

Face / orbits

Question 8

What parts of body do NMJ-opathies usually affect?

Answer 8

Eyes, face, pharynx, and larynx

Question 9

Most common mononeuropathies in order

Answer 9

Median, ulnar, radial, lateral femoral cutaneous, and common peroneal

Question 10

Most comon radiculopathies in order

Answer 10

L5, S1, C7, C6

Question 11

General characteristics seen w/ polyneuropathies.

Answer 11

Symmetric distal abnormalities. Sensory and motor, but sensory predominate. Stockings & gloves. Lose proximal reflexes early on. May also lose position sense –> ataxic gait (wide stance). Slapping gait and steppage gait are also possible. Autonomic dysfunction may occur in severe cases, w/ orthostatic hypotension being the first symptom.

Question 12

Cause and sxs of carpal tunnel syndrome

Answer 12

Median nerve. Most common mononeuropathy.
Sensory and motor. Thumb through half of ring finger on palm side. Finger tips on back as well. Palm is spared due to branch that passes outside the tunnel. Median controls thenar muscles, which control opposition, abduction, and flexion of the thumb. Abduction and flexion may be spared though due to redundant muscles in the forearm. May get atrophy, which is a lower motor neuron sign.

Question 13

Ulnar neuropathy

Answer 13

Somatosensory for pinky and rest of ring finger; front and back. Ulnar nerve controls all other intrinsic hand muscles (other than thenar muscles). Ab / adduction of fingers, extension of ring / little finger, pinky opposition. Arm muscles that control flexion of ring / little finger and wrist flexion may be effected.

Question 14

Radial neuropathy cause and sxs

Answer 14

Radial nerve wraps around ulnar / spiral groove on posterior part of humerus. May be compressed → problems in wrist / finger extension. “Wrist drop”. “Weakness in grip”. Other affected muscles include thumb abduction, hand supination, and elbow flexion. Brachioradialis reflex may be diminished.
Last part of somatosensation in back of hand on thumb side through half of ring finger (but proximal fingers, not distal, which is median nerve)

Question 15

Lateral femora cutaneous neuropathy

Answer 15

Compression at inguinal ligament (may occur w/ wearing tight pants [putting on weight]) – somatosensation of lateral thigh. Numbness, pain, or parasthesias may be present.

Question 16

Common peroneal neuropathy at the knee

Answer 16

Common peroneal / fibular nerve wraps around femoral head. Somatosensation to lateral lower leg and top / medial side of foot. Innervates muscles for foot dorsiflexion, toe extension, and eversion of foot. Problem called foot drop.

Question 17

5th lumbar radiculopathy

Answer 17

Most common radiculopathy.
•Somatosensation: Lateral leg and top / medial side of foot. Same as common peroneal nerve in lower leg, but peroneal does not deal with thigh at all.
•Weakness w/ hip abduction, knee flexion, foot dorsiflexion, foot eversion, foot inversion, and toe extension. Foot inversion weakness is only feature distinguishing from common peroneal.
•L5 reflexes are normal.

Question 18

Radicular pain

Answer 18

Shooting down a limb. Called sciatica if it occurs in the leg.

Question 19

1st sacral radiculopathy

Answer 19

Lateral side of foot. Lose ankle jerk reflex. Others obvious.

Question 20

7th cervical radiculopathy

Answer 20

• Somatosensory: Posterior proximal / distal arm, posterior hand, and anterior / posterior middle finger.
• Motor: Weakness of middle finger, hand pronation, wrist flexion / extension, finger extension and elbow extension. Lose triceps reflex

Question 21

6th cervical radiculopathy

Answer 21

• Problems w/ elbow flexion, hand supination, wrist extension.
• Lose biceps and brachioradialis reflexes

Question 22

Funiculi

Answer 22

white matter columns in spinal cord

Question 23

Where does viscerosensory info ascend?

Answer 23

Ascends near spinothalamic tract. Unconscious position sense ascends mainly ipsi in spinocerebellar tract.

Question 24

From where do spinal arteries originate?

Answer 24

Originate from the vertebral arteries in the neck, but are mainly supplied by the cervical arteries and segmental arteries from the aorta.

Question 25

Medial cerebellum

Answer 25

Medial cerebellum consists of midline vermis, adjacent medial cerebellar hemispheres (paravermis), and flocculonodular lobe inferiorly. Vermis and paravermis project to interposed and fastigial nuclei in cerebellum, which project to brainstem. Flocculonodular lobe projects to vestibular nuclei in brainstem.

Question 26

Medical cerebellar syndrome

Answer 26

• Medial cerebellum controls gait, torso, and neck.
• Main problem is gait ataxia, which has a wide base and is unsteady.
• Truncal ataxia – px unable to sit unassisted
• Vertigo possibly due to interconnections w/ vestibular system.
• Slurred speech (dysarthria)
• Nystagmus

Question 27

What is isolated ataxia caused by?

Answer 27

Dysfunction in cerebellum

Question 28

Lateral cerebellar syndrome

Answer 28

• Lateral cerebellum controls ipsi limb movement.
• Vertigo, slurred speech, but no gait ataxia. Instead get limb ataxi
• Dysmetria – limb misses target
• Intention tremor – occurs when approaching target
• Ipsilateral abnormalities due to double cross pathway

Question 29

Multifactorial abnormal gait

AKA ?

Answer 29

AKA cautious / hesitant gait

Hesitant, short-striding, unsteady gait on normal base. Due to dysfunction of multiple sensory systems

Question 30

Where does each CN attach to brainstem?

Answer 30

CN IX, X, and XII connect to medulla. CN VI, VII, and VIII connect to pontomedullary junction. CN V is attached to pons. CN III and IV attach to midbrain.

Question 31

Accessory nucleus

Answer 31

Consists of LMNs in dorsal horn of C1-5. Axons ascend just lateral to cervical SC. Nerve enters skull and quickly exits again

Question 32

Hypoglossal neuropathy

Answer 32

Nerve runs inferior to tongue. Damage → atrophy / fasciculations of the tongue. Tongue deviates to ipsi side. Genioglossus normally protrudes the tongue anteriorly.

Question 33

Vagus neuropathy

Answer 33

Problems in larynx / palate. May have dysarthria, dysphagia, dysphonia, nasal regurgitation, ipsi palate elevation weakness, ipsi efferent pharyngeal reflex dysfucntion.
Not many autonomic problems due to redundancy.
Viscerosensation travels to solitary nucleus.

Question 34

Where are LMNs for palate / pharynx / larynx found?

Answer 34

ambiguus nucleus in medulla

Question 35

Where are preganglionic parasympathetic cell bodies for viscera found?

Answer 35

Posterior vagus nucelus in medulla.

Question 36

Glossopharyngeal neuropathy

Answer 36

Sensory loss of pharynx and posterior tongue to trigeminal nucleus. Ipsi afferent dysfunction of gag reflex. Taste from posterior tongue to solitary nucleus. Preganglionic parasympathetics from inferior salivary nucleus.

Question 37

Pharyngeal reflex

Answer 37

Unilateral afferent carried by glossopharyngeal nerve and bilateral efferent carried by vagus nerve for gag reflex.

Question 38

Which nerve controls stapedius?

Answer 38

CN VII

Question 39

Facial nucleus / nerve

Answer 39

Stapedius
Taste sense from anterior tongue travels in facial nerve to solitary nucleus. Preganglionic parasympathetic neurons of superior salivary nucleus in pons travel in this nerve to innervate lacrimal gland and salivary glands. May have abnormal efferent corneal reflex.

Question 40

Where are neurons for stretch of muscles of mastication

Answer 40

Mesencephalic trigeminal nucleus, which projects to motor trigeminal nucleus for stretch reflex.

Question 41

Which nerve controls tensor tympani?

Answer 41

CN V

Question 42

Trochlear neuropathy

Answer 42

Superior oblique muscle.
Intorsion weakness causes extorsion causing diplopia. To fix this, people turn their head away. Normal eye intorts to line up.

Question 43

Orientation of superior / inferior recti

Answer 43

45 degree angle w/ anterior being lateral.

Question 44

Pathway for sympathetics to eye vs to sweat glands.

Answer 44

Sympathetics to orbit travel along internal carotid artery. Sympathetics to sweat glands of face travel along external carotid artery.

Question 45

Tegmentum vs tectum

What is found in the tectum?

Answer 45

Tegmentum is posterior part of brainstem. Tectum is even further posterior, only found in the midbrain.
Tectum contains inferior / superior colliculus.

Question 46

What does the reticular formation do?

Answer 46

Controls circulation, respiration, and digestion

Question 47

Anterior circulation

Answer 47

Anterior circulation – arteries arising from intracranial parts of internal carotid arteries, which gives off ophthalmic artery (which gives off retinal artery), anterior choroidal artery to deep cerebral hemisphere, and then divides into ACA and MCA. Anterior communicating artery connects right / left ACA.

Question 48

Posterior circulation

Answer 48

All arteries arising from intracranial parts of vertebral arteries

Question 49

What does MCA supply?

Answer 49

MCA supplies lateral frontal, parietal, temporal, and insular lobes, BG, and internal capsule. May get contra homonymous hemianopsia due to optic radiation.

Question 50

What does PCA supply?

Answer 50

PCA supplies medial temporal / occipital lobes and thalamus. May get contra homonymous hemianopsia.

Question 51

Where does PICA branch off?

What does it supply?

Answer 51

From vertebral arteries

Supplies medulla and lower cerebellum.

Question 52

Where does AICA branch off?

What does it supply?

Answer 52

Branches off inferior basilar artery.

Supplies middle cerebellum.

Question 53

Where does SCA branch off?

What does it supply?

Answer 53

SCA arises from superior basilar artery

Supplies superior cerebellum.

Question 54

Medial medullary syndrome

Answer 54

Mainly supplied by small arteries from vertebral and anterior spinal arteries. From anterior to posterior: pyramid, medial lemniscus (contra fine touch), trigeminothalamic tract (pain, temp, gross touch from contra face via spinal trigeminal nucleus), and hypoglossal nucleus (axons exit lateral to pyramid).

Question 55

Lateral medullary syndrome

Answer 55

AKA Wallenberg syndrome) – Supplied by PICA. No UMN’s so no weakness. Descending sympathetics to orbit (Horner’s Syndrome). Posterior vagus nucleus. Solitary nucleus for taste from anterior tongue (via facial nerve), posterior tongue (via glosspharyngeal nerve), and pharynx (vagus nerve). Solitary nucleus also receives viscerosensory info from viscera via SC, CN IX / X. Vestibulocochlear nucleus and inferior olive (connected to cerebellum). Inferior salivary nucleus via CN IX. Ambiguus nucleus for LMNs to palate / pharynx / larynx / gag reflex via vagus nerve. Spinothalamic tract (contra pain, temp, gross touch), vestibular nuclei (vertigo), inferior cerebellar peduncle w/ spinocerebellar tracts, spinotrigeminal nucleus (pain, temp, gross touch, and afferent gag reflex for ipsi face; enters ipsi pons, descends to ipsi spinotrigeminal nucleus, then ascends to ipsi thalamus; split brainstem syndrome: contralteral body, ipsi face)

Question 56

Medial pontine syndrome

Answer 56

Mainly supplied by basilar artery.
•Basis pontis w/ corticospinal / corticobulbar / corticopontine tracts.
•Medial lemniscus and trigeminothalamic tract (contra face pain, temp, gross touch) are found in inferior anterior tegmentum and move laterally as they ascend.
•Superior pons has axons from contra main trigeminal nucleus (contra face position, vibration, fine touch).
•MLF and abducens nucleus found in posterior tegmentum. MLF disruption → internuclear ophthalmoparesis (on left gaze, left eye moves left but right eye cannot). Convergence is spared due to convergence center and oculomotor nuclei in midbrain being intact. Facial nucleus wraps around abducens nucleus → ipsi facial weakness.

Question 57

Lateral pontine syndrome

Answer 57

Supplied by basilar artery, AICA, and SCA. Facial nucleus and vestibulochoclear nucleus are in inferior tegmentum. Spinothalamic tracts (pain, temp, gross touch of contra body), trigeminal nucleus (ipsi sensation to face and muscles of mastication). Corneal reflex carried via trigeminal nerve (afferent) to facial nuclei (efferent). Lateral lemniscus (auditory). Hyperacusis due to stapedius (VII) or tensor tympani (V). Descending sympathetics to eye (Horner’s). Axons from contra basal pontine nuclei to middle cerebellar peduncle.

Question 58

Locked-in Syndrome

Answer 58

Bilateral lesion of basis pontis due to basilar artery. Can’t move / speak. Corticobulbar and corticopontine tracts. Fully conscious and fully sensitive. Intact vertical gaze centers and oculomotor nuclei allow for vertical gaze and eyelid closure.

Question 59

Medial midbrain syndrome

Answer 59

Supplied by PCA.
•Loss of corticopontine / corticospinal / corticobulbar tracts, SN, red nucleus, CN III nucleus / nerve (levator palpebrae), Edinger-Westphal nucleus (preganglionic parasympathetics to iris constrictor & ciliar muscle), CN IV (axons decussate before exiting brainstem posteriorly), vertical gaze / convergence centers.
•Dentato-thalamic tract from cerebellum to thalamus → ataxia on one or both sides.
•Tectum: pretectum (sight). Inferior colliculus (sound) and superior colliculi (moves head / eyes toward stimuli, blinking, ducking).
•Sensory stuff is preserved due to being more lateral.

Question 60

Lateral midbrain syndrome

Answer 60

Supplied by PCA. Corticospinal / corticobulbar / corticopontine / spinothalamic / trigeminothalamic tracts, medial / lateral lemnisci, SN, descending sympathetics to orbit (Horner’s)

Question 61

CSF pathway

Answer 61

Choroid plexus –> lateral ventricles –> interventricular foramen –> 3rd ventricle –> cerebral aqueduct –> 4th ventricle –> central canal of SC

Question 62

Anterior / posterior commisures

Answer 62

smaller bundles of axons that connect the 2 hemispheres

Question 63

Where is caudate?

Answer 63

Lateral to lateral ventricle. Head is medial to anterior limb of internal capsule.

Question 64

Lentiform nucleus

Answer 64

Putamen + globus pallidus. Found lateral to internal capsule.

Question 65

Striatum

Answer 65

Caudate + putamen

Question 66

Parkinsonian gait

Answer 66

stooped, slow, shuffling, diminished arm swing

Question 67

Where is thalamus?

Answer 67

lateral to lateral ventricle and medial to posterior limb of internal capsule

Question 68

Amaurosis fugax

Answer 68

Transient monocular visual loss due to dysfunction of retinal artery

Question 69

Dysfunction of medial vs lateral occipital cortex

Answer 69

Unilateral dysfunction of medial cortex → contra homonymous hemianopsia. Lateral dysfunction → visual agnosia from involvement of visual association cortex

Question 70

Where are the auditory and olfactory cortices?

Answer 70

Temporal lobe.

Auditory (superior), olfactory (anterior / medial)

Question 71

Paraphasia

Answer 71

Word error. May have similar sound, meaning, or neither.

Question 72

Lateral temporal syndrome

Answer 72

Don’t get hearing loss unless there is bilateral auditory cortex damage. Contra superior homonymous quadrantanopsia due to lesion of inferior optic radiation.

Question 73

Lateral parietal syndrome on nondominant side

Answer 73

Agraphesthesia, astereognosis, hemineglect.

Also get contra inferior homonymous quadrantanopsia due to superior optic radiation.

Question 74

Lesion to insular cortex

Answer 74

Insular cortex involves gustation, vestibular, and viscerosensory. Lesions usually do not cause dysfunction due to bilateral redundancy. Lesion on left side may cause aphasia due to arcuate fasciculus.

Question 75

What is included in a mental status exam?

Answer 75

Arousal (responsiveness to stimuli), orientation (to person, place, time, or situation), attention, language, memory, fund of knowledge (facts or current events), and executive function

Question 76

Extinction

Answer 76

Observation of hemineglect only during bilateral stimuli

Question 77

Where does Broca’s area project?

Answer 77

Primary motor cortex.

Question 78

From where does Wernicke’s Area receive input?

Answer 78

Primary auditory / visual cortex.

Question 79

Anomia

Answer 79

Abnormal naming

Question 80

Broca’s aphasia

Answer 80

Includes impaired repetition

Question 81

Transcortical motor aphasia

Answer 81

Normal repetition. Caused by dysfunction around, but not in Broca’s area or arcuate fasciculus.

Question 82

Wernicke’s aphasia

Answer 82

Includes impaired repetition

Question 83

Transcortical sensory aphasia

Answer 83

Normal repetition. Caused by dysfunction around, but not in Wernicke’s area.

Question 84

Conduction aphasia

Answer 84

Isolated deficit of repetition due to damage in arcuate fasciculus

Question 85

Prosody

Answer 85

Emotional content of speech / inflection. Found in nondominant cortex in areas analogous to Broca and Wernicke.

Question 86

What structures aid in forming / storing memory of learned movements?

Answer 86

Cerebellum and BG

Question 87

Abulia

Answer 87

Deficit of motivation

Question 88

What parts of brain make up the reticular activating system?

Answer 88

Reticular formation and parts of thalamus that project glutamate to cortex

Question 89

What is required for arousal / attention?

Answer 89

Require Ach from basalis / septal nuclei in inferior frontal lobe and histamine from hypothalamus

Question 90

Circadian rhythm entrapment

Answer 90

Involves retinal ganglion cells that synapse in hypothalamus, which regulate release of melatonin from pineal gland, found posterior to thalamus.

Question 91

Vegetative state

Answer 91

Wakefulness w/o awareness lasting more than 1 month

Question 92

Minimally conscious state

Answer 92

Observable, but minimal purposeful behaviors or responses to stimuli