NEUROANATOMY
Brainstem
Cranial nerves
·
Cortical fibers
synapse directly on V, VII, NucAmb, XII (NOT on III,IV,VI,DMNX)
·
Corticobulbar
fibers bilateral except to lower VII (contra) & XII.
I (Olfaction)
·
SVA.
·
1° receptor
cells (= bipolar cells) in mucosa, axons form olfactory nerve, through
cribiform plate > 2°: mitral
& tufted cells (= glomeruli) in bulb, (also has granule cells – no axons,
inhibitory); > Olf. Tract >
1.
Lateral olfactory stria: to anterior olfactory nuc.
(aka olfactory tubercle, > medial forebrain bundle and stria medullaris),
amygdala, and pyriform cortex (=primary,
area 34, > entorhinal cortex (=secondary), DM thalamus, prefrontal cortex
(conscious perception, input from pyriform and DM thalamus)), or
2.
Medial olfactory stria > septal area, anterior
commisure to contralateral areas
·
Olfactory tubercle neurons project to directly, not
to olfactory tract/bulb
·
In mucosa: sustenacular cells support, basal cells
are receptor precursors – olfactory neurons are only ones to continually
regenerate.
·
There are
>2000 different receptor cells for odorants. Use G-proteins > cAMP or IP3.
2 specific glomeruli in bulb for each odorant.
·
Accessory
olfactory system: For detection of
pheromones, rudimentary in humans. Vomeronasal organ > vomeronasal/ terminal
n. (“13th cranial nerve, CN0”) > accessory olfactory bulb >
Vomeronasal nucleus in amygdala. Contain GnRH cells – related to GnRH cells in
hypothalamus, mediates sexual dimorphism
·
CN0 has Schwann
cells > schwannoma
II Optic
·
CNS tract – has oligodendroglial, not Schwann cells.
·
SSA.
·
(rods/cones) > bipolar cells (1°) >
ganglion cells (2°) > 3° centers:
1.
LGB > visual cortex (conscious vision) or
2.
Pretectal/EW nuclei (pupillary reflex, see below) or
3.
Superior colliculi (> tectopontine (>
cerebellum) & tectospinal tracts; pursuit, head/neck mvmt) or
4.
suprachiasmatic nucleus of hypothalamus (circadian
rhythms)
Retina
·
Part of CNS – has blood-retina barrier & Muller
glia.
Receptor
cells: rods/cones.
·
Rhodopsin
(rods) > transducin (G-protein) > PDE > cGMP to GMP > ¯ Na &
Ca current (hyperpolarizing) > ¯ glutamate release to bipolar cells (> “on-center” cells
stimulated, “off-center” cells inhibited, “on-center” bipolar cells stimulate
its ganglion cells and inhibit ganglion cells from “off-center” bipolar cells
also);
·
Rods = B/W, dim light. Cone = color, daylight. Both
Use glutamate.
·
Conduct by electric conduction, not action
potentials.
Ganglion
cells
·
Only cells in retina that can initiate action
potential.
·
Types:
o
W = small, slow, tonic & phasic to SC &
pretectum, dark;
o
X (or P) =
medium sized, tonic, to layers 3-6 LGB & pretectum, color; parvocellular
stream;
o
Y (or M) = rapid, phasic to layers 1&2
LGB & SC, B&W, magnocellular stream;
Horiztontal
cells: Synapses from & to depolarize rods/cones for lateral
inhibition
Amacrine
cells: Bipolar > Amacrine > Ganglion cells
Fovea (center
of macula) contains only cones. Rod goes to amacrine cell before ganglion cell.
Lateral Geniculate Body (LGB)
·
Ipsilateral layers 2,3,5. Contralateral
layers 1,4,6.
·
Layers 1&2 magnocellular, 3-6 parvocellular,
·
3&4 off-center, 5&6 on-center (1&2
mixed).
·
Ganglion cells and LGB cells have “on-center,
off-surround” concentric fields.
Cortex
·
Primary: Area 17
o
Layer IVCa = magnocellular input, layers IVCb & IVA
= parvocellular input,
o
Layer IVB = cortical input, has stripe of Genarri
·
Secondary: Areas 18
(±19) (no stripe
of Gennari).
·
No concentric fields, cells repond to lines, borders.
o
Simple
cells = position & orientation of line, rectangular fields.
o
Complex
cells = orientation, movement (not position in field).
o
Hypercomplex
cells = length, shapes.
·
Ocular
dominance columns in cortex alternate eye dominance,
have orientation & location specificity.
o
Together strips form ocular dominance bands.
o
Absent in 2 areas of area 17: those representing
blind spot of retina & monocular temporal crescent.
o
Orientation
columns also exist.
o
Hypercolumn: 2
adjacent columns w/same field from each eye.
·
Magnocellular
stream: “where stream”.
o
Y-cells > Layer 1/2 LGB > area 17 (layer IVCa) >
parietal cortex.
o
Spatial, movement, orientation (visual neglect,
apraxia).
·
Parvocellular
stream: “what stream”
o
X-cells > Layer 3-6 LGB > area 17 (layers IVCb &
IVA) > inferior temporal.
o
Color, shape (faces, etc. visual agnosias,
achromotopsias)
·
Critical
period exists where inputs from both eyes need to form cortical connections. In
amblyopia in kids patch dominant eye intermittently. NMDA receptors mediate
connection forming.
Superior colliculi: lesion gives loss of pursuit
(tracking) eye movement
Blindsight: nonconscious response to visual
stiumli (ie threat) – from noncortical projections, superior colliculus
III
Oculomotor
·
GSE to extraocular mm:
·
Levator palpebrae: Mullers muscle =
sympathetic, less severe ptosis
·
Parasymathetics (GVE): EW to
short ciliary nn. (sympathetic = long & short) to
iris (constriction) and ciliary mm. (accomodation).
·
Accomodation: Ganglion cells(2°) to LGB
to cortex to (directly and indirectly) EW & CN3 (motor) nuclei (not to
pretectal nuclei) to Ciliary muscles (meridional and circular fibers)
o
Causes eyeball to narrow, lens to relax and
become more spherical for accommodation
·
Pupillary light reflex: no LGB.
(1°) bipolar
cells in retina to (2°) ganglion
cells to (3°)
pretectal nuclei to (4°) EW
nuclei (via posterior commisure) to (5°) ciliary ganglion to short ciliary nerves to iris
·
Sympathetics
to pupil: 1° hypothalamus > via hypothalamospinal tract > 2° C8-T3 lateral horn (Ciliospinal center of Budge)
> 3° superior cervical
gangion > around
·
Runs between the
PCA and SCA
IV
Trochlear
·
GSE
·
Superior Oblique > eye down & In; only crossed
n.;
·
Lesion: worst = downgaze to opposite side.
·
Bielschowskys sign: head tilted to opposite
side; eye up & in. Difficulty walking down stairs.
·
V1 = ophthalmic > SOF > nasociliary &
lacrimal nn.
·
V2 = maxillary > inferior orbital fissure or foramen
rotundum.
·
V3
= mandibular > foramen ovale.
·
Motor (SVE): Motor nucleus of V (pons) >
tensor palatini & tympani (hypoacusis), mastication (temporalis,
masseter, pterygoids, anterior belly of digastric, mylohyoid). Weakness causes
deviation of jaw away.
·
Sensation (GSA):
o
V1,2,3 > Trigeminal (aka
Semilunar, Gasserian) ganglion (1°) > spinal tract of CNV > principal sensory nucleus (2°, touch, wide range of pressure, large receptive fields, in
pons) and spinal nuclei of V (2°,
pain/temp, in medulla down to C2).
§
Trigeminal Ganglion is in Meckle’s Cave
o
Mesencephalic
nucleus: proprioception, pressure. Contains 1° neurons (only nucleus
in CNS w/1° sensory
neurons, from neural crest, analogous to sensory ganglia).
·
Tracts:
o
Ventral trigeminothalamic = pain, crossed (from principal sensory &
spinal).
o
Dorsal =
touch, uncrossed (principal sensory only).
o
Both to VPM.
VI
Abducent
·
GSE.
·
Lateral Rectus.
·
Longest CN.
·
Nerve lesion
causes unilateral lateral gaze
paralysis. Nuclear lesion causes
deviation away bilaterally (i.e. of
both eyes), gaze toward lesion is paralyzed (opposite of frontal eye fields)
called “lateral gaze paralysis”
·
PPRF – horizontal gaze center adjacent
to CN6 nucleus.
o
Inputs from cortex (FEFs), cerebellum, SC, &
vestibular nuc.
o
Output to cerebellum, vestibular nuc.,
pretectal region, IN of Cajal & Nuc. of Darkshevich to integrate horizontal
& vertical eye movement
·
Stimulation: rostral = vertical gaze; caudal =
ipsilateral horizontal.
VII Facial
·
Geniculate ganglion: sensory/ taste cell bodies only.
·
Nervus
intermedius carries sensory & parasympathetic fibers.
Parasympathetics (GVE): Input from hypothalamus
& solitary nuc.
1.
Superior salivatory nuc. (1°) > greater
petrosal n. > pterygopalatine gang. (2°) > lacrimal gland
2. Superior salivatory nuc. (1°) >chorda tympani > submandibular gang. (2°) > submandibular, sublingual glands.
·
Lesion distal to
geniculate ganglion has no decreased lacrimation, greater petrosal n. already
off
Motor (SVE): Facial nucleus > staepedius
(hyperacusis), stylohyoid, posterior belly of digastric (anterior from CN5),
facialmm. (part of motor nucleus supplying lower face
receive crossed input only from cortex)
Taste (SVA): Anterior 2/3 tongue. Chorda
tympani > geniculate ganglion (1°) > rostral nucleus solitarius (2°) >
central tegmental tract > VPM thalamus (± parabrachial nuc. of pons) > insular cortex (perception)
(parabrachial > amygdala/ hypothalamus for emotional response)
·
Sweet (sucrose), bitter (alkaloids), & umami
(glutamate) receptors are metabotropic, sour (H+) & salty (Na) are
ionotropic. (Spicy-hot mediated by trigeminal nerve)
·
Receptors may respond to multiple tastes, but usually
1 preferentially.
Sensation: ear (GSA), soft palate (GVA) >
spinal nuc of V