Thalamus I

Question 1

Charles S. Sherrington’s theory

Answer 1

–The nervous system is organized as a set of complex neuronal connectivity pathways triggered into action by the outside world

–Behavior is the result of sensory input

Question 2

T. Graham Brown’s theory

Answer 2

–Function is mostly organized as intrinsically generated activity

–Sensory inputs are mostly modifiers of intrinsic activity

NOTE: Brown believed that behavior is not dictating sensory input but in fact it simply modifies it.

Question 3

Rodolfo Llinás’s theory

Answer 3

–Proposes consciousness is a case of intrinsic activity modulated by the senses

–Functional significance of the electrophysiological properties of thalamic neurons and their connectivity with the cortex

Question 4

The thalamus is an important processing station in the brain in all pathways, except __________.

Answer 4

olfaction

Question 5

We have _________ that connect one cortical area to the next through the gyri.

Answer 5

U-fibers

*The thalamus is also used

Question 6

The thalamus is apart of what part of the brain?

Answer 6

Diencephalon

Question 7

There are 4 components to the thalamus. Which component is related to the basal ganglia and has limbic, motor and association areas?

Answer 7

Subthalamus (Ventral Thalamus)

*The ventral medial striatum (part of the basal ganglia) is limbic related; it’s involved in the reward pathway

Question 8

This is the the visceral/autonomic portion of the diencephalon.

Answer 8

Hypothalamus

Question 9

Which part of the thalamus receives limbic and amygdala input and projects to insula and ventral striatum and plays a regulatory role in autonomic functions especially responses to stress.

Answer 9

Epithalamus

Question 10

____________ produces melatonin and is associated with biological rhythms based on light/dark cycles.

Answer 10

Pineal gland

Question 11

What is the habenular complex?

Answer 11

Involved in sleep, nocioception, sensitization to drugs, motor exploration, hoarding behaviour.

• Lateral habenula is involved with stress responses, maternal behaviour, male social behaviour, reward, and estrogen dependent reproductive behaviour in females.

Question 12

–All sensory projections are first processed through the thalamus except the ___________.

Answer 12

olfaction

Question 13

Thalamocortical fibers projects to layer _______ and are ___________ (excitatory/inhibitory).

Answer 13

IV; Excitatory

*Thalamocortical fibers are glutamatergic

Question 14

Corticothalamic fibers originates from layer _______ and are ___________ (excitatory/inhibitory).

Answer 14

VI; Excitatory

Question 15

Visual input from the optic tract is processed by the __________ nucleus of the thalamus, auditory input in the __________nucleus, and somatosensory input in the _________ nucleus of the thalamus.

Answer 15

lateral geniculate; medial geniculate; ventral posterior

Question 16

What role does the thalamus play in neurodevelopment?

Answer 16

• During development these neurons that help drive cortical development-they’re glutaminergic neurons that express a different neurotransmitter: serotonin, which is used as a trophic factor that will guide the thalamocortical projections during development, which are going up to the cortex, which hasn’t been generated yet.
• Cortical neurons are generated in the sub-ventricular zone and are guided up to the cortex to their final resting spot through the radioglial cells. Before they get to their final resting spot, these cortical neurons are going to the go into an area right below the cortex called the sub-plate zone. The subplate zone is also where the thalamocortical projects are hanging out, waiting for the cortical neurons to reach their final destination.

Question 17

The __________ and _________ zones are the earliest sites of synaptogenesis in the developing cortex.

Answer 17

marginal; subplate

–These synapses are transient and disappear when afferents move to the cortex

–The ECM contains permissive, attractive or repellent guidance cues for growing axons

–Mediates cellular interactions required for cortical development

Question 18

The superior thalamus is grooved by the ___________, lateral to which the thalamus forms part of the lateral ventricle.

Answer 18

fornix

Question 19

____________divides the thalamus into the medial dorsal, anterior, and lateral cell groups

Answer 19

Internal medullary lamina

*The lateral group comprises both and anterior and posterior tiers

Question 20

Right and left thalamus are connected by the __________.

Answer 20

Interthalamic adhesion/massa intermedia

–Transverses the 3rd ventricle

–Not considered a commisure since there is a lack of decussating fibers

–Function is currently unknown

Question 21

______________separates the thalamus from the reticular nucleus

Answer 21

External medullary lamina

Question 22

This is the only thamalic nucleus that does not project to the cortex.

Answer 22

Reticular nucleus

Question 23

GABAergic cells of the thalamic reticular nucleus are innervated by collateral branches of_____________ and ____________ as they transverse.

Answer 23

thalamocortical relay cells (TCR); corticothalmic fibers

*The reticular nucleus receives bi-directional input

Question 24

The reticular nucleus is over 90% made up of _____________ neurons, which are inhibitory.

Answer 24

GABAergnic

Question 25

Does the reticular nucleus project to the cortex?

Answer 25

The reticular nuclei does not project to the cortex, but it will modify/ attenuate signals going to and from the thalamus to the cortex. They won’t cut off the signals completely, they’ll just tone it down. It will also send direct projections to the thalamus, but NOT THE CORTEX.

Question 26

Reticular neurons project back to the relay neuron to form an ____________connection to the relay cells.

Answer 26

inhibitory feedback

Question 27

Inputs from the periphery or intrinsic brain structures excite relay neurons, which as it transverses to the cortex excites ____________.

Answer 27

reticular neurons

Question 28

Fibers returning to the thalamus from the cortex (to which the particular dorsal thalamus just excited) excite reticular neurons in the same sector and the reticular projection to the dorsal thalamus is part of an ____________ connection.

Answer 28

inhibitory feedforward

Question 29

So all the fibers that go through the reticular fibers that go through the reticular fibers will activate a GABAergic component. It can be either ________ or ___________, coming down from the cortex

Answer 29

feedback or feedforward

Question 30

Reticular Neuron Synapses

Answer 30

• 70% arise from corticothalamic projections
• 20-25% arise from thalamocortical collateral synapses
• The rest seem to be GABAergic possibly from other reticular neurons

Question 31

The cortex has the potential to exert _________, __________ effect on the thalamus

Answer 31

disynaptic, inhibitory

Question 32

Thalamic projecting neurons have two physiological states: ___________ and __________.

Answer 32

Tonic and burst mode

Question 33

What are the major characteristics of tonic mode?

Answer 33

• Tonic reflects what goes in and comes out, linearly
• Because tonic neurons are always firing, this allows us to maintain the linearity
• Will have a lower signal: noise ratio. This is what will allow for more detectability during tonic firing than during burst firing
• Tonic firing will minimize non-linear distortions. This works to make a more accurate representation of the world

Question 34

Tonic= ______ state

Burst=_____ state

Answer 34

Alert

Sleep

Question 35

During tonic firing action potentials in the relay are linked ___________ (directly/indirect) to an EPSP.

Answer 35

Directly

Question 36

Link between EPSP and burst firing is ________ via the all or none low-threshold spike.

Answer 36

indirect

Question 37

What is required for activation of the burst mode?

Answer 37

Burst mode is a true intrinsic activation mode that can only be evoked by a period of sustained hyperpolarization that results in a well-defined cyclical activation pattern that are maintained for as long as the cells remain hyperpolarized.

Question 38

Burst will maximize the _________ stimulus detection. It functions as sort of a “wake up call”.

Answer 38

initial

Question 39

Oscillations in the 40Hz range are synchronized between a cortical area and its thalamic relay by ___________

Answer 39

corticothalamic projections

Question 40

How do you synchronize specific thalamic relay with widespread cortical activation?

Answer 40

Rodalfo’s thought behind this is that the interlaminar nuclei groups- since they are widespread, they bind to different parts of the cortex together. There’s a 40 Hz oscillation through the cortex that match up with these non-specific nuclei. When two parts of the cortex are oscillating at the same time, they are bound together through the thalamus

Question 41

Ted Jones’ theory

Answer 41

•Ted Jones- his thought is we have these input/outputs, we have the thalamus projecting to layer 4, and the cortex in layer 6 projecting back to the thalamus. What about layer 5 projections. In Jones’ model, he looks at 2 separate corticothalamicocortical pathways.

• One is: Layer 6 to the thalamus, back up to layer 4 (specific)
• The other is higher functioning thalamus- which is layer 5 cortical to thalamus (which could be associative, or to other thalamic nuclei), then back up to the cortex
• So we have two different pathways that could account for binding cortical regions together.
• Both models help bind together different cortical regions in the layer 5 cortical pathway, which allows for cortical-cortical communication, not just through the association fibers from one gyrus to the next, but from cortex to thalamus, to different parts of the cortex. That’s layer 5 connection pattern.

Question 42

Neurotransmitters in the thalamus

Answer 42

• Glutamate (AMPA receptor)
• GABA (y-aminobutyric acid) GABA (A or B receptor)
• Acetylcholine (nicotine or muscarinic receptor)
• Noradreneline
• Serotonin
• Histamine

Question 43

The ___________ supplies blood to the thalamus

Answer 43

Posterior Cerebral artery

Question 44

What are the branches of the posterior cerebral artery?

Answer 44

–Polar artery

–Paramedian artery

–Inferolateral (thalamogeniculate)

–Posterior (medial and lateral) choroidal artery

Question 45

What are the basic functions of the thalamus?

Answer 45

• Sensory integration and relay
• Motor integration and relay
• Awareness of nociceptive stimuli
• Emotional and subjective response to sensation
• Memory and instinctive behaviour
• Activation and arousal

Question 46

What are the four thalamic peduncles and what the final destinations for each?

Answer 46

Anterior thalamic peduncle

• Destination: prefrontal cortex and cingulate cortex

Superior thalamic peduncle

• Destination: premotor, motor, and somatic sensory cortices

Posterior thalamic peduncle

• Destination: occipital lobe and posterior parts of the parietal and temporal lobes

Inferior thalamic peduncle

• Destination: anterior temporal and orbital cortices

Question 47

Anterior thalamic peduncle pathway

Answer 47

Anterior limb (of internal capsule)-> Prefrontal cortex and cingulate cortex

Question 48

Superior thalamic peduncle pathway

Answer 48

Posterior limb (of the internal capsule)-> premotor, motor, and somatic sensory cortices

Question 49

Posterior thalamic peduncle pathway

Answer 49

Retrolentiform (of internal capsule)-> occipital lobe and posterior parts of the parietal and temporal lobes

Question 50

Inferior thalamic peduncle pathway

Answer 50

Lentiform nucleus-> anterior temporal and orbital cortices

Question 51

What are the three nuclear divisions of the thalamus?

Answer 51

• Specific or Relay nuclei

–Reciprocally connected to specific motor or sensory areas of the cerebral cortex

• Association nuclei

–Reciprocally connected to the association areas of the cortex

• Non-specific nuclei

Not specific to any one sensory modality

Question 52

What are the specific nuclei of thalamus?

Answer 52

Motor-Related Nuclei

Ventral lateral (VL)- anterior

Ventral lateral (VL)- posterior

Ventral Intermedial (VI)

Ventral Anterior (VA)

Autonomic- & Limbic-Related Nuclei

Lateral nuclei

• Lateral dorsal
• Lateral posterior

Mediodorsal

Anterior nuclei

• Anterodorsal
• Anterventral
• Anteromedial

Question 53

What are the afferent and efferents of the Ventral lateral (VL)- anterior nuclei of the thalamus?

Answer 53

• Afferents: globus pallidus ( of the basal ganglia)
• Efferents: supplementary motor area

Question 54

What are the afferents and efferents of the ventral lateral (VL)- posterior nuclei of the thalamus?

Answer 54

• Afferents: cerebellum
• Efferents: motor cortex

Question 55

What are the afferents and efferents of the Ventral Intermedial (VI) nuclei of the thalamus?

Answer 55

• Afferents: cerebellum
• Efferents: motor cortex

Question 56

What are the afferents and efferent of the ventral anterior nuclei of the thalamus?

Answer 56

• Afferents: globus pallidus
• Efferents: prefrontal cortex

Question 57

The lateral posterior nuclei of the thalamus has reciprocal connections with the____________

Answer 57

cingulate cortex

Question 58

What are the functions of the mediodorsal nuclei of the thalamus?

Answer 58

• Amygdala via the stria terminalis and the olfactory cortex
• Serves as the major thalamic relay for information traveling to the frontal association cortex
• higher order thalamic relay of the PFC (prefrontal cortex)

Question 59

The anteromedial nuclei of the thalamus has reciprocal connections with the __________ and ___________.

Answer 59

mammillary bodies and cingulate gyrus.

Question 60

What is the major function of the anterior nuclei of the thalamus?

Answer 60

Encoding memory and sustained attention (limbic)

Question 61

What are the association nuclei of the thalamus?

Answer 61

Pulvinar and lateral posterior (LP)

•Lateral Posterior nucleus continuous with the pulvinar: both nuclei have some what similar connections, so the two together are sometimes referred to as the pulvinar-LP complex

• Largest thalamic nucleus
• Majority of the pulvinar is involved in vision
• The pulvinar is extensively and reciprocally connected with much of the cerebral cortex, especially visual and oculomotor areas
• Role in attention

*The pulvinar nucleus is association but has specific function as well.

Question 62

The pulvinar is extensively and reciprocally connected with much of the ______________, especially visual and oculomotor areas

Answer 62

cerebral cortex

*The pulvinar is sometimes classified as nonspecific thalamic relay nuclei because of its diffuse projections to the parietal, temporal, and occipital association cortex. It is involved in behavioural orientation toward relevant stimuli. We will see in the next lecture that the pulvinar is probably best described as higher-order.

Question 63

____________ nuclei send diffuse connections to widespread regions of the cerebral cortex and to other thalamic nuclei. These take center stage in Llinas’ theory of consciousness.

Answer 63

Nonspecific thalamic

Question 64

Nonspecific Thalamic Nuclei

Answer 64

Intralaminar nuclei

• Central lateral
• Paracentral
• Central medial
• Centre median

(centromedian)

• Parafascicular

Midline nuclei

• Paratenial
• Paraventricular
• Rhomboid
• Reunions

Question 65

What are the causes of damage to VPL or VPM?

Answer 65

–Cause numbness on the contralateral body and face

–Deficit may be more noticeable in the face, hand, and foot than in the trunk or proximal extremities

–Larger lesions may be accompanied by hemiparesis or hemiaopia which would suggest the involvement of the internal capsule, LGN or optic radiations

–Affected individuals may become hypersensitive to painful stimuli

Question 66

•Medial superior olive (MSO)

–Computes the___________of sound by interaural time differences

•Lateral superior olive (LSO) and medial nucleus of the trapezoid body (MNTB)

–Computes ___________ of a sound source through interaural intensity differences

•Nuclei of the lateral lemniscus

–Contralateral side responds to sound arriving at one ear only-monaural

–Signal _________of sound regardless of intensity or frequency

–Process aspects of sound such as ________

Answer 66

location

position

onset ;duration

Question 67

What is the midbrain auditory center?

Answer 67

Inferior Colliculus

–receives ascending auditory pathways via the olivary and lemniscal complexes and others that arise directly from cochlear nucleus

–Processes sounds with complex temporal patterns

Question 68

____________ is the obligatory relay for all ascending auditory information destined for the cortex.

Answer 68

Medial geniculate

Question 69

Retinogeniculostriate pathway

Answer 69

LGN sends axons to the cortex via the optic radiation of the internal capsule

Question 70

____________ information (of the optic nerve) decussates at the optic chiasm

Answer 70

Nasal

Question 71

The lateral geniculate nucleus has 6 layers. Which cells make up each layer?

Answer 71

• Magnocellular-motion and spatial analysis (layers 1 & 2)
• Parvocellular-detailed form and color (layers 3-6)
• Koniocellular- in between each of magnocellular and parvocellular layers

Question 72

What are the characteristics of each layer of the LGN?

Answer 72

• Layer 1 and 2= big neurons
  
  • Layer one receives visual input from contralateral eye
  • Layer two receives visual input from ipsilateral eye
  • Magnocellular
• Layer 3-6= small neurons
  
  • Layers 3 and 5 are the ipsilateral eye
  • Layers 4 and 6 is from the contralateral eye
  • Parvocellular

Question 73

Of the LGN, __________ will project to the dorsal stream of the visual system that will tell you your motion; what’s happening, where the object is moving to and from. ___________ is associated with projecting to the ventral stream, which is what’s the object, how big is, what’s the shape.

Answer 73

Magnocellular; Parvocellular

Question 74

What would happen if you have a disorder where your magnocellular neurons are smaller? What kind of deficit would you have?

Answer 74

•A deficit in motion

• This is seen in fetal alcohol syndrome. When a mom drinks during pregnancy, the magnocellular becomes smaller. The ability for that child to process motion is going to be decreased

Question 75

What are the characterstics of the magnocellular pathway?

Answer 75

–Layers 1 and 2

–Terminates 4Cα

–Larger receptive fields than Parvocellular

–Respond transiently to the presentation of stimuli

–motion

Question 76

What are the characteristics of the parvocellular pathway?

Answer 76

–Layers 3-6

–Terminates in 4Cβ

–Respond to sustained fashion, transmit information about color

–Detailed analysis of shape, size and color-high spatial resolution

Question 77

What are the characteristics of the koniocellular pathway?

Answer 77

• Interlaminar zones
• Terminates in patchy pattern in layers 2 and 3
• Some aspects of color vision