Week 3 Objective 2: contrast stimuli touch, temp, nociceptive receptors: trace sensory pathways from point of origin to the sensory cortex Flashcards
First order neurons
primary neurons
come from peripheries
cell body in the dorsal root ganglia
enter spine through dorsal roots
synapse in spinal cord with secondary neuron
Second order neuron
originate in spinal cord gray matter
travels through spinal cord in one of the myelinated columns
decussates
synapses in the thalamus with tertiary neurons
Tertiary neurons
travel through internal capsule (myelinated pathway between thalamus and some basal nuclei)
synapses in the seomatosensory cortex
Two point discrimination touch
travels in dorsal column medial lemniscal pathway
refers to ability to distinguish two separate points as close as 2 millimeters apart
Lateral inhibition is important in two point discrimination how
blocks lateral spread of excitatory signals, thereby increasing degree of contrast in the cerebral cortex
lateral inhibition occurs at each synaptic level:
dorsal column nuclei
ventrobasal nuclei of thalamus
somatosensory cortex
Where does lateral inhibition occur?
- dorsal column nuceli
- ventrobasal nuclei of thalamus
- somatosensory cortex
Signals from the lower limb would travel in what area of the spinal cord?
dorsal, most medial (gracilis)
dorsal column medial lemniscal pathway
Signals from the upper limbs would travel in what area of the spinal cord?
dorsal, lateral (cuneatus)
dorsal column medial lemniscal pathway
Axons in the fasciculus gracilis synapse where?
in the lower medullar in the nucleus gracilis
Axons in the fasciculus cuneatus synapse where?
in the lower medulla in the nucleus cuneatus
Dorsal column medial lemniscus travel how?
travel through the brain stem as paired tracts referred to as the medial lemniscus
Secondary neurons synapse where?
in the basolateral nucleus of the thalamus with tertiary neurons
tertiary neurons travel…
through the internal capsule to the somatosensory cortex
Where do secondary neurons decussate in the medial lemniscus pathway?
in the nucleus gracilis or nucleus cuneatus of the medulla
Pain Pathways: Receptor type, trait, and characteristics of “fast pain”
nociceptors, free endings
.1 second not felt in "deep" tissues mechanical and thermal carried by A-sigma fibers typically terminate in lamina I (lamina marginalis) of the dorsal horns of the spinal cord
Pain Pathways: Receptor type, trait, and characteristics of “fast pain”
Use C type fibers
described as “throbbing” “aching” “burnings” chronic, nauseous
1 sec or more
mechanical, thermal, chemical stimuli
terminates in layers ii and iii, substantia gelatinosa
What pathway does pain travel in?
anterolateral pathways
Primary pain fibers synapse….
in the dorsal horn of the spinal cord, layers I, II, III with the secondary fibers
Secondary fibers: when do they decussate?
immediate, and THEN make up the anterolateral pathway
fast pain fibers make up the ___________ tracts
what kind of neurotransmitter does it use?
neospinothalamic tracts, and synapse terminate in the ventrobasal nuclei of the thalamus
delta fibers, they use glutamate
slow pain fibers make up the ______ tracts
paleospinothalamic pathway
most of the paleospinothalamic fibers end
what kind of neurotransmitter does it use?
most of them terminate in the brain stem, a few go to the thalamus
glutamate and substance “P”
glutamate is instantaneous; P is released more slowly
Ventrobasal nuclei of the Thalamus vs throughout brain stem
which of those is the synapsing description of secondary paleospinothalamic pain fibers and which is secondary neospinothalamic pain fibers
neo - ventrospinothalamic
paleo - throughout brain stem
Brown Sequard Syndrome
results when there is a hemisection of the spinal cord
results in loss of motor functions in all segments below the level off the transection
sensations of pain, heat, and cold (spinothalamic pw) are lost on the opposite side of the body in dermatomes TWO TO SIX SEGMENTS BELOW THE LEVELS OF THE TRANSECTION
kinetesthetic sensations such as body position, vibrations, two pt discrimination, are lost on the same side of the body as the transection
Analgesia system
consists of paraaquaductal gray and paraventricular regions of brainstem, 3rd ventricle
the two associated nuclei in the analgesia system consist of
the ralph magnus nucleus and the reticular nuclei in medulla
pain inhibitory complex in dorsal horns of spinal cord
Thermal sensations
“kinds”
fibers involved
Cold, warm, and pain
Warmth: c type fibers, free nerve endings
Cold: more numerous than warmth, type A delta myelinated endings
Cold/warm receptors: thought to be stimulated by changes in metabolic rates.
Thermal pathways are parallel to those for pain signals
Referred Pain: when it occurs, fibers that carry it, and traits
occurs when visceral pain fibers are stimulated and stimulate pain fibers
carried by C type fibers
diffuse, rather than localized
can result from ischemia
