Physio Unit 9

Items that directly increase chemical pain:

Bradykinin, serotonin, histamine, K+, acid, proteolytic enzymes

Which fibers localize a pain stimulus?

Aδ pain fibers (almost all pain travels via anterolateral system) localizes pain with the help of the

dorsal column-medial lemniscal system’s Aβ tactile receptors

Aδ fibers on the anterolateral system synapse in lamina I

Items that enhance sensitivity only to chemical pain only:

Prostaglandins and substance P (P2—That’s the Party Posse!)

Aβ tactile receptors (5)

Meissner’s, Iggo dome (Merkel’s), hair receptors, pacinian, Ruffini’s (PHIRM Aβs)

First synapse of epicritic system

Dorsal/cuneate and gracile nuclei in the lower medulla; followed by decussation

Protopathic / epicritic synonyms

Protopathic = anterolateral system; epicritic = dorsal column-medial lemniscal

Thalamic destinations of somatosensory pathways

Protopathic => ventrobasal and intralaminar nuclei;

epicritic => ventrobasal nucleus ONLY

Additional destinations of anterolateral system

Protopathic => spinoreticular tract & spinomesencephalic tract ( + spinothalamics above)

Anterior/lateral white columns travel by anterior/lateral spinothalamic tracts

Cortical entrance level

Input to cortex: layer IV

Asterogenesis

= inability to judge neither shape nor form (bilateral destruction of somatosensory area 1)

Amorphosynthesis

= inability to recognize complex objects on the opposite side of the lesion

from unilateral destruction of the somatosensory association area

Weber-Fechner principle

Discrimination ability of stimulus strength is proportional to the log of stimulus strength

Purpose of corticofugal signals

MODULATE sensory signals

Decrease signal transmission when input intensity is too great

They travel backwards from cortex to thalamus, medulla, and spinal cord

Amplifying Divergence Example

Characteristic of corticospinal pathway, which controls skeletal muscles

Divergence into multiple tracts

Occurs in information transmitted by dorsal column-medial lemniscal system

Labelled line principle

Only one modality of sensation is transmitted by a nerve fiber

Accommodation of Receptors

Lessening neuronal excitability due to:

Progressive inactivation of sodium channels

Decremental conduction

Decrease in membrane potential as it spreads electrotonically to soma

Strychnine

inhibits action of glycine – therefore strychnine excites neurons

Acidosis / alkalosis effects on CNS

Alkalosis increases excitability => seizures; Acidosis depresses => comas

Neuropeptides versus small-molecule transmiters (ACh, amines, amino acids, NO)

Neuropeptides are produced in the soma and axonally streamed, more potent

Possible Ionophore components (2, exclusive)

Either an ion channel or second messenger activator