lecture14
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ackman678
@@ -95,7 +95,9 @@ pain, temperature, itch | free nerve endings | C (**unmyelinated**) | 0.2–1.5
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<!-- <figure><figcaption class="big">Types of somatosensory afferents linking receptors to the CNS</figcaption><img src="figs/Neuroscience5e-Tab-09.01_copy_653cef2.jpg" height="400px"><figcaption>Neuroscience 5e Table 01</figcaption></figure> -->
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<figure><figcaption class="big">Types of somatosensory afferents linking receptors to the CNS</figcaption><img src="figs/Neuroscience5e-Tab-09.01_copy_653cef2.jpg" height="400px"><figcaption>Neuroscience 5e Table 01</figcaption></figure>
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-->
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Note:
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@@ -334,7 +336,7 @@ pacinian corpuscle
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## Activity patterns in different mechanosensory afferents as Braille is read
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<figure><img src="figs/Neuroscience5e-Fig-09.06-0_aaf10ad.jpg" height="500px"><figcaption>Neuroscience 5e Fig. 9.6</figcaption></figure>
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<figure><img src="figs/Neuroscience5e-Fig-09.06-0_aaf10ad.jpg" height="400px"><figcaption>Neuroscience 5e Fig. 9.6</figcaption></figure>
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@@ -995,8 +997,8 @@ Innervation of same neuron in the dorsal horn of the spinal cord.
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## Pain perception is subjective
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* Rubbing the site of injury can make pain less severe
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* Pain is somewhat subjective. Depends on context. Soldiers wounded in battle feel less pain than if one gets the same injury at home
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* Rubbing the site of injury can make pain less severe. Soldiers wounded in battle feel less pain than if one gets the same injury at home
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* Pain can be subjective. Depends on context.
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* There is a descending pain pathway that can impinge on the dorsal horn to quiet neurons
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@@ -1017,9 +1019,6 @@ Note:
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## Modulation of ascending pain signal transmission
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1. Axons from neurons with mechanoreceptors can synapse onto inhibitory interneurons in spine to dampen pain response
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2. Descending pathways from the brainstem can dampen pain response
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<div><img src="figs/Neuroscience5e-Fig-10.08-1R_09cfa4c.jpg" height="300px"><figcaption>Neuroscience 5e Fig. 10.8</figcaption></div>
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@@ -1027,7 +1026,7 @@ Note:
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enkephalins, endorphins, dynorphins— present in the periacq. gray matter, ventral medulla, and in spinal cord regions in dorsal horn.
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Also CB1 and endocannabinoids work similiarly here in the dorsal horn.
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Also CB1 and endocannabinoids work similiarly here in the dorsal horn. CB1 on presynaptic terminals of dorsal horn nociceptive terminals can be activated by endocannabinoid release in a retrograde fashion and decrease the release of neurotransmitters such as GABA and glutamate. *Interestingly, the analgesic effecs of PAG stimulation is blocked if CB1 antagonists are administered* highlighting the importance of endocannabinoids in descending control of pain transmission.
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