6
Somatosensitivity, viscerosensititvity,
proprioception and pain II
Somatosensitivity, viscerosensititvity, proprioception and pain II2
Viscerosensitivity
Somatosensitivity, viscerosensititvity, proprioception and pain II3
• An information from visceral and cardiovascular system
• Linked to the autonomic nervous system
• The most of information does not reach higher structures
than hypothalamus
• The most of information does not reach consciousness
Viscerosensitivity
Somatosensitivity, viscerosensititvity, proprioception and pain II4
• An information from visceral and cardiovascular system
• Linked to the autonomic nervous system
• The most of information does not reach higher structures
than hypothalamus
• The most of information does not reach consciousness
Proprioception
Somatosensitivity, viscerosensititvity, proprioception and pain II5
• Information from muscles, tendons and joints
• Important for precise coordination of movements
• Overload protection
• More will be discused in lecture about motor system
Somatosensory pathways
Somatosensitivity, viscerosensititvity, proprioception and pain II6
• Three systems
• (Archispinothalamic)
– Interconnection of adjacent segments (tr. Spinospinalis)
• Paleospinothalamic
– tr. Spinoreticularis, tr. Spinotectalis…
• Neospinothalamic
– tr. Spinothalamicus
• Dorsal column system
– tr. Spinobulbaris
Somatosensory pathways
Somatosensitivity, viscerosensititvity, proprioception and pain II7
• Three systems
• (Archispinothalamic)
– Interconnection of adjacent segments (tr. Spinospinalis)
• Paleospinothalamic
– tr. Spinoreticularis, tr. Spinotectalis…
• Neospinothalamic
– tr. Spinothalamicus
• Dorsal column system
– tr. Spinobulbaris
Somatosensory pathways
Somatosensitivity, viscerosensititvity, proprioception and pain II8
• Paleospinothalamic
– Low resolution – dull, diffuse pain („slow pain“)
• Neospinothalamic
– High resolution – sharp, localized pain („fast pain“), temperature
– Low resolution – touch
• Dorsal column system
– High resolution – fine touch
Somatosensory pathways
Somatosensitivity, viscerosensititvity, proprioception and pain II9
• Paleospinothalamic
– Low resolution – dull, diffuse pain („slow pain“)
• Neospinothalamic
– High resolution – sharp, localized pain („fast pain“), temperature
– Low resolution – touch
• Dorsal column system
– High resolution – fine touch
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II10
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II11
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II12
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II13
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II14
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II15
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Paleospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II16
• Tr. Spinoreticularis, spinotectalis…
• Evolved before neocortex
• The primary connection to the subcortical structures
• Basic defensive reactions and reflexes - vegetative response,
reflex locomotion - opto-acoustic reflexes etc.
• Secondarily connected to cortex (after its evolution; tr. Spinoreticulo-thalamicus),
but this system has a small resolutions –
dull diffuse pain
• This tract is not designed for „such a powerful processor as
neocortex“
• Approximately half of the fibers cross the midline
Somatosensitivity, viscerosensititvity, proprioception and pain II17
http://neuroscience.uth.tmc.edu
Paleospinothalamic
system
Neospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II18
• Tr. Spinothalamicus
• Younger structure primarily connected to neocortex
• „High capacity/resolution“
• Detail information about pain stimuli (sharp, localized pain)
• Information about temperature
• Crude touch sensation
• The fibers cross midline at the level of entry segment
Neospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II19
• Tr. Spinothalamicus
• Younger structure primarily connected to neocortex
• „High capacity/resolution“
• Detail information about pain stimuli (sharp, localized pain)
• Information about temperature
• Crude touch sensation
• The fibers cross midline at the level of entry segment
Neospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II20
• Tr. Spinothalamicus
• Younger structure primarily connected to neocortex
• „High capacity/resolution“
• Detail information about pain stimuli (sharp, localized pain)
• Information about temperature
• Crude touch sensation
• The fibers cross midline at the level of entry segment
Neospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II21
• Tr. Spinothalamicus
• Younger structure primarily connected to neocortex
• „High capacity/resolution“
• Detail information about pain stimuli (sharp, localized pain)
• Information about temperature
• Crude touch sensation
• The fibers cross midline at the level of entry segment
Neospinothalamic system
Somatosensitivity, viscerosensititvity, proprioception and pain II22
• Tr. Spinothalamicus
• Younger structure primarily connected to neocortex
• „High capacity/resolution“
• Detail information about pain stimuli (sharp, localized pain)
• Information about temperature
• Crude touch sensation
• The fibers cross midline at the level of entry segment
Neospinothalamic
system
Somatosensitivity, viscerosensititvity, proprioception and pain II23
http://neuroscience.uth.tmc.edu
Dorsal column system
Somatosensitivity, viscerosensititvity, proprioception and pain II24
• Tr. Spinobulbaris
• The youngest system
• High capacity
• Tactile sensation
• Vibration
• Proprioception
• Fine motor control
• Better object recognition
• Adaptive value
• The fibers cross midline at the level of medulla oblongata
Dorsal column system
Somatosensitivity, viscerosensititvity, proprioception and pain II25
• Tr. Spinobulbaris
• The youngest system
• High capacity
• Tactile sensation
• Vibration
• Proprioception
• Fine motor control
• Better object recognition
• Adaptive value
• The fibers cross midline at the level of medulla oblongata
Dorsal column system
Somatosensitivity, viscerosensititvity, proprioception and pain II26
• Tr. Spinobulbaris
• The youngest system
• High capacity
• Tactile sensation
• Vibration
• Fine motor control
• Better object recognition
• Adaptive value
• The fibers cross midline at the level of medulla oblongata
Dorsal column system
Somatosensitivity, viscerosensititvity, proprioception and pain II27
• Tr. Spinobulbaris
• The youngest system
• High capacity
• Tactile sensation
• Vibration
• Fine motor control
• Better object recognition
• Adaptive value
• The fibers cross midline at the level of medulla oblongata
Dorsal column system
Somatosensitivity, viscerosensititvity, proprioception and pain II28
• Tr. Spinobulbaris
• The youngest system
• High capacity
• Tactile sensation
• Vibration
• Fine motor control
• Better object recognition
• Adaptive value
• The fibers cross midline at the level of medulla oblongata
Dorsal column
system
Somatosensitivity, viscerosensititvity, proprioception and pain II29
http://neuroscience.uth.tmc.edu
Dermatoms
Somatosensitivity, viscerosensititvity, proprioception and pain II30
http://www.slideshare.net/drpsdeb/presentations
http://www.slideshare.net/CsillaEgri/presentations
• Somatotopic organization
somatosensitve nerves
Dermatoms
Somatosensitivity, viscerosensititvity, proprioception and pain II31
http://www.slideshare.net/drpsdeb/presentations
http://www.slideshare.net/CsillaEgri/presentations
• Somatotopic organization
somatosensitve nerves
Trigeminal system
Somatosensitivity, viscerosensititvity, proprioception and pain II32
• Spinal TS
– Pain, temperature
• Main sensory TS
– Touch, proprioception
http://www.slideshare.net/drpsdeb/presentations
Somatosensory pathways
Somatosensitivity, viscerosensititvity, proprioception and pain II33
http://neuroscience.uth.tmc.edu/s2/chapter02.html
Tr. spinobulbaris
http://neuroscience.uth.tmc.edu
Trigeminal system
Somatosensitivity, viscerosensititvity, proprioception and pain II34
• Spinal TS
– Pain, temperature
• Main sensory TS
– Touch, proprioception
Thalamus and neocortex
Somatosensitivity, viscerosensititvity, proprioception and pain II35
• Almost all the afferent
information gated in the
thalamus
• Olfaction is an exception
• Bilateral connections
between neocortex and
thalamus
http://www.slideshare.net/drpsdeb/presentations
Neocortex
Somatosensitivity, viscerosensititvity, proprioception and pain II36
• Somatotopic
organization
• Cortical
magnification
http://www.shadmehrlab.org/Courses/physfound_files/wang_5.pdfhttp://www.slideshare.net/drpsdeb/presentations
Pain
Somatosensitivity, viscerosensititvity, proprioception and pain II37
• Distressing feeling associated with real or
potential tissue damage
• Sensor x psychological component
• Physiological pain (nociceptor activation)
• Pathological pain (not mediated by nociceptors)
• Acute (up to 6months) – „activiting“
• Chronic (more than 6 months) – „devating“
https://www.cheatography.com/uploads/davidpol_1460561912_Pain_Scale__Arvin61r58.png
Pain and limbic system
Somatosensitivity, viscerosensititvity, proprioception and pain II38
Navratilova E, Porreca F.
Reward and motivation
in pain and pain relief.
Nat Neurosci.
2014;17:1304–1312.
NAc – nucleus accumbens
ACC – ant. Cingulate cortex.
RVM – rostral ventromedial
medulla
Descendent pathways
modulating pain
Somatosensitivity, viscerosensititvity, proprioception and pain II39
• Somatosemcoric cortex
• Hypotalamus
• Periaquaeductal gray
• Nuclei raphe
http://www.slideshare.net/drpsdeb/presentations
Pain modulation on the spinal level
Somatosensitivity, viscerosensititvity, proprioception and pain II40
Gate control theory of pain
https://en.wikipedia.org/wiki/Gate_control_theory
Referred pain
Somatosensitivity, viscerosensititvity, proprioception and pain II41
http://www.slideshare.net/drpsdeb/presentations
Phantom limb pain
Somatosensitivity, viscerosensititvity, proprioception and pain II42
http://www.slideshare.net/drpsdeb/presentations
73. Basic functional comparison of somatosensitivity,
viscerosensitivity and proprioception, the importance of
sensitivity for immediate and long-term survival
Somatosensitivity, viscerosensititvity, proprioception and pain II43
✓ Somatosensitivty vs. viscerosensitivty vs. proprioception
• Definition, fuctional comparison
✓ Somatosensory pathways (three systems)
• Function/resolution
• Importance for survival (i.e. pain for immediate, proprioceptirn for better adaptation)
✓ Optionaly brief overview of proprioception
• Muscle spindles vs. Golgi tendon organs (Motor system I)
74. Pain
Somatosensitivity, viscerosensititvity, proprioception and pain II44
✓ Definition of pain
✓ Classification of pain (physiological, pathological, acute, chronic)
✓ Somatosensory pathways involved in pain perception
• Fast vs. slow pain
✓ Pain modulation
• Overview of structures involved in pain modulation
• Gate control theory
✓ Referred pain vs. phantom limb pain