3. Types of pain receptorsTypes of pain receptors
11--MechanicalMechanical
22--ThermalThermal
33--ChemicalChemical
They do not obey muller's lawThey do not obey muller's law
Adapt very little and sometimes not at allAdapt very little and sometimes not at all
To remove damaging stimuliTo remove damaging stimuli
4.
5.
6.
7. Mechanism of stimulation of pain receptorsMechanism of stimulation of pain receptors::
Noxious mechanical , chemical & thermalNoxious mechanical , chemical & thermal
stimuli cause tissue damage , leading to releasestimuli cause tissue damage , leading to release
pain producing substance as histamine ,pain producing substance as histamine ,
bradykinin and substance pbradykinin and substance p
N.BN.B::
Prostaglandins released from tissue damage ,Prostaglandins released from tissue damage ,
facilitate pain receptors but not stimulate itfacilitate pain receptors but not stimulate it
10. According to originAccording to origin
A- Cutaneous painA- Cutaneous pain::
--from skinfrom skin
B- Deep painB- Deep pain::
--fracture of bonefracture of bone,,
however it is insensitivehowever it is insensitive
to pain , periosteum isto pain , periosteum is
richly supplied by painrichly supplied by pain
receptorsreceptors
11. --muscle ischemiamuscle ischemia , due to accumulation of, due to accumulation of
metabolitesmetabolites
--muscle spasmmuscle spasm , as in tetany or losing a lot of salt, as in tetany or losing a lot of salt
in sweatingin sweating
12. C- Visceral painC- Visceral pain::
--severe distention of urinary bladdersevere distention of urinary bladder
--compression on viscera by tumorscompression on viscera by tumors
--chemical irritation as in perforated peptic ulcerchemical irritation as in perforated peptic ulcer
--ischemia to cardiac muscleischemia to cardiac muscle
N.BN.B::
Brain , liver & alveoli of lung are insensitive to painBrain , liver & alveoli of lung are insensitive to pain
but liver capsule and pleura are sensitive to painbut liver capsule and pleura are sensitive to pain
14. According to quality of painAccording to quality of pain
11--Fast painFast pain
From skin onlyFrom skin only
Acute , sharp and immediate painAcute , sharp and immediate pain
Felt within .1 sFelt within .1 s
Well localizedWell localized
Carried by a delta myelinated afferent fibers which canCarried by a delta myelinated afferent fibers which can
be blocked by compression or hypoxiabe blocked by compression or hypoxia
Transmitted in neo-spinothalamic tractTransmitted in neo-spinothalamic tract
Pass directly to PLVNTPass directly to PLVNT
Pass to somatic sensory area of cerebral cortexPass to somatic sensory area of cerebral cortex
15. 22--Slow painSlow pain::
From skin , deep tissue & visceraFrom skin , deep tissue & viscera
Chronic , dull aching or throbbing painChronic , dull aching or throbbing pain
Felt after 1s or moreFelt after 1s or more
Poorly localized carried by unmyelinated c fibersPoorly localized carried by unmyelinated c fibers
Transmitted in paleo-spinothalamic tractTransmitted in paleo-spinothalamic tract
Pass first to reticular formation , then to non-Pass first to reticular formation , then to non-
specific nuclei of thalamusspecific nuclei of thalamus
Pass to whole cerebral cortexPass to whole cerebral cortex
16. Reaction to painReaction to pain
11--Reactions to cutaneous painReactions to cutaneous pain::
a-a- somatic reactionsomatic reaction::
Withdrawal reflex (injurious stimuli to limb ,Withdrawal reflex (injurious stimuli to limb ,
leads to withdrawal of this limb away fromleads to withdrawal of this limb away from
injuryinjury
b-b- autonomic reactionautonomic reaction::
Moderate pain causes sympathetic stimulationModerate pain causes sympathetic stimulation
( increase heart rate and ABP )( increase heart rate and ABP )
17. Severe pain causes parasympathetic stimulation (Severe pain causes parasympathetic stimulation (
decreased heart rate and ABP )decreased heart rate and ABP )
C-C- emotional reactionemotional reaction : crying and anxiety: crying and anxiety
D-D- not referred to other areasnot referred to other areas
18. 22--Reactions to deep & visceral painReactions to deep & visceral pain::
A-A- somatic reacrionsomatic reacrion : muscle rigidity over painful: muscle rigidity over painful
areaarea
B-B- autonomic reactionautonomic reaction : parasympathetic: parasympathetic
stimulation ( decreased heart rate , ABP ,stimulation ( decreased heart rate , ABP ,
sweating & lacrimationsweating & lacrimation
C-C- emotional reactionemotional reaction : crying & anxiety: crying & anxiety
D-D- may be referred to other areamay be referred to other area
19. Referred painReferred pain
-- Pain is felt away its original sitePain is felt away its original site
Structure in which pain originate and structureStructure in which pain originate and structure
to which pain referred are developed from sameto which pain referred are developed from same
embryonic segment and migration occurredembryonic segment and migration occurred
20. Mechanism of referred painMechanism of referred pain::
11--dorsal root branching mechanismdorsal root branching mechanism::
Single afferent divides into branches , one come fromSingle afferent divides into branches , one come from
skin and other from viscusskin and other from viscus
So , pain impulses arising from skin or diseased viscusSo , pain impulses arising from skin or diseased viscus
will be transmitted by same afferent to spinal cord ,will be transmitted by same afferent to spinal cord ,
activating same thalamic and cortical neuronsactivating same thalamic and cortical neurons
So , whatever source of pain , cortical neurons refers itSo , whatever source of pain , cortical neurons refers it
to skin because brain accustomed to receive painto skin because brain accustomed to receive pain
stimuli from skinstimuli from skin
21.
22. 22--convergence projection mechanismconvergence projection mechanism::
--Separate afferent nerves ( one comes fromSeparate afferent nerves ( one comes from
skin and other from viscusskin and other from viscus((
They converge on same SGRThey converge on same SGR
If there is pain from disease viscus , brain willIf there is pain from disease viscus , brain will
referred it to skin , not viscus as it accustomedreferred it to skin , not viscus as it accustomed
to receive pain pain stimuli from skinto receive pain pain stimuli from skin
23.
24. Ex. Of referred painEx. Of referred pain
11--cardiac paincardiac pain : felt in base of neck , over left shoulder &: felt in base of neck , over left shoulder &
down to armdown to arm
22--esophageal painesophageal pain : felt in lower neck or midline chest: felt in lower neck or midline chest
regionregion
33--biliary and gall bladder painbiliary and gall bladder pain : felt in right shoulder , due: felt in right shoulder , due
to irritation of diaphragm , transmitted by phrenicto irritation of diaphragm , transmitted by phrenic
nervenerve
44--uterine painuterine pain : felt in suprapubic , perineum or lower: felt in suprapubic , perineum or lower
region of backregion of back
55--appendicular painappendicular pain : felt in right iliac fossa and around: felt in right iliac fossa and around
umbilicusumbilicus
66--renal painrenal pain : felt in testicular region: felt in testicular region
25.
26. Pathway of fast pain and cold sensationPathway of fast pain and cold sensation
(neospinothalamic tract(neospinothalamic tract((
11stst
order neuronsorder neurons
ReceptorsReceptors::
Free nerve ending for fast painFree nerve ending for fast pain
krause end bulb for cold sensationkrause end bulb for cold sensation
AfferentAfferent::
A delta fibers pass to DRG , then enters spinalA delta fibers pass to DRG , then enters spinal
cord , ascending few segments forming leissaur tract ,cord , ascending few segments forming leissaur tract ,
ending in neurons in lamina 1&5 in dorsal hornending in neurons in lamina 1&5 in dorsal horn
27. 22ndnd
order neuronorder neuron
From lamina 1&5 in dorsal horn ,From lamina 1&5 in dorsal horn ,
crossing opposite side in front of central canal ,crossing opposite side in front of central canal ,
then ascend forming lateral spinothalamic tract .then ascend forming lateral spinothalamic tract .
It joins ventral spinothalamic tract formingIt joins ventral spinothalamic tract forming
spinal lemniscus , ending in posterolateralspinal lemniscus , ending in posterolateral
ventral nucleus of thalalmus (PLVNTventral nucleus of thalalmus (PLVNT((
28. 33rdrd
order neuronsorder neurons
From PLVNT to posterior limb ofFrom PLVNT to posterior limb of
internal capsule , forming sensory radiation ,internal capsule , forming sensory radiation ,
ends in postcentral gyrus ( somatic sensory areaends in postcentral gyrus ( somatic sensory area
1 ) of cerebral cortex1 ) of cerebral cortex
29.
30. Pathway of slow pain & warm sensationPathway of slow pain & warm sensation
(paleospinothalalmic tract(paleospinothalalmic tract((
11stst
order neuronorder neuron
ReceptorsReceptors
Free nerve ending for slow painFree nerve ending for slow pain
Specialized free nerve ending for warmSpecialized free nerve ending for warm
AfferentAfferent
C unmyelinated , to DRG , then enterC unmyelinated , to DRG , then enter
spinal cord to end in SGRspinal cord to end in SGR
31. 22ndnd
order neuronorder neuron
From SGR , passing opposite side inFrom SGR , passing opposite side in
front of central canal , then ascend as lateralfront of central canal , then ascend as lateral
spinothalamic tract fibers of this tract end inspinothalamic tract fibers of this tract end in
reticular formation in brain stem , ascending toreticular formation in brain stem , ascending to
enf in non-specific thalamic nuclei (intralaminarenf in non-specific thalamic nuclei (intralaminar
and midline nuclei of thalamusand midline nuclei of thalamus((
32. 33rdrd
order neuronorder neuron
From non specific thalamic nuclei ,From non specific thalamic nuclei ,
fibers ascend in posterior limb of internalfibers ascend in posterior limb of internal
capsule , forming sensory radiation , ends incapsule , forming sensory radiation , ends in
diffuse areas of cerebral cortexdiffuse areas of cerebral cortex..