Neurophysiology PDF Lecture Notes

Summary

These lecture notes cover neurophysiology, focusing on different types of sensations and their mechanisms. The document details somatic, visceral, special, and organic sensations, classifications, and pain mechanisms. It's a comprehensive study guide for undergraduate courses.

Full Transcript

Neurophysiology
Dr. Adel Hussien
Prof. of Medical Physiology
Physiology dept.-Faculty of
Medicine – Minia University
Learning objectives:
By the end of this lecture student will be able to
1- List different types of sensations
2- Classify somatic sensations
3- Discuss mechanical sensations (types, characters)
4- Discus thermal sensation (types, mechanism and
characters)
5- Discus pain sensation (mechanism, types, body
reactions to pain)
 Sensations

Sensation is the appreciation (understanding) of the meaning of a
stimulus
Sensations in the body include

(1) Somatic sensations: sensations from skin and deep structures like
muscles, joints and bones

(1) Visceral sensations: from viscera e.g. GIT, heart, kidney…

(1) Special sensations: vision, hearing, smell and taste

(1) Organic sensations: hunger, thirst and sexual desire
 Classification of somatic sensations
(A) According to the site of sensation
1- exteroceptive sensations (superficial sensations)
These are the skin sensations e.g. pain, touch and temperature sensation
2- interoceptive sensations (deep sensations)
These are sensations from skeletal muscles, tendons, joints, bones,
ligaments…
They include the following types
a- proprioceptive sensations (kinesthetic sensation): include sense of
position and sense of movement
b- pressure sense
c- muscle tension sense
d- muscle sense (pressure pain): resulting from squeezing the muscle
with hands
3- combined sensations: vibration sense
(B) According to the modality of sensation
1- Mechanoreceptive sensations
Tactile sensations (touch, pressure, vibration and tickle)
Position and movement sensations (proprioceptive sensations)
2- Thermoreceptive sensations
Heat and cold sensations
3- Pain sensation
Cutaneous, deep, visceral or neuropathic pain sensation
 1- Mechanoreceptive sensations

Mechanoreceptive sensations include the following
I- Touch sensation
II- pressure sense
III- Vibration sense
IV- Tickling and itching
V- proprioceptive (Kinesthetic ) sensation: includes
- Sense of position (static proprioception)
- Sense of movement (dynamic proprioception)
 I- Touch sensation
A- Crude touch
Poorly localized touch sensation (Feeling of clothes and hair comb)
Receptors: free nerve endings – hair end organs
Afferent nerves: Aδ fibers
Central pathway: Ventral spinothalamic tract
Test: By stroking the skin lightly by a piece of cotton
B- Fine touch
This include 1- tactile localisation 2- tactile discrimination 3-
stereognosis and 4- texture of material
Receptors: Meissner’s corpuscles and Merkel’s disks
Afferent nerves: Aᵦ fibers
Central pathway: Gracile and cuneate tract (dorsal column)
1- tactile localisation: localising the point of touch with both eyes closed
2- tactile disrimination: 2 point discrimination
Feeling 2 points touched simultaneously as 2 separate points with both
eyes closed
The distance between the 2 touched stimuli should be above the
threshold distance (very narrow at the finger tips and lips 2mm and
most wider in the back 5-20mm)
Tactile localization and discrimination depend on
- Number of receptors in the area
- Receptive field of the receptors
- Presence of convergence in the pathway
- Area of cortical representation
3- Stereognosis
Recognizing familiar objects ( key or coin) put in the hands with both
eyes closed
It depends on
a- Cutaneous and deep sensations
b- previous knowledge about the object
4- Texture of material
Knowing the texture of materials whether it is made of silk, wool,
cotton.. by touching the materials with both eyes closed
 II- Pressure sense
Knowing the weights of objects and discrimination between different
weights by pressure on hands
Receptors: Mainly Pacinian corpuscles
Afferent nerves: Aᵦ fibers
Central pathway: Gracile and cuneate tract (dorsal column)
 III- Vibration sense
Rhythmic repetitive pressure sensation
Feeling the vibration of the tuning fork put on bony prominencies
(although bone insenstive to vibration but it magnifies the vibration
waves)
vibration sense of the body ranges (30-800Hz)
Receptors:
Meissner’s corpusles. Respond to low frequency vibration (80Hz)
Pacinian corpuscles. Respond to high frequency vibration (500Hz)
Afferent nerves: Aᵦ fibers
Central pathway: Gracile and cuneate tract (dorsal column)
 IV- Tickling and itching
Tickle: pleasurable sensation (often causing laugh) that results from mild
tactile stimulation of the skin
Itch: annoying sensation that results from skin irritation by
- Moving tactile stimuli e.g. crawling flea
- Chemical substances released in the skin e.g. histamine in allergic
conditions
Receptors: free nerve endings
Afferent nerves: unmyelinated C fibers
Central pathway: Ventral spinothalamic tract
 V- Proprioceptive sensations
These sensations arise from deep structures specially muscles and joints
Divided into the following 2 types
1- Sense of position (Static proprioception )
Position of different parts of the body in space
2- Sense of movement (dynamic proprioception)
Sensation of movement and rate of movement of different parts of the
body
Receptors:
present in joint capsule, ligaments, tendons, tissue around joints
Slowly adapting Ruffini’s end organs for sense of position
Rapidly adapting Pacinian corpuscles for sense of movement
Afferents: Aα and Aᵦ fibers
Central pathway: Gracile and cuneate tract (dorsal column)
 2- Thermoreceptive sensations
It is the perception of different gradations of cold and heat
Types of thermal receptors
1- Warm receptors: free nerve endings attached to C fibers
2- Cold receptors: free nerve endings attached to C and Aδ fibers
3- Two subtypes of pain receptors
- Cold pain receptors: give freezing cold sensation
- Heat pain receptors: give burning hot sensation
Mechanism of stimulation:
Thermoreceptors are stimulated chemically by the changes in the
concentration of metabolites in the receptors
Increase temp…..increase metabolic rate of receptor
Decrease temp…decrease metabolic rate of receptor
Characters of thermal receptors:
1- Located immediately under the skin..detect temperature of
subcutaneous tissues not the environment
2- They have small receptive field and widely separated (spatial
summation from stimulation of large skin area)
3- Cold receptors are 4-10 times more numerous than warm receptors
4- Thermoreceptors are moderately adapting receptors but cold
receptors adapt more slowly than warm receptors
5- Distribution: more in lips>fingers>trunk
Discharge from Thermoreceptors:
1- Cold receptors
Stimulated from 10-43oC maximum
At 25oC
2- Cold pain receptors
Stimulated from 5-15oC maximum
At 5oC
3- Warm receptors
Stimulated from 30-50oC maximum
At 45oC
4- Heat pain receptors
Stimulated at 45oC and above
At 0oC all receptors stop discharge. It is used as a method for local
anaesthesia
 3- Pain sensation
Pain is an unpleasant sensation despite that it protect the body when
there is tissue damage
Pain sensation cause the individual to react to remove the pain stimulus
or seek medical advice
Mechanism of pain sensation:
Damaged tissues & the surrounding blood vessels release chemical
mediators of pain (pain producing substances- pain sensitizers) as
Histamine, serotonin, prostaglandins, bradykinins, K+ ions, proteolytic
enzymes
These pain producing substances increase sensitivity of pain receptors
and decrease their pain threshold
Transduction of pain signals:
1- Stimulation of nociceptors by specific stimulus..open specific
transduction channels as
a- Degenerin channels: Opened by injurious mechanical stimuli
b- Vanilloid channels: Opened by extreme temp. and capsaicin
c- Acid sensing channels: Opened by chemical stimuli
2- Opening of these channels…Na+ and Ca2+ inflow..depolarization
3- Activation of pain afferent neurons…release of neurotransmitter
substances to spinal cord (Aδ fibers release glutamate while C fibers
release substance P)
Pain receptors: Free nerve endings are slowly adapting and has 4
types
1- Mechanical pain receptors. Stimulated by mechanical injurious
stimuli
2- Thermal pain receptors. Stimulated by extremes of temp. (as cold
pain and heat pain receptors)
3- Chemical pain receptors. Stimulated by chemical injurious stimuli
as pain of gastric ulcer due to excess HCl
4- Polymodal pain receptors..respond to all types of stimuli
Pain receptors present more in skin, periosteum, arterial wall, joint
surfaces, falx cerebri and tentorium cerebelli and absent in liver
parenchyma, lung alveoli, Brain tissue, Bones
Afferent fibers: Aδ & C fibers
Central pathway: Lateral spinothalamic tract
Types of pain sensation:
pain is classified according to
A- Site of pain: into
1- Cutaneous pain
2- Deep pain
3- Visceral pain
4- Neuropathic pain

B- Quality of pain: into
1- Fast (acute sharp pricking pain)
2- Slow (chronic burning dull aching pain)
 (1)Cutaneous pain

It is the pain produced by stimulation of pain receptors in the skin
It is accurately localised (unlike other types) due to
1- Large number of pain receptors in the skin
2- The fast pain reaches the sensory cortex
3- Touch and vision help in localisation
It occurs in 2 phases: fast pricking followed by slow burning pain
 Differences between fast and slow pain
Fast pain Slow pain

Site (origin) Skin mainly, may occurs in Skin, deep tissues & viscera
pleura, pericardium and
peritoneum
Stimulus Mainly the mechanical and All noxious stimuli specially
thermal noxious stimuli the chemical ones
Quality Pricking (sharp-acute) well Burning (aching-chronic)
localised poorly localised
Perception 0.1 sec after stimulation 1 sec or more after
stimulation
Duration Short duration Long duration
Afferent nerve Aδ fibers..glutamate C fibers..substance p
Tract neospinothalamic paleospinothalamic
Center Mainly Cerebral cortex Mainly thalamus
Blocked by Pressure and hypoxia Local anaesthetics
Reaction to pain Somatic protective reflexes Autonomic & somatic reflex
Threshold of pain: minimal intensity of stimulus (heat) that will
produce pain when applied for a prolonged period of time
pain threshold is the same for all individuals (when skin temp. reaches
45oC or more)
The individuals differ only in their reactions to pain
Reactions to pain:
Reactions to pain take the following forms
(1) Somatic reflexes: protective reflexes, their center in spinal cord
A- Withdrawal reflex e.g. flexion withdrawal reflex
B- immobilisation reflex e.g. rigidity of overlying muscles (guarding)
(2) Autonomic reflexes:
- Moderate pain..sympathetic effects (tachycardia-hypertension)
- Severe pain..parasympathetic effects (bradycardia-hypotension)
(3) Emotional reactions: crying, anxiety, depression
(4) Cutaneous hyperalgesia (tenderness):
Pathological hypersensitivity to pain that commonly accompanies skin
injuries, inflammation and burns
Pain is aroused by non noxious stimuli which are normally not painful
e.g. touch elicited pain sensation
Hyperalgesia is of 2 types

A- Primary hyperalgesia: at the site
of injury

B- Secondary hyperalgesia: healthy area
around injury
Differences between primary and secondary hyperalgesia
 (2) Deep pain
Pain produced from muscles, joints, ligaments & periosteum of bones
It is a slow pain conducted by C fibers
Characters: Diffuse, Dull aching, associated with depressor effects
(bradycardia-hypotension)
Causes: inflammation, ischemia, muscle spasm, bone fractures
Ischemic pain
Type of deep pain felt in muscles when their blood supply is decreased
Blood supply may decrease due to:
1- Intravascular thrombosis (clot formation)
2- Narrowing of lumen of blood vessels due to inflammation or
compression
Mechanism of ischemic pain
- accumulation of lactic acid
- release of proteolytic enzymes from ischemic tissue
Examples of ischemic pain
1- Cardiac muscle ischemia…Angina pectoris
2- Skeletal muscle ischemia….intermittent claudications
Ischemic pain is aggravated by exercise and relived or decreased by
rest
 (3) Visceral pain
Pain from internal viscera of the thorax, abdomen & pelvis
Visceral pain receptors are few in number so its stimulation requires
diffuse type of stimulation not sharp localised one (sharp cut in viscera
does not cause pain)
Afferent:
- From viscera along C fibers
- From peritoneum, pleura or pericardium along Aδ fibers
Causes of visceral pain:
1- Ischemia..accumulation of metabolites
2- Inflammation..of peritoneal covering
3- Irritation by chemical agents..HCl in peptic ulcer
4- Compression or infilteration by tumor
5- Overdistention of viscus e.g. Urinary bladder
6- Spasm of a hollow viscus e.g. colon, gall bladder, ureters, uterus….
Characters of visceral pain:
1- Dull aching or rhythmic cramps (colics)
2- Diffuse (poorly localised)
3- Depressor autonomic changes (bradycardia, hypotension)
4- Rigidity of overlaying muscles
5- Referred to body surface (causing referred pain sensation)
 Referred (radiating) pain
This is pain that is felt away from its original site
It is most frequent with visceral pain and also may occur with deep pain
Examples:
1- Cardiac pain is referred to left shoulder and
inner side of left arm
2- Gall bladder pain is referred to tip of
right shoulder
3- Renal pain is referred to the
Loin and testicular region
4- Gastric pain is referred to epigastrium
5- Appendicular pain is referred to
umbilical region
6- Headache is a type of referred pain
 Mechanism of referred pain: convergence projection theory

- Afferent nerves from both somatic and diseased viscus that develop
from the same embryonic segment converge on the same neurons of
spinothalamic tract
- The cortex is accustomed to receive pain sensation from the skin and
not from the viscera (less sensitive), so pain from the viscera is
projected to the skin
 Headache
It is a type of referred pain from deep structures to the surface of the
head
Brain itself is insensitive to pain
Pain sensitive intracranial structures include arteries, venous sinuses,
Dura matter
Causes of headache:
A- Intracranial causes
1- meningeal irritation: by meningitis, tumors or operative trauma
2- brain tumors: traction on meninges
3- decreased CSF pressure: after lumbar puncture..traction on meninges
4- Hypertension: marked expansion of cerebral blood vessels
5- Migraine headache: unknown cause.spasm followed by dilatation
6- Alcoholic headache: toxic meningeal irritation
7- constipation: due to absorption of toxins
B- extracranial headache:
1- Head and neck…spasm of neck muscles
2- Eye causes: Errors of refraction
3- nasal causes: sinusitis
4- Ear: otitis media
5- Teeth: toothache
6- Systemic disorders: anaemia
 (4) Neuropathic pain
Chronic type of pain caused by damage or pathological changes in the
nerve fibers of the peripheral or central nervous system
Examples:
1- Trigeminal neuralgia
2- Herpes zoster
3- Phantom limb pain
4- Peripheral neuropathy e.g. diabetic neuropathy
5- Sciatica
Characters:
1- Excruciating, electric, burning, shooting pain
2- Occurring in bouts or paroxysms
3- Accompanied by hyperalgesia & parasthesia
4- Partially responsive to opioid therapy
Which of the following statements did not fit with thermal
receptors?
a. Located immediately under the skin
b. Has small receptive field
c. Cold receptors more numerous than warm receptors
d. They are rapidly adapting receptors

Which of the following structures produce intracranial when
stimulaed by painful stimuli?
a. Arachnoid matter
b. Brain tissue
c. Intracranial veins
d. Pia matter
Explain mechanism of referred pain:
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