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PAIN
ESAT 3640Therapeutic Modalities
What is Pain?
International Association for the Study of Pain defines pain as “an unpleasant sensory and
emotional experience associated with actual or potential tissue damage, or described in terms such as damage”
http://www.iasp-pain.org/defsopen.html
Pain
Composed of a variety of human discomforts
Not a single entity Perception of pain can be
subjectively modified by past experiences and expectations
We try to change perception of pain
What is the Purpose of Pain?
Warning system Something is wrong, provoking
withdrawal response Can persist beyond its usefulness
Types of Pain
Acute Chronic Referred Radiating
Tissue Sensitivity
Order of sensitivity: 1 – Periosteum and joint capsule
most sensitive 2 – Subchondral bone, tendons, and
ligaments 3 – Muscle and cortical bone 4 – Synovium and articular cartilage
Sensory Receptors Activation of sense organs with
therapeutic agents will decrease perception of pain
4 groups Mechanoreceptors Nociceptors Proprioceptors Thermoreceptors
Meissner’s Corpuscles
Located near the surface at the dermal-epidermal junction
Sensitive to light pressure Mechanoreceptor Produces impulse when stimulus is
increasing or decreasing No impulse with sustained stimulus
Pacinian Corpuscles
Deeper in the subcutaneous tissue Respond to deep pressure Mechanoreceptor Produces impulse when stimulus is
increasing or decreasing No impulse with sustained stimulus
Merkel’s Corpuscles
Located at the dermal–epidermal junction
Touch receptors Sensitive to vertical pressure, not
stretching Mechanoreceptor
Ruffini Corpuscles
In skin sensitive to touch, tension, and heat
In joint capsule and ligaments sensitive to change in position
Mechanoreceptors Proprioceptors Thermoreceptors
Krause’s End Bulbs
Located in skin React to decrease in temperature
and touch Thermoreceptors Mechanoreceptors
Nociceptors
Free nerve endings Sensitive to extreme mechanical,
thermal, or chemical energy Respond to noxious stimuli PAIN Pretty much throughout the body
Muscle Spindles
Bundle of specialized muscle fibers located in muscle
Respond to tension and length when muscle is stretched or contracted
Causes reflexive contraction of muscle Tendon tap
Proprioceptors
Golgi Tendon Organs
Musculotendinous junction Respond to length and tension
changes in muscle Cause relaxation of muscle Proprioceptors
Accommodation
Adaptation by the sensory receptors to various stimuli over an extended period of time
Phasic vs. Tonic receptors Use of physical agents for
extended period of time, may result in accommodation
Neural Transmission
Afferent Nerve fibers that transmit impulses
from the sensory receptors to the CNS Efferent
Nerve fibers that transmit impulses from the CNS to the periphery
Motor neurons
Simple Reflex Arc
Afferent System 1st order neurons
Transmit impulses from sensory receptors to the dorsal horn of the spinal cord
4 types of fibers Alpha () Beta () Delta () C
Afferent System Continued
2nd order neurons Carry sensory information from dorsal
horn to the brain Wide dynamic range or nociceptive
specific 3rd order neurons
Carry information to various brain centers for integration, interpretation, and action response
Synaptic Transmission Neurotransmitter – Passes information
between neurons Neuroactive peptides can facilitate or
inhibit synaptic activity Enkephalin Serotonin Norepinephrine -endorphine Dynorphin
Nociception Nociceptive neurons transmits pain
signals Cell body located in the dorsal root
ganglion Delta fibers = 25%, C fibers = 50% Once stimulated – substance P is
released Size and conduction velocities
different
Fast Pain
Delta neurons Brief, well-localized, & well-
matched to stimulus Originates from receptors in the
skin
Slow pain
C neurons Aching, throbbing, or burning Poorly localized Less specificity to stimulus Originate from both superficial and
deep tissues
Afferent Pathways
Gate Control Theory Pain modulation due to sensory
stimulation and resultant increase in the impulses in the afferent fibers
Stimulation of the substantia gelatinosa (SG)
Stimulation of the SG by fibers inhibit synaptic transmission in the large and small fibers
Ascending Gate Control Theory
and C fiber impulses inhibit SG, facilitating pain perception
Use of physical agents stimulate large-diameter fibers creating analgesic response
Endogenous Opioid Analogue to the Ascending Gate Control Theory
fiber impulses trigger a release of enkephalin from neurons in the dorsal horn
Inhibit synaptic transmission in the and C fibers
Central Biasing Descending pain control Impulses from the
thalamus and brain down the efferent fibers to the dorsal horn
Impulses from the higher centers close the gate and block transmission of pain message at the dorsal horn
Previous experience, emotional influences, sensory perception are factors which can influence transmission of pain
Endogenous Opioid Model of the Descending Pain Control Theory
Stimulation of the periaqueductal grey region and raphe nucleus by ascending inputs activates descending mechanisms
Stimulation of raphe nucleus sends impulses down the efferent fibers in the dorsal lateral tract
Synapse with enkephalin interneurons Release of enkephalin
-Endorphin and Dynorphin Stimulation of small-diameter afferents
stimulates the release of BEP & Dynorphin Prolonged stimulation of the small-
diameter fibers is thought to trigger the release of BEP from the anterior pituitary gland
BEP does not cross blood-brain barrier BEP probably release from area within
brain
Pain Assessment
Pain is difficult to evaluate and quantify Subjective nature Difficult to put into words
Pain Profiles
Type of pain Quantify intensity of pain Effect of pain experience on the
athlete’s level of function Assess psychosocial impact of pain
Pain Assessment Scales Visual analogue scales Pain charts McGill Pain Questionnaire Activity Pattern Indicators Pain Profile Numeric Pain Scale
…Rate your pain on a scale from 1 to 10, with 10 being the worst pain you have every experienced or could imagine
Visual Analogue Scales
Pain Charts
McGill Pain Questionnaire
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