Myofascial pain syndrome (MFPS and myofascial trigger point (MTrP)
key
TrP responsible for activating one or more satellite TrPs. clinically a key TrP is identified when inactivation of that TrP also inactivates the satellite TrP
active
TrP that causes a clinical pain complaint
latent
TrP that is clinically quiescent with respect to spontaneous pain. It is painful only when palpated. May have all the other clinical characteristics of an active TrP and always has a taut band that increases ms tension and restricts ROM
prevelence 269 female student nurses
TrPs found in 54% of lateral pterygoid, in 45% of masseter, in 43% of temporal is, 40% of medial pterygoid, 35% of splenius capitis, 33% of utrap
nociceptive chains of bic. brachii, triceps, supinator, finger ext associated joint fixation
elbo and mid cervical spine
other terms
essential pain zone jump sign local twitch response motor endplate paradoxical (abnormal) respiration referred autonomic phenomena spillover pain zone taut band zone of reference
nociceptive chains of Karel Lewit
founder of the Prague school of manual medicine and rehabilitation utilized and taught manipulation and rehabilitation to treat the locomotor system relationship between fixation/dysfunction of specific motion segments and MTrP of specific muscles
jump sign
general pain response of the patient, who winces, may cry out, and may withdraw in response to pressure applied on a TrP
Myofascial pain syndrome (MFPS or MPS)
general term to describe a regional pain syndrome of any soft tissue origin "the sensory, motor and autonomic symptoms caused by myofascial trigger points
taut band
group of tense muscle fibers extending from a TrP to the muscle attachment. The tension of the fibers is caused by contraction knots that are located in the region of the TrP
hyperirritable spot in skeletal muscle is associated with
hypersensitive palpable nodule in a taut band
vicious cycle of MTrP
increased Ach released fro motor nerve terminal --> sustained Ca2+ released from sarcoplasmic reticulum--> sustained sarcomere contraction --> increased energy demand and decrease energy supply from compression of local capillaries--> energy crisis--> release of sensitizing substances and failure of the Ca2+ pump of the sarcoplasmic reticulum
prevelence 100 asymptomatic subjects
latent TrPs found on 45% of QL, 41% G. Med., 11% G min, 24% ilopsaos, 5% piriformis
energy crisis (2)
leads to release of sensitizing substances that could interact with autonomic and sensory (nociceptive) nerves causes failure of the Ca2+ pump of the sarcoplasmic reticulum
nociceptive chains of pectoralis, rhomboids associated joint fixation
midthoracic spine
latent Trp symptoms
no spontaneous pain
indirect stimuli causes
other TrPs abnormal (paradoxical) breathing joint dysfunction emotional stress nutritional deficiency (esp. H2O soluble vitamins) heart, gallbladder and other visceral disease
signs include
palpable tenderness (tender nodule upon palpation) restricted stretch range of motion (shortened upon muscle length test) taut band fiber with LTR characteristic referred pain, tenderness and/or dysesthesia (hypesthesia, numbness, paresthesia) painful contraction (emphasized when contraction is shortened position) weakness upon muscle strength test
essential pain zone
region of referred pain that is present in nearly every patient when the TrP is active
spillover pain zone
region where some ,but not all, patients experience referred pain beyond the essential pain zone, due to greater hyperirritability of a TrP
paradoxical respiration
simultaneous expansion of the chest and contraction of abdominal muscles that pulls the abdomen inward during inhalation
types of TrP (8)
1) active 2) associated 3) attachment 4) central 5) key 6) latent 7) primary 8) satellite (previously termed, secondary TrP)
physiological causes of MTrP (7)
1) increased Ach released from motor nerve terminal 2) sustained Ca2+ released from sarcoplasmic reticulum 3) sustained sarcomere contraction 4) increased energy demand from sustained contraction and decreased energy supply from compression of local capillaries 5) energy crisis 6) release of neuroactive substances contribute to excessive Ach release 7) self sustaining vicious cycle established
associated
TrP in one ms. that occurs concurrently with a TrP in another ms. One may have induced the other or both ma stem from the same mechnical or neurological origin
nociceptive chains of rectus femoris associated joint fixation
L3-L4
nociceptive chains of piriformis associated joint fixation
L4-L5
nociceptive chains of iliacus associated joint fixation
L5-S1
attachment
TrP at musculotendinous junction and/or at osseous attachment of the muscle that identifies the enthesopathy cause by unrelieved tension characteristic of the taut band that is produced by a central TrP
central
TrP closely associated with dysfunctional endplates and located near of ms belly
satellite
a central TrP that was induced neurogenically or mechanically by the activity of a key TrP. May develop in the zone of reference of the key TrP in an overloaded synergist that is substituting for key ms, in an antagonist countering increased tension of the key ms or in a ms linked apparently only neurogenically to the key Trp
types of TrP
active associated attachment central key latent primary satellite
direct stimuli causes
acute overload overwork fatigue (repetitive stress injury, poor posture) radiculopathy gross trauma
the spot
always painful on compression can give rise to: 1) characteristic referred pain 2) referred tenderness 3) motor dysfunction 4) autonomic phenomena
primary
central TrP that was apparently activated directly by acute or chronic overload or repetitive overuse of the ms in which it occurs and was not activated as a result of TrP activity in another muscle
nociceptive chains of shoulder girdle muscles associated joint fixation
cervicothoracic junction
active TrP symptoms
clinical complaint of myotomal pain (dull, diffuse, achy, referred)
myofascial trigger point
cluster of electrically active loci each of which is associated with a contraction knot and a dysfunctional motor endplate in skeletal muscle
nociceptive chains of SCM, suboccipitals associated joint fixation
craniocervical junction
motor endplate
soleplate ending where a terminal branch of the axon of a motor neuron makes synaptic contact with a striated muscle fiber
symptoms include
sometimes complains of numbness or paraesthesia rather than pain increased muscle tension and shortening spasm of other muscles weakness of involved muscle (from reflex motor inhibition without atrophy of the affected muscle) loss of coordination by involved muscle decreased work load tolerance distorted weight perception of lifted objects sleep disturbances involved limp may feel cold compared to other side (reflex vasoconstriction) abnormal sweating persistent lacrimation persisten coryza excessive salivation pilomotor activities imbalance dizziness tinnitus
zone of reference
specific region of the body at a distance from a TrP, where phenomena (sensory, motor, and/or autonomic) cause by the TrP are observed
nociceptive chains of plantar muscles associated joint fixation
tarsometatarsal joints
nociceptive chains of psoas, QL, T/L erector spinae, Lat. dorsi associated joint fixation
thoracolumbar junction
nociceptive chains of biceps femoris associated joint fixation
tibiofibular joint
local twitch response
transient contraction of a group of tense muscle fibers (taut band) that traverse a TrP. contraction is in response to stimulation (usually by snapping palpation or needling) of the same TrP, or sometimes of a nearby TrP
treatment procedures
trigger point pressure release (replaces the term, ischemic compression) spray and release PIR comb (e-stim+US) followed by stretching or manual therapy other (static stretch, massage, nimmo, heat, TrP injection, dry needling, biofeedback, MRT, etc.)
nociceptive chains of subscapularis associated joint fixation
upper ribs
referred autonomic phenomena
vasoconstriction (blanching), coldness, sweating, pilomotor response, ptosis, and/or hypersecretion that occur in a region separate from the TrP causing these phenomena. The phenomena usually appear in the same general area to which that TrP refers pain
prevelence 200 asymptomatic young adults
with latent TrPs found on 54% of males and 45% of females
