ELECTROMYOGRAPHY
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Transcript of ELECTROMYOGRAPHY
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ELECTROMYOGRAPHY
EMG- BIOFEEDBACK
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ELECTROMYOGHAPHY ELECTRO + MYO + GRAPHY
ELECTRICITY MUSCLE WRITE
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DEFINITION Study of motor unit activity Recording of AP of muscle fibres
firing near the needle electrode in a muscle
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INTRODUCTION
Luigi Galvani – 1791EMG
Clinical EMG Kinesiology EMG
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MOTOR UNIT
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SIZE PRINCIPLE
The muscle contraction depends on the “size principle”It states that “the motor neurons are recruited in order of size from small to large”
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MOTOR UNIT ACTION POTENTIAL
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Recording an EMG includes 3 phases systemInput phaseProcessor phaseOutput phase
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INSTRUMENTATIONELECTRODESSurface electrodesNeedle electrodesFine wire indwelling electrodes
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FINE WIRE INDWELLING ELECTRODE
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SURFACE ELECTRODES
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NEEDLE ELECTRODESCONCENTRICMONOPOLARSINGLE FIBREMACRO
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3 ELECTRODES ARE USED
ACTIVE ELECTRODE
REFERENCE ELECTRODE
GROUND ELECTRODE
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AMPLIFYING THE EMG SIGNAL Amplifier- converts the electrical potential seen by electrodes to a voltage signal large enough to be displayed
Differential amplifier-Rejects common mode voltages which appear between both input terminals and common grounds
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Common mode rejection ratio- It is a measure of how much the desired signal voltage is amplified relative to the unwanted signal
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Signal-to-noise ratio- It is the ratio of the wanted signal to unwanted signalGain- Ratio of output signal level to input level. A higher gain will make a smaller signal appear larger on the display
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Input impedence- It is a resistive property, opposing current
flow, which occurs in alternating current circuits.
Affected by- Electrode material Electrode size Length of the leads Electrolyte
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Frequency bandwidth- Bandwidth is the difference between highest and lowest frequency that will be processed.
Amplifier must be able to respond to signals between 10 and 10000 Hz
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Displaying the EMG signalThe form of output used is dependent on the type of information desired and instrument available
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WAVEFORM DISPLAY2 forms are used
1. Analog oscilloscope display
2. Computer based digital video display
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EMG- RECORDING & DISPLAY
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FACTORS AFFECTING OUTCOME OF RECORDING
Age of the patientsProperties of the muscle under study Limb temperatureElectrical specifications of the needle electrodes and the recording apparatus. e.g. filter settings
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INDICATIONSNeurogenic disordersNeuromuscular junction disordersMyogenic disorders Metabolic disorders
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CONTRAINDICATIONSRecurrent systemic infectionsBleeding disorders – hemophilia, thrombocytopenia, patient on anticoagulant therapyLocalized inflammationSkin lesions
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serum creatinine kinase level- repeated examination causing inflammation and focal myopathic changes.Transient bacterimia following needle examination may lead to endocarditic in patients with valvular disease or prosthetic valves.
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ELECTROMYOGRAPHY EXAMINATION
Select the muscle
Locate the needle insertion point
Insert the needle quickly in a relaxed state
Patient briefly activates the muscle to confirm the placement
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ACTIVITIESInsertional ActivitySpontaneous ActivityMinimal Volitional ActivityMaximal Volitional Activity
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INSERTIONAL ACTIVITYIt is the measure of muscle excitability.Spontaneous burst of potentials (muscle fibre depolarization) usually lasting less than 300ms after needle movement ceases.Positive and negative high frequency spikes in a cluster are seen.
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SPONTANEOUS ACTIVITYMINIATURE END PLATE POTENTIALS(MEPP): End plate noiseEND PLATE SPIKES- Nerve potentials
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ABNORMAL SPONTANEOUS ACTIVITYFIBRILATION POTENTIALPOSITIVE WAVESCOMPLEX REPETITIVE DISCHARGESMYOTONIC DISCHARGESFASCICULATION
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MYOKYMIC DISCHARGESCRAMPSNEUROMYOTONIA
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MINIMAL VOLITIONAL ACTIVITY
Motor unit action potential- voluntary contractionRecruitment
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MOTOR UNIT ACTION POTENTIAL
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PHYSIOLOGIC FACTORSAge Inherent properties of motor unit itself Spatial relationship between the needle and the individual muscle fibresResistance and capacitance of intervening tissuesIntramuscular temperature
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NON PHYSIOLOGIC FACTORS
Type of needle electrodeSize of the recording surfaceElectrical properties of the amplifierChoice of oscilloscope sensitivitySweep or filtersMethods of storage and display
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MUAPs
Morphology -Amplitude, duration, phase, initial deflection StabilityFiring characteristic
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AMPLITUDEIt is measured from peak to peak .100V-2mVIt is determined by
Primarily by limited number of fibres located close to the electrode tip.
Size and density of the muscle fibre Synchrony of firing .
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Age of the subject
Muscle examined
Muscle temperature-Decreasing muscle temperature results in higher amplitude and longer duration of MUPs
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DURATIONMeasured from initial take off to the point of return to the baseline.Usually 5-15 msIt reflects the number of muscle fibres within a motor unit and is the most reliable measure to use when judging MUAP morphology.
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The duration of MUP is a measure of Conduction Length of muscle fiber Membrane excitability Synchrony of different muscle fibres
of a motor unit
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Duration increases with age and cold temperature.
Distal muscles have longer duration MUAPS than proximal ones .
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RISE TIME OF MUPIt is the duration from initial positive to subsequent negative peakIndicator of the distance of needle electrode from the muscle fibre<500µs is acceptable
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A greater rise time is due to resistance and capacitance of the intervening tissue which acts as high frequency filter and results in dull sound on the loudspeaker of EMG equipment. This indicates the need to reposition needle closer to the muscle fibres
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PHASE OF MUPIt is defined as the portion of MUP between departure and return to the baseline.i.e no. of baseline crossings +1.Typical shape of an MUAP is diphasic or triphasic.
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A MUP more than 4 phases is called as polyphasic.The normal MU will fire up to 15/sec with strong contraction.
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SATTELITE POTENTIALThey are the late potentials which are time locked to the main motor unit potential.The satellite potential is generated by a muscle fibre in a motor unit with a long nerve terminal, narrow diameter or distant end plate region
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StableSemi-rhythmic firing pattern
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MAXIMAL VOLITIONAL ACTIVITY Interferance Pattern
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The spike density and average amplitude of the summated response are determined by a number of factors:
Descending input from the cortex Number of motor units capable of
discharging Firing frequency of each motor unit Waveform of individual potentials Probability of phase cancellation
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VARIABILITY IN MUPShort durationLong durationPolyphasicMixed patternDoublets and multiplets
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SHORT DURATIONThe short duration MUPs are those with a duration shorter than that for the muscle of corresponding age
Usually have low amplitude and have rapid recruitment at minimal effort
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They are found in the disorders associated with loss of muscle fibres2 chief pathologies are- Myopathies and neuromuscular
junction disorders Early stage of reinnervation after
nerve damage
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LONG DURATION MUPSThe duration of MUPs exceeds the normal values for the corresponding muscle & ageHave high amplitude & poor recruitmentAssociated with increase in fibre density, loss of synchrony of firing of muscle fibre & increase in the number of muscle fibre
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Seen in Motor neuron disease Axonal neuropathies with collateral
sprouting Chronic radiculopathies Neuropathies Chronic myositis –polymyositis
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POLYPHASIC MUPThere is 4 or more phases in a MUPSeen in myopathies where there is regeneration of fibres and increased fibre density.
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MIXED PATTERNComprises of short ,long, polyphasic MUPsFound in both Myogenic and Neurogenic abnormalities
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DOUBLETS OR TRIPLETSMUPs are fired 2 or more times at an interval of 10-30 msSeen when there is hyperventilation, tetany, motor neuron disease, other metabolic diseases ischemia
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CLINICAL IMPLICATIONS OF EMG
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REFERANCESPHYSICAL REHABBILITATION: ASSESSMENT AND TREATMENT
Susan B.O’sullivanCLINICAL NEUROPHYSIOLOGY UK MishraDIAGNOSTIC TESTING IN NEUROLOGY Randolph W. EvansELECTRODIAGNOSTIC TESTING Kimura
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EMG-BIOFEEDBACK
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DEFINITION A technique of using equipment (usually
electronic) to reveal human beings some of their internal psychological events, normal and abnormal, in the form of visual and auditory signals in order to teach them to manipulate these otherwise involuntary or unfelt events by manipulating the displayed signals.
John V.Basmajian
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OBJECTIVES AND GOAL
TO IMPROVE MOTOR PERFORMANCE BY FACILITATING MOTOR LEARNING
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PRINCIPLES OF MOTOR LEARNING
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MOTOR LEARNING SCHIMDT defined it as “a set of processes
associated with practice or experiences leading to relatively permanent changes in the capacity for responding”
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Four primary factors that influence motor learning are
1. Stage of learner 2. Type of the task3. Feedback 4. Practice
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TYPES OF FEEDBACK INTRINSIC FEEDBACK EXTRINSIC FEEDBACK-1. KNOWLEDGE OF RESULTS2. KNOWLEDGE OF PERFORMANCE
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EQUIPMENTS USED The basic EMG biofeedback device
includes one ground and two surface electrodes, an amplifier, an audio speaker and a video display.
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The quality of the machine and its output are chiefly governed by Electrodes used Input impedance Common mode rejection ratio Bandwidth Gain Noise level Ability to cope with non EMG artifacts
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TECHNICAL LIMITATIONS RELEVANCY ACCURACY RAPID TO ENHANCE MOTOR
LEARNING
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BIOFEEDBACK IN REHABILITATION
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When using the biofeedback the patient should
Understand Practice Perform
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CLOSE LOOP OPEN LOOP SCHEDULED LOOP
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Biofeedback can assist rehabilitation process by:1. Providing a clear treatment outcome2. Permitting the therapist and patient to
experience with various strategies that generate motor patterns
3. Reinforcing appropriate motor behavior.4. Providing a process oreinted, timely and
accurate KP or KR of the patients’ efforts.
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CONDITIONS STROKE SPINAL CORD INJURIES CP AND TBI MULTIPLE SCLEROSIS DYSTONIAS AND DYSKINESIS PERIPHERAL NERVE DENERVATION PAIN MANAGEMENT
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THERAPEUTIC INTERVENTION
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TREATMENT SESSION PATIENTS FUNCTIONAL
ASSESSMENT PROBLEM IDENTIFICATION THERAPEUTIC INTERVENTION
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REFERANCESPHYSICAL REHABBILITATION:
ASSESSMENT AND TREATMENT Susan B.O’sullivanBIOFEEDBACK PRINCIPLES AND
PRACTICE FOR CLINICIANS John V. BasmajianPHYSICAL MEDICINE AND
REHABILITATION-PRINCIPLES & PRACTICE
Joel A. Delisa
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THANK YOU