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Electromyogram

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Jhoniel Viloria
Jhoniel Viloria

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Electromyogram (EMG) Jhoniel Viloria
Introduction  Electromyogram (EMG) is a technique for evaluating and recording the activation signal of muscles.  EMG is performed by an electromyograph, which records an electromyogram.  Electromyograph detects the electrical potential generated by muscle cells when these cells contract and relax.
Introduction  Electrical signals associated with the contraction of a muscular is called an electromyogram (EMG).  The study of EMG’s is called electromyography.
History  1838 – Matteucci first describes the existence of electrical output from muscle.  1929 – introduction to coaxial needle electrode  It has been noted that the relaxing muscle doesn’t produce voltage, the EMG signals are generated in case of muscle contractions.
EMG Signal Factors, which can influence the EMG signal:  Velocity of shortening or lengthening of the muscle  Fatigue;  Reflex activity.
 Muscle Signals are Analog in nature.  EMG signals are also collected over a specific period of time. Analog Signal EMG Signal
Electrical Characteristics  The electrical source is the muscle membrane potential of about -70mV.  Measured EMG potentials range between < 50 μV up to 20 to 30 mV, depending on the muscle under observation.  Typical repetition rate of muscle unit firing is about 7-20 Hz.
Power Spectrum Frequency (Hz)
EMG PROCEDURE  Clean the site of application of electrode;  Insert needle/place surface electrodes at muscle belly;  Record muscle activity at rest;  Record muscle activity upon voluntary contraction of the muscle.
EMG Circuit
EMG Circuit
Amplification & Filtering Signal pick up Conversion of Analog signals to Digital signals Computer EMG Processing
Applications of EMG  EMG can be used for diagnosis of Neurogenic or Myogenic Diseases.  Indicator for muscle activation/deactivation  Relationship of force/EMG signal  Use of EMG signal as a fatigue index
Types of EMG Electrode Categories Inserted Fine-wire (Intra-muscular) Needle Surface
Intramuscular - Needle Electrodes Extramuscular - Surface Electrodes Types of EMG
Fine-wire Electrodes Advantages Extremely sensitive Record single muscle activity Access to deep musculature Little cross-talk concern Disadvantages Extremely sensitive Requires medical personnel, certification Repositioning nearly impossible Detection area may not be representative of entire muscle
Surface Electrodes Advantages Quick, easy to apply No medical supervision, required certification Minimal discomfort Disadvantages Generally used only for superficial muscles Cross-talk concerns No standard electrode placement May affect movement patterns of subject Limitations with recording dynamic muscle activity
General Concerns Signal-to-noise ratio Ratio of energy of EMG signal divided by energy of noise signal Distortion of the signal EMG signal should be altered as minimally as possible for accurate representation
Characteristics of EMG Signal  Amplitude range: 0–10 mV (+5 to -5) prior to amplification  Useable energy: Range of 0 - 500 Hz  Dominant energy: 30 – 200 Hz
Characteristics of Electrical Noise  Inherent noise in electronics equipment  Ambient noise  Motion artifact  Inherent instability of signal
Inherent Noise in Electronics Equipment  Generated by all electronics equipment  Frequency range: 0 – several thousand Hz  Cannot be eliminated  Reduced by using high quality components
Ambient Noise  Electromagnetic radiation sources Radio transmission Electrical wires Fluorescent lights  Dominant frequency: 60 Hz  Amplitude: 1 – 3x EMG signal  Essentially impossible to avoid
Motion Artifact  Two main sources Electrode/skin interface Electrode cable  Frequency range: 0 – 20 Hz  Reducible by proper circuitry and set-up
Inherent Instability of Signal  Amplitude is somewhat random in nature  Frequency range of 0 – 20 Hz is especially unstable  Therefore, removal of this range is recommended
Maximizing Quality of EMG Signal Signal-to-noise ratio Highest amount of information from EMG signal as possible Minimum amount of noise contamination As minimal distortion of EMG signal as possible No unnecessary filtering No distortion of signal peaks No notch filters recommended Ex: 60 Hz
End of Slide Show

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Electromyogram

  • 2. Introduction  Electromyogram (EMG) is a technique for evaluating and recording the activation signal of muscles.  EMG is performed by an electromyograph, which records an electromyogram.  Electromyograph detects the electrical potential generated by muscle cells when these cells contract and relax.
  • 3. Introduction  Electrical signals associated with the contraction of a muscular is called an electromyogram (EMG).  The study of EMG’s is called electromyography.
  • 4. History  1838 – Matteucci first describes the existence of electrical output from muscle.  1929 – introduction to coaxial needle electrode  It has been noted that the relaxing muscle doesn’t produce voltage, the EMG signals are generated in case of muscle contractions.
  • 5. EMG Signal Factors, which can influence the EMG signal:  Velocity of shortening or lengthening of the muscle  Fatigue;  Reflex activity.
  • 6.  Muscle Signals are Analog in nature.  EMG signals are also collected over a specific period of time. Analog Signal EMG Signal
  • 7. Electrical Characteristics  The electrical source is the muscle membrane potential of about -70mV.  Measured EMG potentials range between < 50 μV up to 20 to 30 mV, depending on the muscle under observation.  Typical repetition rate of muscle unit firing is about 7-20 Hz.
  • 9. EMG PROCEDURE  Clean the site of application of electrode;  Insert needle/place surface electrodes at muscle belly;  Record muscle activity at rest;  Record muscle activity upon voluntary contraction of the muscle.
  • 12. Amplification & Filtering Signal pick up Conversion of Analog signals to Digital signals Computer EMG Processing
  • 13. Applications of EMG  EMG can be used for diagnosis of Neurogenic or Myogenic Diseases.  Indicator for muscle activation/deactivation  Relationship of force/EMG signal  Use of EMG signal as a fatigue index
  • 14. Types of EMG Electrode Categories Inserted Fine-wire (Intra-muscular) Needle Surface
  • 15. Intramuscular - Needle Electrodes Extramuscular - Surface Electrodes Types of EMG
  • 16. Fine-wire Electrodes Advantages Extremely sensitive Record single muscle activity Access to deep musculature Little cross-talk concern Disadvantages Extremely sensitive Requires medical personnel, certification Repositioning nearly impossible Detection area may not be representative of entire muscle
  • 17. Surface Electrodes Advantages Quick, easy to apply No medical supervision, required certification Minimal discomfort Disadvantages Generally used only for superficial muscles Cross-talk concerns No standard electrode placement May affect movement patterns of subject Limitations with recording dynamic muscle activity
  • 18. General Concerns Signal-to-noise ratio Ratio of energy of EMG signal divided by energy of noise signal Distortion of the signal EMG signal should be altered as minimally as possible for accurate representation
  • 19. Characteristics of EMG Signal  Amplitude range: 0–10 mV (+5 to -5) prior to amplification  Useable energy: Range of 0 - 500 Hz  Dominant energy: 30 – 200 Hz
  • 20. Characteristics of Electrical Noise  Inherent noise in electronics equipment  Ambient noise  Motion artifact  Inherent instability of signal
  • 21. Inherent Noise in Electronics Equipment  Generated by all electronics equipment  Frequency range: 0 – several thousand Hz  Cannot be eliminated  Reduced by using high quality components
  • 22. Ambient Noise  Electromagnetic radiation sources Radio transmission Electrical wires Fluorescent lights  Dominant frequency: 60 Hz  Amplitude: 1 – 3x EMG signal  Essentially impossible to avoid
  • 23. Motion Artifact  Two main sources Electrode/skin interface Electrode cable  Frequency range: 0 – 20 Hz  Reducible by proper circuitry and set-up
  • 24. Inherent Instability of Signal  Amplitude is somewhat random in nature  Frequency range of 0 – 20 Hz is especially unstable  Therefore, removal of this range is recommended
  • 25. Maximizing Quality of EMG Signal Signal-to-noise ratio Highest amount of information from EMG signal as possible Minimum amount of noise contamination As minimal distortion of EMG signal as possible No unnecessary filtering No distortion of signal peaks No notch filters recommended Ex: 60 Hz