Biomedical Signals
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Nov 15, 2021
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About This Presentation
Characterization of Biomedical Signals
Slide Content
Introduction:
Characterization of
Biomedical
Signals
Biomedical Signal Processing
Characterization of
Biomedical
Signals
Biomedical Signal Processing
Chemical
Level
Organizational
Level
Tissue
Level
Organ
Level
Cellular
Level
System
Level
Level
Organizational
Level
Tissue
Level
Organ
Level
Cellular
Level
System
Level
Nature of
Biomedical Signals
Living organisms are made of many systems –e.g. human body:
Nervous, cardiovascular, gastrointestinal, endocrine, respiratory, etc.
Each system is made of subsystems (organs, tissues, etc.) that are responsible for certain
physiological processes
Cardiovascular system pumps blood to deliver nutrients to the body
Each physiological process is associated with certain types of signals that
reflect their nature and activities
Such signals can be of different types:
Biochemical --------hormones, neurotransmitters
Electrical ------------potentials, currents
Mechanical----------pressure, temperature
Any deviation of these signals from their normal parameters typically
represents a disease / disorders ---------pathological condition
Observing these signals and comparing them to their known norms, we can
often detect these pathological conditions
Biomedical Signals
Living organisms are made of many systems –e.g. human body:
Nervous, cardiovascular, gastrointestinal, endocrine, respiratory, etc.
Each system is made of subsystems (organs, tissues, etc.) that are responsible for certain
physiological processes
Cardiovascular system pumps blood to deliver nutrients to the body
Each physiological process is associated with certain types of signals that
reflect their nature and activities
Such signals can be of different types:
Biochemical --------hormones, neurotransmitters
Electrical ------------potentials, currents
Mechanical----------pressure, temperature
Any deviation of these signals from their normal parameters typically
represents a disease / disorders ---------pathological condition
Observing these signals and comparing them to their known norms, we can
often detect these pathological conditions
Some Commonly
Used Biomedical Signals
The action potential –mother of all biological signals
The electroneurogram (ENG)–propagation of nerve action potential
The electromyogram (EMG)–electrical activity of the muscle cells
The electrocardiogram (ECG)–electrical activity of the heart / cardiac cells
The electroencephalogram (EEG)–electrical activity of the brain
The electrogastogram (EGG)–electrical activity of the stomach
The phonocardiogram (PCG)–audio recording of the heart’s mechanical activity
The electoretinogram (ERG)–electrical activity of the retinal cells
The electrooculogram (EOG)–electrical activity of the eye muscles
Used Biomedical Signals
The action potential –mother of all biological signals
The electroneurogram (ENG)–propagation of nerve action potential
The electromyogram (EMG)–electrical activity of the muscle cells
The electrocardiogram (ECG)–electrical activity of the heart / cardiac cells
The electroencephalogram (EEG)–electrical activity of the brain
The electrogastogram (EGG)–electrical activity of the stomach
The phonocardiogram (PCG)–audio recording of the heart’s mechanical activity
The electoretinogram (ERG)–electrical activity of the retinal cells
The electrooculogram (EOG)–electrical activity of the eye muscles
The Action Potential
The action potential is the origin of all biopotentials
All biological signals of electrical origin are made up from integration of many
action potentials
The AP is the electrical signal that is generated by a single cell when it is
mechanically, electrically or chemically stimulated
It is the primary mechanism through which electrical signals propagate between
cells, tissues and organs.
It is due in part, to an electrochemical imbalance across the cell membrane, and in
part, due to selective permeability of the membrane to certain ions
• At resting state, the cell membrane is permeable to K+ and Cl-, but not to Na+
• Lots of Na+ trapped outside make the intracellular region electrically more negative,
with a resting membrane potential of -60 ~-80 mV
• When the cell is disturbed, ion channels across the membrane open up and allow an
influx of Na+ : depolarization inside of the cell becomes more positive: +20mV
• However, the channels close soon after, forcing the membrane potential back to its
resting stage:repolarization
• The change in membrane potential is the AP, which itself then stimulates the
neighboring cell, and starts the transmission of the APs
The action potential is the origin of all biopotentials
All biological signals of electrical origin are made up from integration of many
action potentials
The AP is the electrical signal that is generated by a single cell when it is
mechanically, electrically or chemically stimulated
It is the primary mechanism through which electrical signals propagate between
cells, tissues and organs.
It is due in part, to an electrochemical imbalance across the cell membrane, and in
part, due to selective permeability of the membrane to certain ions
• At resting state, the cell membrane is permeable to K+ and Cl-, but not to Na+
• Lots of Na+ trapped outside make the intracellular region electrically more negative,
with a resting membrane potential of -60 ~-80 mV
• When the cell is disturbed, ion channels across the membrane open up and allow an
influx of Na+ : depolarization inside of the cell becomes more positive: +20mV
• However, the channels close soon after, forcing the membrane potential back to its
resting stage:repolarization
• The change in membrane potential is the AP, which itself then stimulates the
neighboring cell, and starts the transmission of the APs
Computer aided diagnosis
Objective of biomedical signal
analysis
•Information gathering -measurement of phenomena to interpret a system.
•Diagnosis -detection of malfunction, pathology, or abnormality.
•Monitoring -obtaining continuous or periodic information about a system.
•Therapy and control -modification of the behavior of a system based upon
•the outcome of the activities listed above to ensure a specific result.
•Evaluation -objective analysis to determine the ability to meet functional
requirements, obtain proof of performance, perform quality control, or quantify
the effect of treatment.
analysis
•Information gathering -measurement of phenomena to interpret a system.
•Diagnosis -detection of malfunction, pathology, or abnormality.
•Monitoring -obtaining continuous or periodic information about a system.
•Therapy and control -modification of the behavior of a system based upon
•the outcome of the activities listed above to ensure a specific result.
•Evaluation -objective analysis to determine the ability to meet functional
requirements, obtain proof of performance, perform quality control, or quantify
the effect of treatment.
Thank you
The Electromyogram -EMG
The EMG is the graphic
representation of the
electrical activity of the
skeletal muscles –either
during resting stage, or in
response to stimulation
Unlike AP which is
measured on the cellular
level, the EMG is a
surface signal
obtained through surface
and/or needle electrodes
The EMG is the graphic
representation of the
electrical activity of the
skeletal muscles –either
during resting stage, or in
response to stimulation
Unlike AP which is
measured on the cellular
level, the EMG is a
surface signal
obtained through surface
and/or needle electrodes
•Measures the electric activity of active muscle fibers
•Electrodes are always connected very close to the muscle
group being measured
•Rectified and integrated EMG signal gives rough indication
of the muscle activity
•Needle electrodes can be used to measure individual muscle fibers
•Amplitude: 1-10 mV
•Bandwidth:20-3000 Hz
•Main sources of errors are 50/60 Hz and RF interference
•Applications: muscle function, neuromuscular disease, prosthesis
•Electrodes are always connected very close to the muscle
group being measured
•Rectified and integrated EMG signal gives rough indication
of the muscle activity
•Needle electrodes can be used to measure individual muscle fibers
•Amplitude: 1-10 mV
•Bandwidth:20-3000 Hz
•Main sources of errors are 50/60 Hz and RF interference
•Applications: muscle function, neuromuscular disease, prosthesis
EMG SIGNAL
The Electrocardiogram -ECG
ECG is the graphical recording of the
electrical activity of the heart
ECG can be obtained easily using
surface electrodes.
As with other electrical signals of
biological origin, it is the combination
of many
APs from different regions of the
heart that makes up the ECG
Its characteristic shape is widely
recognized.
Any abnormality in the cardiovascular
dynamics manifests itself as an
arrhythmia in the ECG
ECG is the graphical recording of the
electrical activity of the heart
ECG can be obtained easily using
surface electrodes.
As with other electrical signals of
biological origin, it is the combination
of many
APs from different regions of the
heart that makes up the ECG
Its characteristic shape is widely
recognized.
Any abnormality in the cardiovascular
dynamics manifests itself as an
arrhythmia in the ECG
1. Atrial
depolarization
2. Ventricular
depolarization
3. Ventricular repolarization
depolarization
2. Ventricular
depolarization
3. Ventricular repolarization
Electrocardiogram -ECG
ECG
•Amplitude: 1-5 mV
•Bandwidth:0.05-100 Hz
•Largest measurement error sources:
–Motion artifacts
–50/60 Hz powerline interference
•Typical applications:
–Diagnosis of ischemia
–Arrhythmia
–Conduction defects
•Amplitude: 1-5 mV
•Bandwidth:0.05-100 Hz
•Largest measurement error sources:
–Motion artifacts
–50/60 Hz powerline interference
•Typical applications:
–Diagnosis of ischemia
–Arrhythmia
–Conduction defects
The Electroencephalogram
EEG
•Measures the brain’s electric activity from the scalp
•Measured signal results from the activity of billions of neurons
•Amplitude:0.001-0.01 Mv
•Bandwidth:0.5-40 Hz
•Errors:
–Thermal RF noise
–50/60 Hz power lines
–Blink artifacts and similar
•Typical applications:
–Sleep studies
–Seizure detection
–Cortical mapping
EEG
•Measures the brain’s electric activity from the scalp
•Measured signal results from the activity of billions of neurons
•Amplitude:0.001-0.01 Mv
•Bandwidth:0.5-40 Hz
•Errors:
–Thermal RF noise
–50/60 Hz power lines
–Blink artifacts and similar
•Typical applications:
–Sleep studies
–Seizure detection
–Cortical mapping
EEG: Electrode Recording
System
•EEG recording is
done using a
standard lead
system called 10-
20 system
System
•EEG recording is
done using a
standard lead
system called 10-
20 system
10-20 International
Electrode Placement
Electrode Placement
The Electrooculogram
EOG
The EOG measures
the resting potential of
the retina. Unlike
ERG it is not recorded
in response to a
stimulus.
The EOG is often
used in recording the
eye-movements
EOG
The EOG measures
the resting potential of
the retina. Unlike
ERG it is not recorded
in response to a
stimulus.
The EOG is often
used in recording the
eye-movements
Electrooculography (EOG)
•Electric potentials are created as a result
of the movement of the eyeballs
•Potential varies in proportion to the
amplitude of the movement
•In many ways a challenging measurement
with some clinical value
•Amplitude: 0.01-0.1 mV
•Bandwidth:DC-10 Hz
•Electric potentials are created as a result
of the movement of the eyeballs
•Potential varies in proportion to the
amplitude of the movement
•In many ways a challenging measurement
with some clinical value
•Amplitude: 0.01-0.1 mV
•Bandwidth:DC-10 Hz
•Primary sources of error include skin
potential and motion
•Applications: eye position, sleep state,
vestibulo-ocular reflex
potential and motion
•Applications: eye position, sleep state,
vestibulo-ocular reflex
EOG RECORDING
Vertical recording Horizontal recording
Vertical recording Horizontal recording
The Event Related
Potentials -ERPs
ERPs are really EEGs obtained under a specific
protocol that requires the patient to response to
certain stimuli –hence event related potentials.
Also called evoked potentials these signals can
be used to diagnose certain neurological
disorders.
they can also be used as a lie detector
Potentials -ERPs
ERPs are really EEGs obtained under a specific
protocol that requires the patient to response to
certain stimuli –hence event related potentials.
Also called evoked potentials these signals can
be used to diagnose certain neurological
disorders.
they can also be used as a lie detector
Electroretinogram
ERG
The ERG is the record of the
retinal action currents
produced by the retina in
response to a light stimulus.
It measures the electrical
responses of the light-sensitive
cells (such as rods and cones).
The stimuli are often a series
of light flashes or rotating
patterns
The ERG is recorded using
contact lens electrode that the
subject wears while watching
the stimuli.
ERG
The ERG is the record of the
retinal action currents
produced by the retina in
response to a light stimulus.
It measures the electrical
responses of the light-sensitive
cells (such as rods and cones).
The stimuli are often a series
of light flashes or rotating
patterns
The ERG is recorded using
contact lens electrode that the
subject wears while watching
the stimuli.
Baseline drift due to the
changes in junction
potential or motion artifacts
Choice of electrodes
Electromagnetic
interference
Shielding
ARTIFACT (Interference)
Muscle signal
interference
Placement
changes in junction
potential or motion artifacts
Choice of electrodes
Electromagnetic
interference
Shielding
ARTIFACT (Interference)
Muscle signal
interference
Placement
PHYSIOLOGICAL INTERFERENCE
ECG with EMG interference
ECG with EMG interference
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