بنام خداوند عليم
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Transcript of بنام خداوند عليم
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Biopotentials and Electrophysiology
Measurement
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What are biopotentials
Biopotential: An electric potential that is measured between points in living cells, tissues, and organisms, and which accompanies all biochemical processes.
• Also describes the transfer of information between and within cells
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Mechanism behind biopotentials
• Concentration of potassium (K+) ions is 30-50 times higher inside as compared to outside
• Sodium ion (Na+) concentration is 10 times higher outside the membrane than inside
• In resting state the member is permeable only for potassium ions
Potassium flows outwards leaving an equal number of negative ions inside
Electrostatic attraction pulls potassium and chloride ions close to the membrane
Electric field directed inward formsElectrostatic force vs. diffusional force
• Nernst equation:
• Goldman-Hodgkin-Katz equation:
mVVm 100...70
ko
ki
kk c
c
Fz
RTV
,
,ln
CliClNaiNaKiK
CliClNaiNaKiK
km cPcPcP
cPcPcP
Fz
RTV
,,,
,,,ln
restmV ,mVVm 100...70
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Mechanism behind biopotentials • When membrane stimulation exceeds a
threshold level of about 20 mV, so called action potential occurs:1. Sodium and potassium ionic permeabilities
of the membrane change2. Sodium ion permeability increases very
rapidly at first, allowing sodium ions to flow from outside to inside, making the inside more positive
3. The more slowly increasing potassium ion permeability allows potassium ions to flow from inside to outside, thus returning membrane potential to its resting value
4. While at rest, the Na-K pump restores the ion concentrations to their original values
• The number of ions flowing through an open channel >106/sec
• Body is an inhomogeneous volume conductor and these ion fluxes create measurable potentials on body surface
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0 mV
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-80 mV
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-80 mV
+++ ++
+
+
--
-
--
-
- +
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-80 mV
[K+] = 135[Na+] = 7[Cl-] = 11A-
[K+] = 2.5[Na+] = 125
[Cl-] = 130A-
+++ ++
+
+
--
-
--
-
- +
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Example: Na+ and K+ channels
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The status of channels
The opening ofNa+ channel
Inactive of Na+ channel;Opening K+ channel
Closing of Na+ &K+ channels
The opening ofleakage channel
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Electrocardiography (ECG)
• Measures galvanically the electric activity of the heart• Well known and traditional, first measurements by
Augustus Waller using capillary electrometer (year 1887)• Very widely used method in clinical environment• Very high diagnostic value
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12-Lead ECG measurement
• Most widely used ECG measurement setup in clinical environment• Signal is measured non-invasively with 9 electrodes• Lots of measurement data and international reference databases• Well-known measurement and diagnosis practices• This particular method was adopted due to historical reasons, now it is
already rather obsolete
Einthoven leads: I, II & III Goldberger augmented leads: VR, VL & VF Precordial leads: V1-V6
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1. Atrial depolarization
2. Ventriculardepolarization
3. Ventricular repolarization
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ECG basics
• 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
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Electroencephalography (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
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EEG measurement setup• 10-20 Lead system is most
widely clinically accepted• Certain physiological
featuresare used as reference points
• Allow localization of diagnostic features in the vicinity of the electrode
• Often a readily available wire or rubber mesh is used
• Brain research utilizes even 256 or 512 channel EEG hats
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Electromyography (EMG)
• 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: 20-2000 Hz
• Main sources of errors are 50/60 Hz and RF interference
• Applications: muscle function, neuromuscular disease, prosthesis
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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
• Primary sources of error include skin potential and motion
• Applications: eye position, sleep state, vestibulo-ocular reflex
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FREQUENCIES OF BIOPOTENTIALS
Signal Frequency range (Hz) Amplitude range(mV)
ECG 0.01 – 100 0.05 – 3
EEG 0.1 – 80 0.001 – 1
EOG 0.01 – 10 0.001 – 0.3
EMG 50 – 3000 0.01 – 100
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