Biolistrik
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Transcript of Biolistrik
![Page 1: Biolistrik](https://reader036.fdocuments.us/reader036/viewer/2022062515/563db9f2550346aa9aa15768/html5/thumbnails/1.jpg)
Biolistrik
Irfiansyah Irwadi
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Outline
Bioelectricity • Action potential
@. Electrolyte @. depolarization@. RMP @. repolarization
• Electric signal recording@. Electrocardiograph (EKG)@. Electroencephalograph (EEG)@. Electromiograph (EMG)
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Action potential
- 70 mV
+30 mV
- 55 mV
- 0 mV
Firing level
depolarization
repolarization
Action potential
Overshoot
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Membran plasma
Lipid bilayer
Sifat : Semipermeabel
Fungsi : 1. Pemisah cairan ekstrasel dan intrasel2. Perlindungan bagian dalam sel terhadap lingkungannya3. Sarana transpor bahan-bahan yang akan masuk ke dalam sel atau
dikeluarkan oleh sel
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Membran plasma
Composition :1. Protein (55%)
2. Lemak – Fosfolipid (25%)– Kolesterol (13%)– Lipid lain (4%)
3. Karbohidrat (3%)– Glikoprotein– Glikoloipid
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Membran Sel
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Electrolyte ECF vs ICF
Ion Plasma Interstisial Intracellular Direction
Na + 142 139 14 In
Ca ++ 1,3 1,2 <<< In
K + 4,2 4 140 Out
CL - 108 108 <<< / 4 In
ICF : intra cellular fluid (cytoplasm)ECF : extra cellular fluid (plasma + interstitial)
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RMP (resting membrane potential)
• The difference of ion concentration between ECF & ICF electrial membrane gradient
• RMP = ± -70 till - 90 mv depend on cell
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RMP : ICF is more negative than ECF-70 till -90 mv
+ + + +
- - - -++
- -
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Stimulation
• Stimulation (electric or chemical) open voltage or ligand gated channel
• ECF & ICF is conected ion move influx or eflux increase or decrease membran potential
• Stimulation must be adequate, more than firing level
• Firing level : minimum intensity to stimulate depolarization
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Copyright © Allyn & Bacon 2004
Membrane Potentials
1. Resting
Potential (just
described)
2. Excitato
ry Post-
synaptic potential
threshold4.
Inhibitory Post-
synaptic potential
3. Action
Potential
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Excitatory Post-synaptic Potential (EPSP)
Post-synaptic neuron
Pre-synaptic neuron
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1. The pre-synaptic neuron releases a neurotransmitter.
2. Neurotransmitter diffuses across extra-cellular space - synaptic cleft.
3. Neurotransmitter binds to post-synaptic receptor.
4. Binding of neurotransmitter causes Na+ channels in post-synaptic membrane to open.
5. Depolarization occurs (excitatory potential)
Post-synaptic neuron
Pre-synaptic neuron
Excitatory Post-synaptic Potential (EPSP)
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14
OUTSIDE
INSIDE
K+ = Potassium; Na+ = Sodium; Cl- = Chloride; Pr- = proteins
Na+
Na+
K+
K+
Force of Diffusion
+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - -
Cl-
Force of Diffusion
Cl-
Pr-
Closedchannel
openchannel
openchannel
nochannel
OPEN Na+CHANNEL
+ + +
- 65 mV- 50 mV
1. Resting Membrane PotentialExcitatory Post-Synaptic Potential (EPSP)
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EPSP
• EPSP is a “graded” potential• Multiple EPSPs are integrated across
space and time.
Excitatory Post-synaptic potential
Integration
• Once the threshold is reached, voltage-dependent sodium channels are opened
• The cell is depolarized (action potential)
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Electric stimulation
Na+ channel opened
Na+Na+ channel
closed
Membrane
Cell
Fast response channel : fast opened and closed, ex : NaVoltage gated ion channel
Electric sensor
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Electric stimulation
K+ channel opened
K+
K+ channel closed
Membrane
Cell
Slow response channel : late in opened and closed, ex : Ca & KVoltage gated ion channel
Electric sensor
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Chemical stimulation
Cl- channel opened
Cl-
K+ channel closed
Membrane
Cell
Ligand gated channel, slow in response ex : ClChemical substance : GABA, benzodiazepine
receptor
Ligand
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Stimmulation↓
Fast natrium channel is opened↓
Natrium influx↓
membrane potential decrease↓
Depolarization↓
Fast natrium channel closed & Slow kalium channel opened
↓Kalium eflux
↓ membran potential back increase
↓repolarization
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Cl- ligand gated Channel complex
Cl-
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Action potential
- 70 mV
+30 mV
- 55 mV
- 0 mV
Firing level
depolarization
repolarization
Action potential
Overshoot
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Electrical stimulation : stimulate at the same time but in the different quick response
Fast response Slow response
Na channel open
depolarization
Ca channel open
Cl channel open
K channel open
repolarization
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Depolarization Vs Repolarization
• Depolarization : decrease in membrane potential, approaching zero (0 mv)
• Depolarization natrium influx
• Repolarization : increase in membrane potential, back to the RMP
• Repolarization kalium eflux
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After potential
Inwarding Na & outwarding K are trapped
↓Positif after potensial
↓Danger
↓Stimulate Na/K ATP ase pump
↓Active Transport
↓Decrease in Membrane
potential ~ RMP
RMP
FL
0
PRA PRR
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Refracted Periods
• Periods when cell become insensitive even stimulate again
• Refracted periods :
@. Absolute :
when depolarization
@. Relatif :
when repolarization, need higher intensity
RMP
FL
0
PRA PRR
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Hipopolarisasi
mvolt
- 55
- 70
Firing level
RMP
Hiperpolarisasi
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Propagation
• Conducting action potential through the membrane
• By stimulation on electric sensor of fast natrium channel
• So there is electrical conduction
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Plateau in action potential
Plateau delay on repolarization, which sign as steady state after depolarization Because of 2 factors : @ Delay on kalium channel opening or@ Slow natrium-calcium channel open (it only in cardiac and smooth muscle
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Action potential
• Spike• Neuron, skeletal
muscle
• Plateau• Cardiac muscle,
smooth muscle
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Cardiac muscle
StimulationNa–Ca channel
complex
Fast Na Channel open first
Slow Ca Channel
Open later
Quick depolarization
Plateau
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Chapter 4 Principles of Neural and Hormonal CommunicationHuman Physiology by Lauralee Sherwood ©2010 Brooks/Cole, Cengage Learning
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Electrical signal recording
EMG, EEG, EKG
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Electromiogram (EMG)
• record electrical signal from peripheral neuron and skeleltal muscle
• EMG consist of a protrude which administered to the muscle & completed by electrical stimulator
• EMG is used to measure function & diagnose neuron & muscle disturbaces, ex : myasthenia gravis, polio & paralysis
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Electroencefalogram (EEG)
• Record electrical signal from brain or CNS• EEG consist of some electrodes which putted in
head• EEG is used to evaluate brain function &
diagnose in brain disturbances, ex : sleep disorder & epilepsy
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Electrocardiogram (ECG)
• ECG record in cardiac electricity, depolarization & repolarization
• The recording is a result of electrical vector which in one direction
• These show cardiac axis and cardiac apex location
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Depend on electrode location ?
Depolarization/ repolarization ventrikel
Deflect +
Deflect -
Bifasic
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Elektrodes
• Unipolar
@. Augmented : aVR, aVL, aVF
@. Chest : V1-6
• Bipolar
Lead I
Lead II
Lead III
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Lead II recording
P wave atrium depol
qrs complex ventrikel depol
t waveVentrikel repol
Question :atrium Repol..?
Why t wave (Ventr repol) defleksi + ?