Simulating Hodgkin-Huxley-like Excitation using Comsol ... · Simulating Hodgkin-Huxley-like...
Transcript of Simulating Hodgkin-Huxley-like Excitation using Comsol ... · Simulating Hodgkin-Huxley-like...
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Simulating Hodgkin-Huxley-like Excitation
using Comsol Multiphysics
Martinek1,2, Stickler2 , Reichel1 and Rattay2
1 Department of Biomedical Engineering and Environmental Management, University of Applied Sciences Technikum Wien, Vienna, Austria
2 Institute for Analysis and Scientific Computing, Vienna University of Technology, Austria
Presented at the COMSOL Conference 2008 Hannover
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Large Surface Electrodes
Long Impulses
Spastic Paralysis
Flaccid ParalysisDenervation
Goal of Simulation – Clinical View
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Goal of Simulation - Modeling View• Model of Single Fiber▫Hodgkin-Huxley
• Electrical Field Distribution
• Coupling▫ Reaction of fiber in external Electrical Field
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History of Hodgkin-Huxley Model
• Hodgkin and Huxley experimented on squid giant axon and explored how the Action Potential is produced in the (nerve) fiber (Journal of Physiology, 1952)
• Hodgkin and Huxley awarded the 1963 Nobel Prize for the model
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internal
external
gNagKgL Cm Vm
internal
external
ENaEKEL
The muscle fiber - membrane
membrane
extracellular medium
intracellular medium
KNA
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internal
external
gNagKgL Cm Vm
internal
external
ENaEKEL
Hodgkin-Huxley PDE
)()()(2
432
2
LLKNam VVgVVngVVhmgxVr
dtdVC KNa −−−−−−
∂∂
=ρ
Leakage and PotassiumNatrium, of econductanc…, , ,spacelar intracellu of resistance…
axon of radius…membrane of ecapacitanc…
LKNa ggg
rCm
ρ
h)or n m, is (w )1(dtdw ww ww βα −−=
LKNAextm IIIIdtdVC +++=
System of 1 non-linear and 3 linear differential equations
System of 1 non-linear and 3 linear differential equations
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1D muscle fiber model
muscle fiber (HH-model)
stimulation impulse
App. Mode PDE – Coeff. Form
Dimension 1D
Dep. Variables 4: V, m, n, h
N. of Elements 200
Solver Direct (UMFPACK) Time dependent (0:0.1:10)
rel. Tolerance 10e-5
abs. T0lerance 10e-7
Solution Time <30 sec
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1D muscle fiber
change of radius
action potential and gating variables
Results are comparable to e.g. „Hodgkin AL, Huxley AF, A quantitative description of membrane current and its application to conduction and excitation in nerve, J Physiol, 117, 500-544 (1952)”
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2D model
Point Source
Muscle fiber (1D modell)
tissue properties (e.g. musclulature)
coupling )()()(
243
2
2
LLKNa VVgVVngVVhmgxVa
dtdVC KNa −−−−−−
∂∂
=ρ
Surface electrodes(Dirichlet Boundary
Conditions)
0)( =⎟⎠⎞
⎜⎝⎛
∂∂
∇∇−∇∇−t
VV ee εσ
App. Mode PDE – Coeff. Form
Dimension 2D & 1D
Dep. Variables
4 (1D): Vi, m, n, h1 (2D): Ve
N. of Elements
1D: 2002D: ca. 12000
Solver Direct (UMFPACK) Time dependent (0:0.1:10)
rel. Tolerance 10e-5
abs. T0lerance
10e-7
Solution Time
<600 sec
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2D model – Coupling („real life“)muscle fiber
1.
2.
3.4.
cou
pli
ng
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2D model - Coupling („model“)
0)( =⎟⎠⎞
⎜⎝⎛
∂∂
∇∇−∇∇−t
VV ee εσ
)()()(2
432
2
LLKNa VVgVVngVVhmgxVa
dtdVC KNa −−−−−−
∂∂
=ρ
Rrestei VVVV −−=
)90( Potential Resting ....Potentiallar intracellu ....
mVVV
Rrest
i
−≈
1D FiberHH-PDE
2D AreaPDE Coeff. Form
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2D model – Animation
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2D model results
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2D model – 2 fibers
Point Source
Muscle fiber
tissue properties (e.g. musclulature)
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2D model – 2 fibers
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2D model – Influence of fibers
1 mV
-1 mV
„active Fiber“: recoupled„inactive Fiber“: not recoupled
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Influence of electrodes position
Time from stimulation impulse till an action potential is initiated. The diagram shows the excitation time of different electrode positions at the surface and implanted electrodes. The red line represents the fiber placed closer to the electrodes. The blue line is representing the more distant fiber.
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Outlook – 3D model
App. Mode PDE – Coeff. Form
Dimension 3D & 1D
Dep. Variables
4 (1D): Vi, m, n, h1 (3D): Ve
N. of Elements
1D: 2003D: ca. 30000
Solver Different solversTime dependent (0:0.1:10)
rel. Tolerance 10e-5
abs. T0lerance
10e-7
Solution Time
Very long
Surface electrodes(Dirichlet Boundary
Conditions)
Fiber (Edge)
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Future Work
• Adaption of model parameters (denervated muscle, ….)
• Implementation of musclepaths ?• Creation of 3D geometry (CT / MRI based ?)• ……
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Conclusion / Discussion• HH PDE & Comsol Multiphysics are
a great combination to▫ Easily create models with different geometries▫ Coupling of extracellular and intracellular
potential in both directions▫ Simulation of effects of stimulation and
generated action potentials
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Questions ?!?
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Thank you for your attention !!!