Modelling of axonal fields in the optic nerve for direct MR detection studies
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摘要
A number of studies have now shown that direct detection of neuronal firing by MRI may be possible. The optic nerve carries all visual information from the eye to the brain and is a particularly promising target for these measurements. However, it has been assumed that the effects of axonal firing may not be detectable, as a single firing event produces a bipolar waveform of around 1 ms duration whose effects should cancel on MR. A simulation of the magnetic modulation which could feasibly be produced by the optic nerve over an extended period and with different firing rates has been developed. The Hodgkin–Huxley equations were calculated for an array of model ganglion cell axons which were assumed to act as voltage to pulse frequency converters. Dependence of the modulating waveform on relative action potential firing start time was investigated. Although the simulated waveforms were bipolar at the beginning, during the period of MR acquisition the different frequencies combine to produce a largely positive waveform. The simulation included only contrast luminance changes and not color, spatial correlations or other more sophisticated processing in the retina. A gradient echo sequence was used at 3 T to create images for analysis by the ghost reconstructed alternating current estimation (GRACE) method from phantoms subject to current modulation by the actual modelled axonal waveforms. The optic nerve was also imaged using the same method during visual stimulus by a strobe light in adult human volunteers at 3 T. Analysis of digitized video recordings of eye locations during strobe stimulation outside the magnet showed no correlation with the applied strobe frequency over the short duration of the scans. Images of the optic nerves at an echo time of TE = 39 ms had weak but significant first harmonic ghosts in locations consistent with the applied stimulus as calculated from GRACE theory in just two out of thirteen studies on 10 volunteers and a detection rate of only 15% providing no clear evidence for direct detection in these experiments.
论文关键词:GRACE,ghost reconstructed alternating current estimation,TE,echo time (ms),TR,repeat time (ms),MR,magnetic resonance,LGN,lateral geniculate nucleus,HH,Hodgkin–Huxley,3T,3 Tesla,USA,United States of America,Im,membrane current,Cm,membrane capacitance,dV/dt,rate of change of voltage with time,INa,sodium ion current,IK,potassium ion current,ICl,chloride ion current,VNa,sodium ion voltage,VK,potassium ion voltage,VCl,chloride ion voltage,gNa,sodium ion channel conductance,gK,potassium ion channel conductance,gCl,chloride ion channel conductance,mS/cm2,milli-Siemens per square centimetre,μF/cm2,micro-Farads per square centimetre,mV,milli-volts,m, n, h,gating parameters,dm/dt, dn/dt, dh/t,rate of change of gating parameters,αm, αn, αh,empirical functions of voltage V,βm, βn, βh,empirical functions of voltageV,Δϕ,phase change of MR signal,γ,gyromagnetic ratio,B(t),modulating axonal magnetic field,μ0,permeability of free space,I(t),axonal current,fm,frequency of axonal current,ts,sampling time,r,distance,Δs,Ghost distance from object,S,MR Signal,Jn,nth Bessel Function,Σ,summation,t,time,β,modulation index,2D,two dimensional,SLT,slice thickness (mm),FOV,field of view (mm),NEX,number of excitations,D-A,digital to analogue,μS,micro second,FA,flip angle,PC,personal computer,μA,micro amp,nT,nano-Tesla,B0,main magnetic field,SNR,signal to noise ratio,M,male,F,female,ROI,region of interest,Hz, Hertz;dB,decibel,T1,longitudinal relaxation time (ms),SENSE,sensitivity encoding,Fps,frames per second,EPI,echo planar imaging,BOLD,blood oxygen level dependent,Optic nerve,Axonal waveform,Direct MR detection,Neuronal firing,Axonal firing,Hodgkin–Huxley equations,Direct neuronal detection,MRI
论文评审过程:Received 10 January 2007, Revised 29 November 2007, Accepted 3 May 2008, Available online 20 May 2008.
论文官网地址:https://doi.org/10.1016/j.imavis.2008.05.001