2009
DOI: 10.1007/s10867-009-9158-8
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A critical assessment of the information processing capabilities of neuronal microtubules using coherent excitations

Abstract: Evidence for signaling, communication, and conductivity in microtubules (MTs) has been shown through both direct and indirect means, and theoretical models predict their potential use in both classical and quantum information processing in neurons. The notion of quantum information processing within neurons has been implicated in the phenomena of consciousness, although controversies have arisen in regards to adverse physiological temperature effects on these capabilities. To investigate the possibility of qua… Show more

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Cited by 31 publications
(18 citation statements)
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“…Those faster oscillations could be the result of the much higher stiffness of MT bundles in Taxol-stabilised solutions. Further work is required to evaluate the possibility of integration of nano-seconds scale spiking in MT network into milli-seconds range spiking of neurons to understand better how exactly the MT oscillation can contribute to neuronal activity and information processing [16,49].…”
Section: Discussionmentioning
confidence: 99%
“…Those faster oscillations could be the result of the much higher stiffness of MT bundles in Taxol-stabilised solutions. Further work is required to evaluate the possibility of integration of nano-seconds scale spiking in MT network into milli-seconds range spiking of neurons to understand better how exactly the MT oscillation can contribute to neuronal activity and information processing [16,49].…”
Section: Discussionmentioning
confidence: 99%
“…Further aspects for future research related to the topics discussed in this review paper would be, for example, investigating the link between the discussed electrical/electromagnetic processes in the brain and possible electromagnetic and quantum physical processes in components of the cytoskeleton (Craddock and Tuszynski, 2010;Craddock et al, 2012;Saha et al, 2012;Pothos and Busemeyer, 2013;Hameroff, 2014;Havelka et al, 2014). Regarding the propagation of electromagnetic fields inside subcellular and cellular structures, mitochondria might facilitate cable-like connection as already proposed by Thar and Kühl (Thar and Kühl, 2004).…”
Section: Summary Conclusion and Outlookmentioning
confidence: 80%
“…Parameters The radius of the MT can be estimated as, R ≈ 11.2 nm [19,22]. The unit cell shown in Fig.…”
Section: )mentioning
confidence: 99%
“…(Color online) Tubulin neighborhood in the hexagonal unit cell of the microtubule. The distance between dimers is d. The heterodimer helix direction is defined by the height, h. The typical values of parameters are: a = 8 nm, b = 5.87 nm, c = 7.02 nm, d = 5 nm, h = 4.9 nm, θ1 = 0, θ2 = 58.2 o , θ3 = 45.58 o[7,19,20,22] .…”
mentioning
confidence: 99%