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Location: Hungary, Budapest
Work: István Bókkon: Chemical and bioengineer, PhD doctorandus at Semmelweis University, Member of the Hungarian Biochemical Society, Member of the Editorial Board of Activitas Nervosa Superior, Associate professor at Vision Research Institute, 428 Great Road Suite 11, Acton, MA 01720 USA I deal with the natural biophysical substrate of visual perception and visual imagery.The main goal of my research is to prove that intrinsic pictures can be emerged by redox and biophoton processes in retinotopically organized cytochrome oxidase rich neurons of visual areas during visual imagery, visual hallucination, and REM dream pictures within the brain. You can download and read some of my papers on this website. I do not claim to solve the secret of consciousness, but propose that the evolution in the higher levels of complexity made possible the intrinsic picture representation of the external visual world by regulated redox and bioluminescent biophotons in the visual system during visual perception and visual imagery. Please, send me an email if you are interested in any collaboration! Contact: bokkoni@yahoo.com Recently we presented (Wang, Bókkon et al. 2011 Brain Res.) the first experimental evidence for the existence of spontaneous and visible light induced ultraweak biophoton emission from in vitro freshly isolated rat’s whole eye, lens, vitreous humor and retina. These results support that the photochemical source of retinal discrete noise as well as retinal phosphenes could be originated from natural bioluminescent photons within the eyes. Soon we publish a new paper that proves that ocular mechanical pressure can induce biophoton emission from in vitro freshly isolated rat’s whole eye. It seems that retinal phosphenes really due to the biophotons. Since retinal and cortical induced phosphenes are required to have a common molecular biophysical basis, if it can be demonstrated that perception of cortical induced phosphenes is due to bioluminescent photons, intrinsic regulated biophotons in early retinotopic visual system can be seen to serve as a natural biophysical substrate of visual perception and imagery. I am looking for supporters to my researches! Papers: •Bókkon I, Vimal RLP (2011) Subliminal afterimages via ocular delayed luminescence: visual saccades and color illusion. Submitted to J Integr Neurosci. •Bókkon I, Vimal RLP, Wang C, Dai J, Salari V, Grass F, Antal I. (2011) Visible light induced ocular delayed bioluminescence as a possible origin of negative afterimage. J. Photochem. Photobiol. B Biology. 103, 192–199. •Rahnama M, Tuszynski J, Bókkon I, Cifra M, Sardar P, Salari V. (2011) Emission of mitochondrial biophotons and their effect on electrical activity of membrane via microtubules. J Integr Neurosci. 10, 65-88. •Wang C, Bókkon I, Dai J, Antal I. (2011) First experimental demonstration of spontaneous and visible light-induced photon emission from rat eyes. Brain Res. 1369. 1-9. •Bókkon I, Salari V, Tuszynski J. (2011) Emergence of intrinsic representations of images by feedforward and feedback processes and bioluminescent photons in early retinotopic areas (Toward biophysical homunculus by an iterative model). J Integr Neurosci. 10, 47-64. •Bókkon I, Antal I. (2011) Schizophrenia: redox regulation and volume transmission. Current Neuropharmacology 12, 289-300. •Bókkon I, Salari V, Tuszynski J, Antal I. (2010) Estimation of the number of biophotons involved in the visual perception of a single-object image: Biophoton intensity can be considerably higher inside cells than outside J. Photochem. Photobiol. B Biology 100, 160-166. •Bókkon I, Vimal RLP. (2010). Implications on visual apperception: energy, duration, structure and synchronization. BioSystems 101, 1-9. • Bókkon I, Dai J, Antal I. (2010) Picture representation during REM dreams: A redox molecular hypothesis. BioSystems. 100, 79-86. •Bókkon I, D'Angiulli A. (2009) Emergence and transmission of visual awareness through optical coding in the brain: A redox molecular hypothesis on visual mental imagery. Bioscience Hypotheses 2, 226-232. •Bókkon I, Vimal RLP. (2009) Retinal phosphenes and discrete dark noises in rods: a new biophysical framework. J. Photochem. Photobiol. B Biology. 96, 255-259. •Bókkon I. (2009) Visual perception and imagery: a new hypothesis. BioSystems 96, 178-184. •Bókkon I. (2008) Phosphene phenomenon: a new concept. BioSystems 92, 168-174. •Bókkon I. (2005) Dreams and Neuroholography: An interdisciplinary interpretation of development of homeotherm state in evolution. Sleep and Hypnosis 7, 61-76. •Bókkon I. Salari V. (2010) Information storing by biomagnetites. Journal of Biological Physics. 36, 109-120. •Banaclocha MA, Bókkon I, Banaclocha HM. (2010) Long-term memory in brain magnetite. Medical Hypotheses. 74, 254-257.
Biographical: Contact: bokkoni@yahoo.com
Favourite Publications: • Bókkon I, Vimal RLP, Wang C, Dai J, Salari V, Grass F, Antal I. (2011) Visible light induced ocular delayed bioluminescence as a possible origin of negative afterimage. J. Photochem. Photobiol. B Biology. Under revision • Bókkon I, Till A, Grass F, Erdöfi-Szabó A (2011) Phantom pain reduction by electromagnetic treatment. Electromagnetic Biology and Medicine. In press • Rahnama M, Tuszynski J, Bókkon I, Cifra M, Sardar P, Salari V. (2011) Emission of mitochondrial biophotons and their effect on electrical activity of membrane via microtubules. J Integr Neurosci. 10, 65-88. • Wang C, Bókkon I, Dai J, Antal I. (2011) First experimental demonstration of spontaneous and visible light-induced photon emission from rat eyes. Brain Res. 1369. 1-9. • Bókkon I, Salari V, Tuszynski J. (2011) Emergence of intrinsic representations of images by feedforward and feedback processes and bioluminescent photons in early retinotopic areas (Toward biophysical homunculus by an iterative model). J Integr Neurosci. 10, 47-64. • Bókkon I, Antal I. (2011) Schizophrenia: redox regulation and volume transmission. Current Neuropharmacology 8, Doi: 10.2174/157021112345671159X IF: 1,751 • Bókkon I, Salari V, Tuszynski J, Antal I. (2010) Estimation of the number of biophotons involved in the visual perception of a single-object image: Biophoton intensity can be considerably higher inside cells than outside J. Photochem. Photobiol. B Biology 100, 160-166. • Bókkon I, Vimal RLP. (2010). Implications on visual apperception: energy, duration, structure and synchronization. BioSystems 101, 1-9. • Bókkon I, Dai J, Antal I. (2010) Picture representation during REM dreams: A redox molecular hypothesis. BioSystems. 100, 79-86. • Bókkon I, Vimal RLP. (2009) Retinal phosphenes and discrete dark noises in rods: a new biophysical framework. J. Photochem. Photobiol. B Biology. 96, 255-259. • Bókkon I. Kirby M, D’Angiulli A. (2009) TMS, phosphenes and visual mental imagery: A mini-review and a theoretical framework. Nature Precedings http://dx.doi.org/10.1038/npre.2009.3244.1 • Bókkon I. (2009) Visual perception and imagery: a new hypothesis. BioSystems 96, 178-184. • Bókkon I, D'Angiulli A. (2009) Emergence and transmission of visual awareness through optical coding in the brain: A redox molecular hypothesis on visual mental imagery. Bioscience Hypotheses 2, 226-232. • Banaclocha MA, Bókkon I, Banaclocha HM. (2010) Long-term memory in brain magnetite. Medical Hypotheses. 74, 254-257. • Bókkon I. Salari V. (2010) Information storing by biomagnetites. Journal of Biological Physics. 36, 109-120. • Bókkon I. (2008) Phosphene phenomenon: a new concept. BioSystems 92, 168-174. • Bókkon I. (2006) Dream pictures, neuroholography and the laws of physics. Journal of Sleep Research. Vol. 15, Supplement I. Abstract. p:187. • Bókkon I. (2005) Dreams and Neuroholography: An interdisciplinary interpretation of development of homeotherm state in evolution. Sleep and Hypnosis 7, 61-76. • Bókkon I. (2007) A víz több, mint pusztán H2O. (Water is more than just H2O)
Work: István Bókkon: Chemical and bioengineer, PhD doctorandus at Semmelweis University, Member of the Hungarian Biochemical Society, Member of the Editorial Board of Activitas Nervosa Superior, Associate professor at Vision Research Institute, 428 Great Road Suite 11, Acton, MA 01720 USA I deal with the natural biophysical substrate of visual perception and visual imagery.The main goal of my research is to prove that intrinsic pictures can be emerged by redox and biophoton processes in retinotopically organized cytochrome oxidase rich neurons of visual areas during visual imagery, visual hallucination, and REM dream pictures within the brain. You can download and read some of my papers on this website. I do not claim to solve the secret of consciousness, but propose that the evolution in the higher levels of complexity made possible the intrinsic picture representation of the external visual world by regulated redox and bioluminescent biophotons in the visual system during visual perception and visual imagery. Please, send me an email if you are interested in any collaboration! Contact: bokkoni@yahoo.com Recently we presented (Wang, Bókkon et al. 2011 Brain Res.) the first experimental evidence for the existence of spontaneous and visible light induced ultraweak biophoton emission from in vitro freshly isolated rat’s whole eye, lens, vitreous humor and retina. These results support that the photochemical source of retinal discrete noise as well as retinal phosphenes could be originated from natural bioluminescent photons within the eyes. Soon we publish a new paper that proves that ocular mechanical pressure can induce biophoton emission from in vitro freshly isolated rat’s whole eye. It seems that retinal phosphenes really due to the biophotons. Since retinal and cortical induced phosphenes are required to have a common molecular biophysical basis, if it can be demonstrated that perception of cortical induced phosphenes is due to bioluminescent photons, intrinsic regulated biophotons in early retinotopic visual system can be seen to serve as a natural biophysical substrate of visual perception and imagery. I am looking for supporters to my researches! Papers: •Bókkon I, Vimal RLP (2011) Subliminal afterimages via ocular delayed luminescence: visual saccades and color illusion. Submitted to J Integr Neurosci. •Bókkon I, Vimal RLP, Wang C, Dai J, Salari V, Grass F, Antal I. (2011) Visible light induced ocular delayed bioluminescence as a possible origin of negative afterimage. J. Photochem. Photobiol. B Biology. 103, 192–199. •Rahnama M, Tuszynski J, Bókkon I, Cifra M, Sardar P, Salari V. (2011) Emission of mitochondrial biophotons and their effect on electrical activity of membrane via microtubules. J Integr Neurosci. 10, 65-88. •Wang C, Bókkon I, Dai J, Antal I. (2011) First experimental demonstration of spontaneous and visible light-induced photon emission from rat eyes. Brain Res. 1369. 1-9. •Bókkon I, Salari V, Tuszynski J. (2011) Emergence of intrinsic representations of images by feedforward and feedback processes and bioluminescent photons in early retinotopic areas (Toward biophysical homunculus by an iterative model). J Integr Neurosci. 10, 47-64. •Bókkon I, Antal I. (2011) Schizophrenia: redox regulation and volume transmission. Current Neuropharmacology 12, 289-300. •Bókkon I, Salari V, Tuszynski J, Antal I. (2010) Estimation of the number of biophotons involved in the visual perception of a single-object image: Biophoton intensity can be considerably higher inside cells than outside J. Photochem. Photobiol. B Biology 100, 160-166. •Bókkon I, Vimal RLP. (2010). Implications on visual apperception: energy, duration, structure and synchronization. BioSystems 101, 1-9. • Bókkon I, Dai J, Antal I. (2010) Picture representation during REM dreams: A redox molecular hypothesis. BioSystems. 100, 79-86. •Bókkon I, D'Angiulli A. (2009) Emergence and transmission of visual awareness through optical coding in the brain: A redox molecular hypothesis on visual mental imagery. Bioscience Hypotheses 2, 226-232. •Bókkon I, Vimal RLP. (2009) Retinal phosphenes and discrete dark noises in rods: a new biophysical framework. J. Photochem. Photobiol. B Biology. 96, 255-259. •Bókkon I. (2009) Visual perception and imagery: a new hypothesis. BioSystems 96, 178-184. •Bókkon I. (2008) Phosphene phenomenon: a new concept. BioSystems 92, 168-174. •Bókkon I. (2005) Dreams and Neuroholography: An interdisciplinary interpretation of development of homeotherm state in evolution. Sleep and Hypnosis 7, 61-76. •Bókkon I. Salari V. (2010) Information storing by biomagnetites. Journal of Biological Physics. 36, 109-120. •Banaclocha MA, Bókkon I, Banaclocha HM. (2010) Long-term memory in brain magnetite. Medical Hypotheses. 74, 254-257.
Biographical: Contact: bokkoni@yahoo.com
Favourite Publications: • Bókkon I, Vimal RLP, Wang C, Dai J, Salari V, Grass F, Antal I. (2011) Visible light induced ocular delayed bioluminescence as a possible origin of negative afterimage. J. Photochem. Photobiol. B Biology. Under revision • Bókkon I, Till A, Grass F, Erdöfi-Szabó A (2011) Phantom pain reduction by electromagnetic treatment. Electromagnetic Biology and Medicine. In press • Rahnama M, Tuszynski J, Bókkon I, Cifra M, Sardar P, Salari V. (2011) Emission of mitochondrial biophotons and their effect on electrical activity of membrane via microtubules. J Integr Neurosci. 10, 65-88. • Wang C, Bókkon I, Dai J, Antal I. (2011) First experimental demonstration of spontaneous and visible light-induced photon emission from rat eyes. Brain Res. 1369. 1-9. • Bókkon I, Salari V, Tuszynski J. (2011) Emergence of intrinsic representations of images by feedforward and feedback processes and bioluminescent photons in early retinotopic areas (Toward biophysical homunculus by an iterative model). J Integr Neurosci. 10, 47-64. • Bókkon I, Antal I. (2011) Schizophrenia: redox regulation and volume transmission. Current Neuropharmacology 8, Doi: 10.2174/157021112345671159X IF: 1,751 • Bókkon I, Salari V, Tuszynski J, Antal I. (2010) Estimation of the number of biophotons involved in the visual perception of a single-object image: Biophoton intensity can be considerably higher inside cells than outside J. Photochem. Photobiol. B Biology 100, 160-166. • Bókkon I, Vimal RLP. (2010). Implications on visual apperception: energy, duration, structure and synchronization. BioSystems 101, 1-9. • Bókkon I, Dai J, Antal I. (2010) Picture representation during REM dreams: A redox molecular hypothesis. BioSystems. 100, 79-86. • Bókkon I, Vimal RLP. (2009) Retinal phosphenes and discrete dark noises in rods: a new biophysical framework. J. Photochem. Photobiol. B Biology. 96, 255-259. • Bókkon I. Kirby M, D’Angiulli A. (2009) TMS, phosphenes and visual mental imagery: A mini-review and a theoretical framework. Nature Precedings http://dx.doi.org/10.1038/npre.2009.3244.1 • Bókkon I. (2009) Visual perception and imagery: a new hypothesis. BioSystems 96, 178-184. • Bókkon I, D'Angiulli A. (2009) Emergence and transmission of visual awareness through optical coding in the brain: A redox molecular hypothesis on visual mental imagery. Bioscience Hypotheses 2, 226-232. • Banaclocha MA, Bókkon I, Banaclocha HM. (2010) Long-term memory in brain magnetite. Medical Hypotheses. 74, 254-257. • Bókkon I. Salari V. (2010) Information storing by biomagnetites. Journal of Biological Physics. 36, 109-120. • Bókkon I. (2008) Phosphene phenomenon: a new concept. BioSystems 92, 168-174. • Bókkon I. (2006) Dream pictures, neuroholography and the laws of physics. Journal of Sleep Research. Vol. 15, Supplement I. Abstract. p:187. • Bókkon I. (2005) Dreams and Neuroholography: An interdisciplinary interpretation of development of homeotherm state in evolution. Sleep and Hypnosis 7, 61-76. • Bókkon I. (2007) A víz több, mint pusztán H2O. (Water is more than just H2O)