Quantum and Electromagnetic Fields in Our Universe and Brain: A New Perspective to Comprehend Brain Function

Idris, Zamzuri; Zakaria, Zaitun; Yee, Ang Song; Fitzrol, Diana Noma; Ghani, Abdul Rahman Izaini; Abdullah, Jafri Malin; Hassan, Wan Mohd Nazaruddin Wan; Hassan, Mohd Hasyizan; Manaf, Asrulnizam Abdul; Heng, Raymond Ooi Chong

doi:10.3390/brainsci11050558

Cited by 10 publications

(7 citation statements)

References 35 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Finally, could the rapid changes in brainwaves when light is shone on the brain be due to the fundamental brain itself? Indeed, the anatomical brain can also be viewed as waves of energy (i.e., the duality of a particle as either a particle or waves), as highlighted by us in a new perspective for comprehending brain function, where the anatomical brain is viewed as a package of energy or a quantum brain, rather than particles or an anatomical object (Newtonian brain) [37][38][39]. The presence of a temperature gradient is related closely to brainwaves and information processing inside the brain.…”

Section: Physics Perspective On Direct Light Energy Onto the Brainmentioning

confidence: 99%

Light and the Brain: A Clinical Case Depicting the Effects of Light on Brainwaves and Possible Presence of Plasma-like Brain Energy

Idris,

Zakaria,

Yee

et al. 2024

Brain Sciences

Self Cite

View full text Add to dashboard Cite

Light is an electromagnetic radiation that has visible and invisible wavelength spectrums. Visible light can only be detected by the eyes through the optic pathways. With the presence of the scalp, cranium, and meninges, the brain is seen as being protected from direct exposure to light. For that reason, the brain can be viewed as a black body lying inside a black box. In physics, a black body tends to be in thermal equilibrium with its environment and can tightly regulate its temperature via thermodynamic principles. Therefore, a healthy brain inside a black box should not be exposed to light. On the contrary, photobiomodulation, a form of light therapy for the brain, has been shown to have beneficial effects on some neurological conditions. The proposed underlying mechanisms are multiple. Herein, we present our intraoperative findings of rapid electrocorticographic brainwave changes when the brain was shone directly with different wavelengths of light during awake brain surgery. Our findings provide literature evidence for light’s ability to influence human brain energy and function. Our proposed mechanism for these rapid changes is the presence of plasma-like energy inside the brain, which causes fast brain activities that are akin to lightning strikes.

show abstract

Section: Physics Perspective On Direct Light Energy Onto the Brainmentioning

confidence: 99%

Light and the Brain: A Clinical Case Depicting the Effects of Light on Brainwaves and Possible Presence of Plasma-like Brain Energy

Idris,

Zakaria,

Yee

et al. 2024

Brain Sciences

Self Cite

View full text Add to dashboard Cite

show abstract

“…We scored the rigor and reproducibility of the included manuscripts using the ARRIVE guidelines 2.0. 31 Two independent reviewers (MM and GG) ranked the categories comprising the ARRIVE guidelines as either 'clearly insufficient' (0), 'unclear if sufficient' (1) or 'clearly sufficient' (2). Any disagreements in ranking that differed by 2 were discussed until a consensus was reached.…”

Section: Rigor and Reproducibility Assessmentmentioning

confidence: 99%

“…Magnetic fields are a ubiquitous part of life, 1 exerting their effects and interactions at all scales, from subatomic particles to the universe itself. 2 Organisms are continuously under the influence of exogenous magnetic fields (i.e., those produced by a sources outside of the body), which includes static fields such as Earth’s magnetic field 3 as well as electromagnetic fields, such as those produced by modern-day power lines, electrical equipment, and cell phones. 4,5 In addition, the human body itself produces magnetic fields, with fluctuations in cellular ion transport generating currents that ultimately create endogenous magnetic fields (i.e., those produced within tissues and organs themselves).…”

Section: Introductionmentioning

confidence: 99%

Mapping the landscape of magnetic field effects on neural regeneration and repair: a systematic review, mathematical model, and meta-analysis

McGraw

Gilmer

Bergmann

et al. 2023

Preprint

View full text Add to dashboard Cite

Although magnetic field exposure is a well-established diagnostic tool, its use as a therapeutic in regenerative medicine is relatively new. Our goal here was to evaluate how magnetic fields affect neural repair in vitro by performing a systematic review of the literature, mathematical modeling, and meta-analyses. The 38 included articles presented with high heterogeneity, representing 13 cell types, magnitudes ranging from 0.0002-10,000 mT, frequencies from 0-150 Hz, and exposure times lasting from one hour to several weeks. Mathematical modeling revealed that increasing magnetic field magnitude increases neural progenitor cell (NPC) viability. For regenerative processes that were not influenced by magnitude, frequency, and time, we integrated data with meta-analyses. Results revealed that magnetic field exposure increases NPC proliferation while decreasing astrocytic differentiation. Collectively, our work identifies neural repair processes that may be most responsive to magnetic field exposure and provides a framework for novel hypothesis and technology development.

show abstract

“…Graphical data were converted to numerical data via a digital ruler. Intrarater reliability for graphical to numerical data conversion, calculated as the reviewer measuring the same data in sessions ten months apart (n � 5), was determined to be "excellent" (intraclass correlation coefcient [1,2]: 0.9999 95% CI: [0.9846, 1.000]).…”

Section: Systematic Reviewmentioning

confidence: 99%

“…Magnetic felds are a ubiquitous part of life, exerting their efects at all scales, from subatomic particles to the universe itself [1,2]. In recent years, considerable interest has turned towards the therapeutic application of exogenous magnetic felds for the treatment of a multitude of diseases afecting neural tissues.…”

Section: Introductionmentioning

confidence: 99%

Mapping the Landscape of Magnetic Field Effects on Neural Regeneration and Repair: A Combined Systematic Review, Mathematical Model, and Meta-Analysis

McGraw,

Gilmer,

Bergmann

et al. 2023

Journal of Tissue Engineering and Regenerative Medicine

View full text Add to dashboard Cite

Magnetic field exposure is a well-established diagnostic tool. However, its use as a therapeutic in regenerative medicine is relatively new. To better understand how magnetic fields affect neural repair in vitro, we started by performing a systematic review of publications that studied neural repair responses to magnetic fields. The 38 included articles were highly heterogeneous, representing 13 cell types, magnetic field magnitudes of 0.0002–10,000 mT with frequencies of 0–150 Hz, and exposure times ranging from one hour to several weeks. Mathematical modeling based on data from the included manuscripts revealed higher magnetic field magnitudes enhance neural progenitor cell (NPC) viability. Finally, for those regenerative processes not influenced by magnitude, frequency, or time, we integrated the data by meta-analyses. Results revealed that magnetic field exposure increases NPC proliferation while decreasing astrocytic differentiation. Collectively, our approach identified neural repair processes that may be most responsive to magnetic field exposure.

show abstract

Quantum and Electromagnetic Fields in Our Universe and Brain: A New Perspective to Comprehend Brain Function

Cited by 10 publications

References 35 publications

Light and the Brain: A Clinical Case Depicting the Effects of Light on Brainwaves and Possible Presence of Plasma-like Brain Energy

Light and the Brain: A Clinical Case Depicting the Effects of Light on Brainwaves and Possible Presence of Plasma-like Brain Energy

Mapping the landscape of magnetic field effects on neural regeneration and repair: a systematic review, mathematical model, and meta-analysis

Mapping the Landscape of Magnetic Field Effects on Neural Regeneration and Repair: A Combined Systematic Review, Mathematical Model, and Meta-Analysis

Contact Info

Product

Resources

About