Author: Rouleau N1, Dotta BT2.
Affiliation: 1Behavioural Neuroscience Program, Laurentian University Sudbury, ON, Canada ; Department of Psychology, Laurentian University Sudbury, ON, Canada. 2Behavioural Neuroscience Program, Laurentian University Sudbury, ON, Canada ; Department of Psychology, Laurentian University Sudbury, ON, Canada ; Department of Biomolecular Sciences, Laurentian University Sudbury, ON, Canada.
Conference/Journal: Front Integr Neurosci.
Date published: 2014 Nov 7
Other:
Volume ID: 8 , Pages: 84 , Word Count: 184
Within a cell system structure dictates function. Any interaction between cells, or a cell and its environment, has the potential to have long term implications on the function of a given cell and emerging cell aggregates. The structure and function of cells are continuously subjected to modification by electrical and chemical stimuli. However, biological systems are also subjected to an ever-present influence: the electromagnetic (EM) environment. Biological systems have the potential to be influenced by subtle energies which are exchanged at atomic and subatomic scales as EM phenomena. These energy exchanges have the potential to manifest at higher orders of discourse and affect the output (behavior) of a biological system. Here we describe theoretical and experimental evidence of EM influence on cells and the integration of whole systems. Even weak interactions between EM energies and biological systems display the potential to affect a developing system. We suggest the growing literature of EM effects on biological systems has significant implications to the cell and its functional aggregates.
KEYWORDS:
cell aggregation; consciousness; electromagnetic fields; environmental influences; structure-function
PMID: 25426035 [PubMed - as supplied by publisher] PMCID: PMC4224074