Prof. Dr. Lakshman Madurasinghe
ABSTRACT
The bioplasma field represents an innovative hypothesis in biophysics, proposing that an electromagnetic energy field orchestrates the organization, function, and repair of the human organism, extending beyond conventional biochemistry, physiology, and neurology.
This article explores the bioplasma field’s conceptual foundations, historical and scientific investigations, and its implications for modern science and holistic health practices. Drawing from Campbell M. Gold’s 2010 compilation, the bioplasma field is described as a dynamic template, potentially originating from DNA energy at conception, which guides cellular replenishment, tissue organization, and systemic functions. This field is reflected in diagnostic modalities like iridology, where changes in the iris are believed to mirror systemic health alterations.
Historical research, particularly from Russian scientists at the Bioinformation Institute of A.S. Popov since 1965, identified biofield emissions in the 300–2,000 nanometer range, termed “bioplasma,” with findings corroborated in Germany, Poland, the Netherlands, and Great Britain. Dr. Victor Inyushin’s work at Kazakh University further posits bioplasma as a fifth state of matter, comprising ions, protons, and electrons in constant motion, with health dependent on their balance.
Techniques like Kirlian photography have visualized this field, though their scientific validity remains debated. Modern bioelectromagnetics supports the notion that electromagnetic signals influence cellular processes, suggesting potential applications in diagnostics and therapies, such as biofield therapies and advanced imaging. Philosophically, the bioplasma field bridges reductionist biology and holistic traditions, aligning with concepts like prana and qi.
It challenges materialist paradigms, proposing that humans exist within a dynamic interplay of energy fields. Practically, it holds promise for revolutionizing diagnostics by detecting early pathological changes and enhancing integrative medicine through energy-based interventions. However, challenges persist, including methodological limitations in early studies and skepticism regarding the field’s measurability. Advances in quantum biology and electromagnetic imaging are needed to substantiate the hypothesis. The bioplasma field thus offers a compelling framework for redefining human biology, encouraging interdisciplinary research to explore its diagnostic and therapeutic potential while addressing scientific critiques to establish its place in mainstream science.
REFERENCES
http://campbellmgold.com
Inyushin, V. (n.d.). Studies on the bioplasmic energy field. Kazakh University.
Kirlian, S., & Kirlian, V. (1930s). Kirlian photography and biofield visualization.
Alvino, G. (as cited in Gold, 2010). Perspectives on bioplasmic forms and life energy fields.