학술논문

Spatiotemporal omics of life energy: Towards medicine of frequencies and terahertz drugs
Document Type
article
Source
MedComm – Biomaterials and Applications, Vol 3, Iss 1, Pp n/a-n/a (2024)
Subject
frequency medicine
resonant energy transfer
spatiotemporal omics
terahertz drugs
vibrational strong coupling
Materials of engineering and construction. Mechanics of materials
TA401-492
Medical technology
R855-855.5
Language
English
ISSN
2769-643X
Abstract
Abstract The quantum mechanisms how life efficiently utilizes energy and transmits information remain unclear yet. Frequency medicine, an emerging cross‐discipline of both quantum mechanics and biomedicine, is a promising turning point for biomaterials and medicine developing from the matter level to the energy level. Recognizing the pivotal role of molecular vibrational frequencies in resonant energy coupling and transmission underscores the potential of frequency medicine to precisely regulate biomaterial vibrations, influencing interactions and reactions in living organisms. At present, scientists have unveiled sophisticated phototherapeutics; nevertheless, their advancement necessitates the precise mapping of the life energy. In contrast to genomics, proteomics, and metabolomics studied on the matter level, omics of frequencies related to medicine should be on the energy level. Herein, starting from the history of frequency medicine, and followed by the introduction of vibrational strong coupling applications in life sciences, we emphasize the significance, necessity, and urgency of studying spatiotemporal omics of medicine frequencies. By decoding the energy atlas of life, we can acquire profound insights into the quantum mechanisms that govern life processes from an energy standpoint. We anticipate that the integration of biomaterials with spatiotemporal frequency omics related to medical research will contribute significantly to advancing the goals of precision medicine, potentially revolutionizing pharmaceuticals, such as terahertz drugs.