IICE is a non-profit Research Institute dedicated to forward thinking for the adaption and advancement of life.
Funding from pharmaceutical, industrial, medical, agricultural, social and private sector sustains IICE’s research that partners with projects world-wide. 100% of funding is cycled into IICE works.
To further sustain and fund its research, IICE offers services in advanced research and development, biomedical advanced profiling and study design, for many scientific venues, especially biotech and medicine, including veterinary and regenerative medicine. These services are meant to sustain the Institute and share innovative research techniques and protocols developed for the advancement of clinical ecology.
Everything starts at the cellular level, where vibration is used as a mechanism in intra and inter cellular communication.
The cellular level of living organisms is directed by vibratory patterns that ultimately expand into frequencies that affect the whole environment (or biosystem.) Communication through these vibratory signals is key to all biological pathways; whether an ecosystem or a biosystem (body system.)
These frequencies are specific to certain molecules: signaling molecules like cytokines that have the master codes for biological response. Dr JO Serrentino, director of research at IICE, has pioneered the biology of these proteins and peptides and their signal sequences which carry their basic coding and pathways that define their function and ultimately their applications.
IICE focuses on all aspects of research of these fascinating molecules as well as their innate function in many ecological and medical applications. IICE’s research extends to the development of technology to help observe the nature of these molecules such as developing methods, protocols, and instrumentation that allows for the identification and real-time viewing of these molecules as they interact with each other and with their biosystem/ecosystem. Examples of this kind of communication is all over nature and in every living organism, but it is only in recent years that advanced instrumentation has been available to measure these invisible frequencies and to spatially map them within living organisms. This has far-reaching implications in research and development.
By implementing novel techniques in research we can better study the molecular interactions within living biosystems, such as, pollutants in ecosystems and in the human and animal body. The adaption of parasites to these pollutants and their aggregation in ecosystems such as with viral variants. The effect of farming runoff water on the ecosystem and in turn on the human and animal population and how we can intervene at the source, and even produce preventive medicines. To better understand and to see the living relationships that contribute to world-wide environmental conditions like SARS and retroviruses.
The true essence of clinical ecology starts at the cellular level, within the environment; that is where researchers can find the answers and solutions to global warming issues, and development dilemmas, and enable sustainable farming and better medicine; beautiful life.