Quantum Medical Paradigm

All data analysis, synthesis, and implementation shall adhere to the quantum medical paradigm. This project postulates that accurately elucidating any phenotype necessitates examining the most elemental level presently comprehensible through scientific methods, specifically quantum mechanics and wave equations.

Moreover, this Quantum Medical Paradigm posits that all observable conditions and phenotypes manifest from deviations in quantum activities within the atoms that constitute human cells. Thus, cures and treatments should target quantum cellular functions to achieve desired physiological outcomes. This diverges from examining biological or chemical interactions at the cellular level, or holistic models focusing on the body's systemic responses.

Furthermore, it is important to note that the quantum research paradigm differs substantially from the quantum medical treatment paradigm. The latter proposes utilizing explicitly quantum-mechanical therapies like radiotherapy, optogenetics, or cryotherapy to treat human conditions. The former mandates elucidating the precise quantum-level causes of disease and then deducing the most efficacious means of correcting them, whether through quantum or other intercessions.

Therefore although prospective treatments must demonstrate the ability to remedy hazardous deviations in quantum biological processes their technical composition may not necessarily be quantum by conventional definitions.