# Negative Effective Gravity as a Potential Mechanism for Selective Cancer Cell Detachment Through the Water-Matrix Lattice: A Field Synthesis Proposal

Abstract

We propose a theoretical framework suggesting that cancer may be productively understood as

a lattice degradation phenomenon within the water-matrix lattice (Holmes, 2025), and that this

understanding may open previously unconsidered intervention pathways warranting

investigation by qualified researchers across multiple fields. Cancer cells exhibit consistently low

electrical potential (10–20 mV) compared to healthy cells (80–100 mV), an observation

documented since Cone (1970s) and extended by Pollack (2024) through the exclusion zone

(EZ) water framework. We connect this voltage deficit to the water-matrix lattice described by

Holmes (2025), in which the asymmetric hydrogen bonding rule — one strong bond and one

weak bond per molecule, invariant across all phases — constitutes the structural fabric of the

cellular environment.

We suggest that locally induced negative effective gravitational coupling — experimentally

demonstrated by Hu et al. (2013) in water at frequencies between 4.1 Hz and 4.85 Hz using

resonator arrays — may warrant investigation as a potential mechanism for selective

detachment of weakly coupled cancerous tissue from strongly coupled healthy tissue. We

further suggest that the intact hydrogen bond network surrounding a tumor may provide a

thermodynamically favorable extraction pathway warranting study.

These ideas connect five previously isolated lines of published evidence: EZ water biophysics,

bioelectric oncology, analog gravity experiments in water, frequency-selective cancer cell

disruption, and the water-matrix lattice hypothesis. The connections are offered not as proven

conclusions but as a research architecture — a map of possibilities for qualified professionals.