Ion Transport at the Cellular Membrane, Mechanism Proof
In-Vivo & In-Vitro Mechanism Study·Animal Study
Independent biophysics evaluation by Prof. Dr. Dr. A. Varga (University GATE, Hungary) demonstrating directed ion transport (Na⁺, K⁺, Ca²⁺) under PEMF exposure, established by atomic-absorption spectroscopy and electrophoretic mobility measurement.
Magnetic Therapy Foundations: Cell Voltage & Ion Transport
Foundational Reference·Mechanistic / Laboratory Study
Foundational reference describing transmembrane potential, cellular bioelectricity, and the ion-transport mechanism that underlies modern PEMF and VEMI architectures.
PEMF Clinical Application Compendium
Multi-Domain Case-Sheet Compilation·Mechanistic / Laboratory Study
Compiled clinical fact-sheets covering PEMF protocols across orthopedic, soft-tissue, metabolic, neurologic, and stress-regulation domains, the core application library that informs PureWave's protocol architecture.
QRS Foundational Sports Research
Historical Compilation·Mechanistic / Laboratory Study
The PEMF research lineage that informs the design philosophy of PureWave's next-generation VEMI architecture, including transmembrane potential, ion transport, and cellular energy exchange.
QRS Scientific Brief, Pelka Compendium
Foundational Scientific Brief (Pelka, 2003)·Mechanistic / Laboratory Study
Comprehensive 16-section scientific brief synthesizing the history, biophysics, and clinical evidence base of pulsating low-frequency magnetic field therapy and the Quantron Resonance System. Establishes the wave-form, amplitude-window, and ion-transport principles underpinning the modern PureWave platform.
PureWave Technology White Paper
Technology White Paper·White Paper
Comprehensive overview of PureWave PEMF technology, mechanism of action across nitric oxide signaling, mitochondrial energization, oxygenation, bone regeneration, sleep, and recovery, with annotated clinical literature spanning pain, mobility, neurological, and vascular outcomes.