Quantum-Synaptic Immunotherapy Mapping Using Low-Frequency Electromagnetic Resonance and Machine Learning-Based Cytokine Forecasting

Overview

The ImmuneNet study is a Phase I/II clinical trial sponsored by Truway Health, Inc. It will test whether gentle, low-frequency electromagnetic resonance (LF-EMR) can influence how immune cells communicate and synchronize with each other. The goal is to see if this "quantum-synaptic" signaling effect can help stabilize immune activity and reduce the number of autoimmune flare-ups in people living with conditions such as lupus, rheumatoid arthritis, or multiple sclerosis. Participants will receive either an active or a sham (placebo) LF-EMR session three times per week for twelve weeks. Each session is completely non-invasive. Blood samples will be collected to study cytokines (immune-system messenger molecules), gene-expression patterns, and electrical field coherence among immune cells. A machine-learning system will analyze these data to predict inflammation patterns and guide individualized treatment settings. All participant data will be securely recorded and time-stamped to ensure transparency and privacy. The expected outcome of the study is a measurable reduction in autoimmune flare frequency and symptom severity, along with improved understanding of how electromagnetic signaling might safely regulate immune function.

This exploratory, randomized, double-blind, parallel-assignment Phase I/II trial is designed to evaluate the safety, tolerability, and biological activity of low-frequency electromagnetic resonance (LF-EMR) for immune modulation. Rationale and Objectives Autoimmune diseases involve abnormal immune signaling that leads to chronic inflammation. Emerging biophysical evidence suggests that immune cells generate and respond to ultra-low-frequency electromagnetic fields that may coordinate cytokine release and cell communication. The ImmuneNet protocol seeks to harness this phenomenon through controlled, resonant electromagnetic exposure to promote immune homeostasis. Methods Approximately 120 adults aged 18-70 with stable autoimmune disease will be enrolled at Truway Health Research Centers in New York, NY and Austin, TX. Participants will be randomly assigned in a 1:1 ratio to active or sham LF-EMR stimulation. Active participants will receive 7-40 Hz resonant fields (\< 2 microtesla) for 20 minutes per session, three times weekly for twelve weeks. Sham participants will undergo identical procedures with the device inactive. Blood samples collected at baseline, week 6, week 12, and six-month follow-up will undergo multiplex cytokine analysis, RNA sequencing, and electrophysiologic coherence mapping. Machine-learning models will be trained to forecast cytokine cascades and flare probability. Outcome Measures The primary endpoint is reduction in documented autoimmune flare frequency over six months. Secondary endpoints include changes in serum cytokine synchronization index, transcriptomic shift magnitude, patient-reported global health scores, and adverse-event incidence. Ethics and Oversight The study will follow Good Clinical Practice (GCP) guidelines and be reviewed by an independent institutional review board. Participation is voluntary, and informed consent will be obtained from all subjects. Expected Impact If successful, the trial will demonstrate a safe, non-pharmacologic approach to immune regulation and establish a data framework for future AI-guided quantum-resonant therapies. The knowledge gained could lead to new treatment options for autoimmune and chronic inflammatory diseases while reducing reliance on long-term immunosuppressive drugs.