WVTS
Epigenetic field mapping and modulation β 80% margin research platform
Maps the body's endogenous bioelectric field with sub-millimeter resolution using a 256-electrode array, identifying field patterns associated with specific tissue states and disease conditions. Applies low-amplitude targeted EM fields (0.1β10 V/m, 0.1β1000 Hz) to modulate identified regions, with the goal of shifting the local epigenetic landscape toward regenerative or repair-oriented states.
The WVTS (Waddington Valley EM Tracer System) is named after Conrad Waddington's developmental landscape model β the metaphor of cells rolling down valleys toward differentiated fates. The WVTS maps and modulates the bioelectric field "valley landscape" that Waddington's modern interpreters (Levin, McCaig) have identified as a key epigenetic regulator. The system combines high-sensitivity weak bioelectric field mapping (ΞΌV/cm scale) with targeted field modulation to shift cells toward or away from specific differentiation states. Applications span regenerative medicine research, epigenetic reprogramming studies, and developmental biology.
- 256-electrode bioelectric field mapping array
- Sub-microvolt field measurement electronics (256-channel)
- Targeted EM modulation delivery system (0.1β10 V/m)
- Real-time epigenetic landscape visualization software
- AI-assisted pattern recognition (field-to-state mapping)
- Clinical protocol library (40+ epigenetic targeting programs)
| Component | Est. Cost |
|---|---|
| 256-electrode bioelectric mapping array | $2,400 |
| Sub-microvolt measurement electronics (256-ch) | $2,200 |
| Targeted EM modulation delivery system | $1,400 |
| Epigenetic visualization workstation + AI module | $980 |
| Electrode interface and positioning system | $420 |
| Power + shielding systems | $280 |
Supplier names not shown on this page. Full sourcing guide included with institutional purchase. Volume pricing available β see note below.