Abstract
This article proposes Template Inheritance, a method for repairing pattern-field disruptions by copying logic-field templates from healthy regions. Drawing from neuroscience, epigenetics, and regenerative biology, it outlines both mechanistic foundations and practical strategies for future therapy development.
1. Logical Field Templates
Neural topography, epigenetic methylation, and bioelectric patterns form person-specific templates; trauma breaks these—copying from healthy parts may restore integrity .
2. Neural Template Transfer Mechanics
Mirror therapy remaps logic cross-hemispherically . Brain–computer interfaces record and inject activity—candidate for template read/write .
Formula:
T_t_new = T_t_orig ∪ (I × T_s)
3. Epigenetic & Bioelectric Copying
- DNA methylation can be edited to import source templates
- Bioelectric gradients form 2D overlays impacting tissue growth
4. Gate-Based Template Logic
Success occurs only when:
G_template_read × G_interface × G_write_feedback = 1
5. Clinical Scenarios
| Scenario | Template Source | Interface | Challenges | Outcome |
|---|---|---|---|---|
| Phantom limb | Healthy limb | Mirror/BCI | Feedback accuracy | Sensory relief |
| Spinal injury | Upper cord region | Epidural | Tissue specificity | Motor re-anchoring |
| Limb regen | Other limb | Epigenetic | Methylation fidelity | Growth initiation |
6. Ethical & Tech Considerations
- Privacy of mind templates
- Fidelity vs malfunction risk
- Enhancement vs misuse
7. Conclusion
Template Inheritance offers a practical blueprint for repairing broken pattern fields. Neural mapping, BCI, epigenetics, and bioelectric modulation provide the tools to transfer healthy logic to damaged regions—opening new therapy frontiers.