Study Name: Cell Regeneration & Oxidative Stress Protection in Neural Cells
Independent Cell Study | Dartsch Scientific
Overview
This in-vitro study examined the effects of the ProEnergetic EE-Modul on human neuronal cells (SH-SY5Y) under simulated oxidative stress. The focus was on assessing neuroprotective potential and regenerative support under biologically challenging conditions.
Key Insights
- Oxidative Stability: Cell viability under oxidative stress (Hydrogen Peroxide, H2O2) was significantly maintained by the EE-Modul.
- Control (Without Modul): 90.5% cell viability
- Active Modul: 98.1% cell viability
- Accelerated Regeneration: In a cellular wound healing model (scratch assay), the active Modul significantly accelerated the cell closure rate.
- Control (Without Modul): Reduced initial wound area by approximately 50%
- Active Modul: Reduced initial wound area by over 80%
Conclusion
The observations show the EE-Modul may promote the stabilization of neuronal cells and support regenerative processes under stress. These findings indicate a potential regulatory influence of frequency-based systems on cellular function.
Disclaimer
This study was conducted using cell models in a laboratory environment. The results are not equivalent to clinical outcomes and do not represent therapeutic claims.
