The research was conducted as a randomized, double-blind, placebo-controlled, exploratory study to investigate the effects of Quantum Upgrade on melanin-related bioenergetic and biological regulation, with a particular focus on energetic stability, regulatory dynamics, and observable changes in vital blood morphology. The research examined whether sustained exposure to the Quantum Upgrade could influence melanin-associated regulatory pathways at both the energy-informational and biological levels.

Two complementary methods were used to assess outcomes:

• Bioenergy-Informational Systems Analysis (BESA) to evaluate energetic and regulatory changes across bioenergetic systems, including melanin-related regulatory markers.
• Darkfield live blood analysis (DFM) to observe morphological changes in vital blood at the cellular and milieu level.

Measurements were performed at baseline and after a minimum of four weeks of continuous exposure to either the active Quantum Upgrade (experimental group) or an energetically inert placebo object (control group).

Results

The study observed clear regulatory shifts toward balanced energetic ranges in the experimental group compared to the placebo group. BESA measurements indicated harmonization of previously dysregulated energetic parameters, including those associated with melanin regulation and related regulatory circuits.

Darkfield live blood analysis revealed observable improvements in blood morphology and blood environment dynamics in the experimental group during post-exposure measurements. These changes were consistent with improved regulatory behavior and reduced stress-related morphological patterns when compared to baseline and placebo findings.

Overall, the results suggest that the Quantum Upgrade influenced both bioenergy-informational regulation and vital blood dynamics associated with melanin-related stress factors, demonstrating a coordinated regulatory effect across energetic and biological observation levels.