Research & Development of Alphiza – the key to neuronal regeneration
🔬 A new perspective on the regeneration of nerve cells
For a long time, the nervous system was considered to be hardly capable of regeneration.
However, the latest findings from redox and lipid research show that neural regeneration is possible – especially when cellular signals and lipid structures are specifically supported.
This is exactly where Alphiza comes in: a fermented and redox-activated plant elixir that is applied to the
It was developed at Gebze University of Technology in Istanbul under the direction of Dr. Mustafa Kucukali .
Years of research and preclinical studies with C. Elegans worms – whose nerve cells resemble the structure of human axons – have led to sensational results.
After a short time, the test worms showed a complete regeneration of damaged nerve pathways , which formed the basis for today's Alphiza formula.
🧬 Research goal: Regeneration of the myelin sheath
The myelin sheath surrounds and protects the axons of nerve cells – similar to the insulation of an electrical cable.
If it is damaged, the signal transmission slows down, and symptoms such as memory loss, movement disorders or sensory deficits can occur.
Alphiza pursues the approach of biologically restoring this protective layer.
Redox-activated plant substances and fermented lipids create a new, natural protective layer that can stabilize and regenerate damaged myelin sheaths.
🫒 Lipid Fermentation – Activating the Oils
A key component of Alphiza is lipid fermentation – a biotechnological process in which fat-containing plant extracts are fermented in dark chambers for months.
Unlike classic fermentation, which targets sugars and proteins, here the fatty acid structure itself is transformed and bioactivated .
This creates lipid-based signal carriers that are able to overcome the blood-brain barrier and act directly on neuronal membranes.
The fermented lipids are then redox-modulated to increase their electronic stability and resonance capacity – a crucial factor for communication between nerve cells.
⚡️ Redox Processes – Communication at the Cellular Level
Redox activation is the second key component of the Alphiza development.
It is based on the principle that cells communicate via electron-based signals .
Through targeted redox modulation, these signals can be reactivated, harmonized, and brought into balance – similar to the natural redox balance of healthy cells.
This creates an environment that favors cellular repair processes – especially in nerve cells, whose membranes are heavily lipid-based.
🧠 The results of the research
In laboratory studies at Gebze University, researchers led by Dr. Mustafa Kucukali were able to demonstrate:
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C. Elegans nerves regenerated completely within 30 minutes after induced damage.
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The signal transmission normalized measurably, comparable to healthy controls.
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The redox-treated lipid extracts showed high cell compatibility and brain penetration .
These findings form the basis for Alphiza , which is currently available exclusively in Europe through borCAN .
🌿 Ingredients (per vial 10 ml)
Licorice root 500 mg
Galgant 500 mg
Korean Ginseng 100 mg
Ginkgo 20 mg
Vitamin B6 5 mg
Vitamin B12 10 µg
All plant extracts undergo a 12- month fermentation process and a 16-phase redox activation , which has been perfected in 15 years of research.
✅ Research Focus Areas & Results
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Regeneration of myelin sheaths and neuronal membranes
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Redox activation of fermented plant substances
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Lipid-based signal transduction across the blood-brain barrier
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Supporting cognitive performance.
