Who are we looking for?
Our preliminary results confirm biological activity of newly synthesized substances towards human skin cells (fibroblasts) with stress-inducedpremature senescence.
The next step of development could involve:
Studies of biological activity of novel hybrid compounds using a 3D cell model (synthetic skin model)
Exvivo studies in mammalian models.
40%
Unlimited
1 µM
slower cellular senescence
bioavailability
effective concentration
potential to combat cell senescence by approximately 40% allowing cells to proliferate.
Created from resveratrol, a plant-derived substance and a nitroxyl radical (TEMPO) covalently linked by an esterbond.
Effective concentration of the substance at 1 µM - 100 times lower than effective concentration of resveratrol.
based on resveratrol
One-step synthesis
Potential to combat cell senescence by approximately 40% allowing cells to proliferate.
Effective concentration of the substance at 0,5 µM - 10 times lower than effective concentration of curcumine.
based on curcumine
The synthesis yield 78%
Created from curcumine, a plant-derived substance and a nitroxyl radical (TEMPO) covalently linked by an esterbond
Experimental Data
All studies were performed towards human skin fibroblasts:
cytotoxic properties
biological activity
antioxidant activity
Formulation
Oily
Emulsion
Aqueous
Gel
A supporting statement for your value proposition to encourage customers to complete your CTA.
IP Protection
PCT application number:
During the International application
UPRP application number:
P.441664
PCT/PL2023/050049
Meet Our Scientists
The Litwinienko Group is a team of more than 10 scientists at the University of Warsaw dedicated to studies of the antioxidant activity of compounds.
Grzegorz Litwinienko
Professor and Litwinienko Group Leader
>75 publications
28 H-index
3510 citations
Adrian Konopko, Ph.D.
The main co-author
Postdoctoral researcher at Medical University of Warsaw,
The Regenerative Medicine Laboratory
Anna Bielak-Zmijewska - Associate professor member of Laboratory of Molecular Bases of Aging, PAS
>40 publications
28 H-index
1930 citations