Scientific posters

The VaxSkin^® platform provides a unique framework for the study of the early steps of immune response to vaccines and, combined with different technologies, it might help to maximize specific immune targeting or evaluate adjuvant potency ahead of clinical trials.

The identification of safer next-generation therapeutic candidates that do not trigger injection site reactions or local toxicity represents a major challenge. Genoskin uses bio stabilized immunocompetent skin explants from multiple donors of different age and sex to assess the extent to which a compound may trigger these reactions

Genoskin’s InflammaSkin^® psoriasis skin model us a T cell-driven skin inflammation model for psoriasis. This cutting-edge assay is designed to assess the efficacy of subcutaneously-delivered or topical applied anti-inflammatory treatments.

Mast cells are essential immune cells that play a pivotal role in various physiological and pathological processes, including allergic responses and inflammatory reactions. Their ability to release a wide array of mediators upon activation makes them uniquely suited for evaluating a drug’s potential to induce adverse immune reactions, allergic responses, or toxicity.

CBD has been hailed as the hottest new ingredient in skin care, with CBD-containing products appearing on the market at a record pace. In partnership with Genemarkers, we established a method to identify the mechanism of action, verify efficacy and validate claims of CBD isolates and formulations.

NativeSkin^® is a patented human skin model that allows the culture, treatment, and manipulation of human skin for research and analysis. This model can be used to predict human skin response to treatments. The presence of live human immune cells enables the study of allergen uptake during epicutaneous immunotherapy.

The wounded HypoSkin^® model is suitable to study wound infection. This model gives you the opportunity to evaluate topical therapies and dressings after prophylactic administration, to prevent wound infection, or assess therapeutic treatment for infected wounds.

We demonstrated that NativeSkin^® can be cultured for up to 10 days while preserving normal skin integrity, significant cell viability, proliferative cells and low levels of apoptosis. Our next step will be to evaluate the activity of specific human skin cytochromes involved in the metabolization of drugs topically applied on NativeSkin^®.

HypoSkin^® is a fully functional ex vivo human skin model that is relevant for studies on the human skin microbiome and to assess changes in skin microbiota following treatment with dermo-cosmetic products.