Advanced Cell Models

Critical tools for studying complex biological systems and evaluating therapeutic efficacy in a more physiologically relevant context. At WaveCyte Bio, we specialize in the leveraging innovative cell models for biologically relevant preclinical insights

Our Available Advanced Cell Models

NativeSkin® : Human skin model designed for high-fidelity testing of dermatological products, including cosmetics, pharmaceuticals, and topicals.

3D Organoid Culture Models: In vitro models that replicate the architecture and behavior of tissues in the body. Our 3D systems enable better prediction of drug response, improved drug absorption, and a more accurate representation of tumor microenvironments for cancer research.

OrganoPlate® and HepaRG Systems: Cutting-edge in vitro platforms designed for drug testing and disease modeling.

Human Primary Cell Cultures: Culturing cells directly from human tissues to maintain their native characteristics, providing a more accurate model of human physiology and disease.

Induced Pluripotent Stem Cells (iPSCs): Patient-specific models that can be differentiated into any cell type, allowing for the study of disease mechanisms and the development of personalized therapies.

Cancer and Immuno-Oncology Models: Advanced cell models that simulate tumor environments and immune system interactions, ideal for cancer drug testing, immunotherapy development, and biomarker discovery.

What Are Advanced Cell Models

Advanced Cell Models refer to highly sophisticated in vitro systems used to replicate complex biological processes and disease mechanisms. These models are designed to more accurately mimic human physiology compared to traditional 2D cell cultures. They are used to study cellular responses to drugs, understand disease mechanisms, and evaluate therapeutic efficacy in a more realistic and physiologically relevant context.

Accurate simulation of human biological systems at every stage of drug development. Utilizing NativeSkin® for skin testing, 3D organoids for cancer research, and OrganoPlate® systems for organ-specific studies, we deliver biologically relevant models that improve the precision of preclinical research. These advanced models are vital for developing more effective and reliable therapeutic solutions.

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