The Nanomed3D Solution

Research has shown that engineered tissues can be successfully constructed through the recreation of a biologically active extracellular environment in which the tissue can be developed.

The Nanomed3D Solution
Nanomed3D has developed and produces, patented nano bio-materials which provide a stable 3 dimensional scaffold to which cells adhere to form tissues. These peptides spontaneously assemble in water to form hydrogels, which resemble the nanostructure of the extracelular matrix found in connective tissue, cartilage, ligaments, tendons, bone and skin, whose major components are collagen, fibronectin and elastin.
These scaffolds are a fundamental requirement of regenerative medicine applications such as the regeneration of damaged tissue, including injuries deriving from lesions of the spinal cord, neurodegenerative diseases, maxillo facial and skeletal replacement and any other type of cell therapy.
Moreover, Nanomed3D patented bio-materials are made of sequences of self-assembling peptides. Peptides are short chains of naturally occurring amino acids which are innocuous and biocompatible. These self-assembling peptide nano-structures can be tuned for specific cell types by adjusting their rigidity and structural density.
Nanomed3D patented bio-materials are designed for specific cell types and can include functional “motifs”  which interact with the cell surface. In this way, a custom nanostructure can stimulate certain useful mechanisms in the cell colony. These customizable motifs are at the core of the Nanomed3D technology.