Cellular and tissue research, drug development, and mechanobiology studies are limited by the inability to precisely control and simulate complex mechanical stresses in cellular substrates in vitro. Traditional methods lack the precision and non-invasive nature needed to replicate realistic cellular environments.

60Nds develops In Vitro Mechanical Simulation technology, branded as NeoMag, that uses magneto-materials to provide precise, non-invasive control over mechanical stresses and deformations in cellular substrates. This technology enables researchers to simulate complex 2D and 3D cellular environments, such as tumoral development, tissue recovery, and conditions for cerebral cells. NeoMag integrates with conventional imaging systems and other instrumental equipment, allowing researchers to enhance their studies with new data on cells and biological tissues.

Non-invasive, multidimensional, and real-time control of mechanical stresses and deformations using magneto-materials.

Simulation of complex 2D and 3D cellular environments.

Compatibility with conventional imaging systems and integration with other lab equipment like nanoindenters.

Suitable for both 2D and 3D biological systems.

The primary customers are research institutions, universities, and pharmaceutical companies involved in cell and tissue research, drug development, and mechanobiology.