TECHNOLOGY
Our novel product is the world’s first hybrid bioprinting technology able to clone detail required to recapitulate hard and soft tissue for human organs simultaneously and their interaction with cancer cells. We developed a Magical Organ Cloner (MOC) Bioprinter system with state-of-the-art technologies to print several materials such as hydrogels, polymers, liquid composite, and drugs. We apply a unique intelligent injection system for the complicated procedure for pharmaceutical drug discovery for cancer trophy. Magical organ cloner (MOC) startup has several products for the bioprinting process to clone hard and soft tissue and organs with the use of different hi-technologies such as (stem cell therapy, bio-mechatronics,3D printing, nanotechnology, Deep learning image segmentation, plasma surface modifications, microfluidics. MOC bioprinter is the world’s first hybrid bioprinting technology that can simultaneously clone detail required for anatomy hard and soft tissue for human organs.
The world’s first hybrid bioprinting technology can recapitulate clone detail required to simulate hard and soft human organ tissue. The unique separation and isolation technique of different stem cells with a nanofiber scaffold is another incredible feature of MOC. This feature was developed by an electro-spinning nanofiber texture scaffold printing system. Highly customized and physiologically relevant 3D human tissues from the patient’s CBCT, MRI, and other DCOM files are converted and edited and the sophisticated printing process was done by MOC software, and the final sophisticated organ will print. The Magical organ cloner Bioprinter could print microfluidics that could connect to bioreactors to convey a specific medium for differentiating stem cells for reconstructing complex human tissue.
We bring the future, where lifesaving transplant organs are created now. The specialized material and reagent fluids containing growth factors are transferred in micro and nanochannel represents a bit, providing us with the capability to simultaneously transport materials for cell logical control for differentiation and tissue generation.
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