We innovate by using
Nanotechnology to print our Victoria Artificial Lymphatic Vessel
Until now, there hasn’t been a definitive solution to treat lymphedema, but thanks to the use of nanotechnology, we have managed to develop a device that could revolutionize its treatment.
Nanotechnology has brought significant improvements in terms of scalability and efficiency in the production of our Victoria Artificial Lymphatic Vessel
Nanotechnology has revolutionized the field of medicine thanks to its ability to manipulate matter at the molecular level.
Its use in the development of the Victoria Artificial Lymphatic Vessel can play a crucial role, as it aims to restore lymph circulation and prevent the accumulation of lymphatic fluid that leads to lymphedema.
This opens up new possibilities for a more effective and long-lasting treatment, providing hope for those suffering from this condition and an effective and scalable option to combat this complication.
Nanotechnology allows us to use biocompatible and biodegradable materials, reducing the risk of rejection or long-term complications.
The miniaturization of devices and the ability to recirculate lymph improve the effectiveness of the treatment and enhance the quality of life of patients.
Thanks to the capability of nanotechnology
to work at the molecular level, precise and personalized reconstruction of lymphatic vessels can be achieved.
The use of
Nanotechnology in artificial lymphatic vessels
allows for the customization of the design according to the needs. Additionally, it offers many possibilities and benefits for treating lymphedema.
Ensuring a perfect adaptation to the lymphatic system
Increased effectiveness in the treatment of lymphedema
Nanotechnology for printing the Victoria Artificial Lymphatic Vessel
The use of nanotechnology has revolutionized the field of medicine thanks to its ability to manipulate matter at the molecular level.
To carry out its printing, an advanced 3D printer capable of working at this scale is used. The printing process of these artificial lymphatic vessels requires precise manipulation of materials at the molecular level through the use of nanomaterials.
The lymphatic vessel is tiny, measuring just 6 microns, making it the smallest in the world. It is recreated with the characteristics and functions of natural lymphatic vessels, allowing it to function correctly in the body.
Thanks to its modular design and linear production, it’s possible to simultaneously reconstruct up to 75 lymphatic vessels, speeding up the manufacturing process and allowing for a greater number of patients to be treated more quickly and efficiently.