Company Filing History:
1 out of 50 
1 out of 1 Years Active: 2021
Title: The Innovations of Cinzia Domeneghini
Introduction
Cinzia Domeneghini, based in Milan, Italy, is a distinguished inventor known for her contributions to the field of tissue repair. With a robust background in engineering and biomedical research, she has made significant strides in developing innovative solutions to improve medical outcomes.
Latest Patents
Cinzia holds a patent for a "Composite scaffold for tissue repair". This innovative patent describes a synthetic composite material designed for tissue repair, which consists of a first layer made from organic material with defined side walls and an external surface. This layer is uniquely designed in direct contact with a second porous layer made of inorganic material, showcasing her forward-thinking approach to combining materials for enhanced medical applications. The design incorporates a third layer of organic material that coats the side walls of both layers, resulting in a composite scaffolding solution that could potentially revolutionize approaches to tissue engineering.
Career Highlights
Throughout her career, Cinzia has worked with notable institutions, including Ospedale San Raffaele S.r.l. and Università del Salento. Her roles in these prestigious organizations underscore her dedication to advancing scientific knowledge and innovation within the medical field. Her innovative thinking and expertise in scaffold design have positioned her as a valuable contributor to both organizations.
Collaborations
Cinzia has collaborated with esteemed colleagues such as Giuseppe Peretti and Gianfranco Fraschini. These collaborations have allowed her to synthesize expertise from different areas, fostering a creative environment that promotes the development of novel ideas and applications.
Conclusion
Cinzia Domeneghini stands out as a leading figure in the realm of tissue repair innovations. Her patented composite scaffold not only showcases her inventive prowess but also has the potential to significantly impact the field of biomedical engineering. As she continues to contribute to the advancement of medical technologies, her work remains an inspiring example of how innovation can improve patient care.