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Years Active: 2017
Title: Nora Lang - Innovator in Hydrophobic Tissue Adhesives
Introduction
Nora Lang is a prominent inventor based in Munich, Germany. She has made significant contributions to the field of medical adhesives, particularly with her innovative work on hydrophobic tissue adhesives. Her inventions aim to improve surgical outcomes and patient care.
Latest Patents
Nora Lang holds 1 patent for her invention titled "Hydrophobic tissue adhesives - Pre-polymers for use as tissue sealants and adhesives, and methods of making and using thereof." This patent describes pre-polymers that possess unique flow characteristics, allowing them to be applied through a syringe or catheter. These pre-polymers are designed to remain in place at the application site without running off the tissue. They are also hydrophobic, which helps resist washout by bodily fluids. Importantly, these pre-polymers are stable in bodily fluids and do not spontaneously crosslink unless an intentional stimulus is applied. Upon crosslinking, the adhesive demonstrates significant strength in the presence of blood and other bodily fluids. Additionally, the adhesive is elastic enough to accommodate movement of the underlying tissue, providing a hemostatic seal. It is also biodegradable and biocompatible, resulting in minimal inflammatory response.
Career Highlights
Nora Lang has worked with prestigious institutions, including the Massachusetts Institute of Technology and Brigham and Women's Hospital. Her experience in these organizations has allowed her to develop and refine her innovative ideas in the field of medical adhesives.
Collaborations
Nora has collaborated with notable professionals in her field, including Jeffrey Michael Karp and Pedro J Del Nido. These collaborations have contributed to her success and the advancement of her inventions.
Conclusion
Nora Lang is a trailblazer in the development of hydrophobic tissue adhesives, with her innovative patent showcasing her expertise and dedication to improving medical technology. Her work has the potential to significantly enhance surgical procedures and patient outcomes.