Company Filing History:
Years Active: 2016
Title: The Innovative Mind of James Chow
Introduction
James Chow, an inventive mind based in Columbia, SC, has made significant strides in the field of medical devices. With a patent to his name, Chow has contributed to innovations aimed at improving the health and quality of life for individuals suffering from diabetes.
Latest Patents
Chow holds a patent for a groundbreaking treatment designed to render implants resistant to diabetes. This innovation involves a medical device treated with a phenolic compound, specifically pentagalloyl glucose (PGG). The application describes a process where collagen or elastin-based scaffolds are treated with this compound, effectively enhancing their resilience against glycoxidative stress linked to advanced glycation end products (AGEs) in hyperglycemic environments typical of diabetes mellitus. Notably, these treated scaffolds also exhibit reduced stiffness and inflammation while maintaining their ability to remodel in vivo.
Career Highlights
James Chow is affiliated with Clemson University, where his work focuses on medical innovations that have the potential to transform patient care. His dedication to research and development is reflected in his patent, which showcases his ability to address complex medical challenges through inventive designs.
Collaborations
At Clemson University, Chow collaborates with esteemed colleagues such as Agneta Simionescu and Dan T Simionescu, both of whom contribute to advancing research in the biomedical field. These collaborations enhance the impact of Chow’s work and promote a culture of innovation within the institution.
Conclusion
James Chow exemplifies the spirit of innovation through his contributions to medical sciences. His patent for treatment-resistant implants highlights his commitment to addressing significant health issues, particularly in the realm of diabetes management. As he continues to work alongside talented professionals at Clemson University, Chow's future endeavors are poised to leave a lasting impact on the field of biomedical engineering.