Company Filing History:
Years Active: 2019
Title: The Innovations of Lauri L. Jenkins in Tissue Adhesive Technology
Introduction
Lauri L. Jenkins is a notable inventor based in Christiansburg, Virginia, with a focus on developing innovative medical materials. She has made significant contributions to the field of tissue adhesives, specifically through her unique hydrogel formulations that have promising applications in surgery and wound healing.
Latest Patents
Jenkins holds a patent for her invention titled "Low Swell Tissue Adhesive and Sealant Formulations." This innovative hydrogel adhesive is created by reacting an aldehyde-functionalized dextran containing pendant aldehyde groups with a multi-arm polyethylene glycol amine. The resulting hydrogel demonstrates minimal swelling when exposed to physiological conditions, making it suitable for medical applications. The low swell property helps to reduce complications associated with traditional adhesives, such as fibrosis, scar formation, and surgical adhesions.
Career Highlights
Lauri L. Jenkins has established herself as a key figure in her field through her work at Actamax Surgical Materials, LLC. With a dedication to improving surgical outcomes through innovative materials, she has dedicated her career to developing technologies that enhance patient care and recovery.
Collaborations
Throughout her career, Jenkins has worked alongside her colleague, Robert C. Dilucclo, contributing to the research and development of advanced surgical materials. Their collaboration has facilitated the advancement of technologies that cater to specific medical needs, further establishing Jenkins's reputation in the industry.
Conclusion
Lauri L. Jenkins continues to be an important figure in the innovation of tissue adhesives, with her patent reflecting her commitment to enhancing medical procedures. The advancements that she has introduced through her hydrogel formulation not only exemplify her ingenuity but also contribute significantly to the field of surgical materials, promoting safer and more effective medical applications.