Company Filing History:
Years Active: 2024
Title: Shamus Hillier: Innovator in Tissue Grafts
Introduction
Shamus Hillier is a notable inventor based in Coral Springs, FL (US). He has made significant contributions to the field of medical technology, particularly in the area of tissue grafts. His innovative work focuses on improving nerve repair techniques, which can have a profound impact on patient recovery.
Latest Patents
Shamus Hillier holds a patent for "Tissue grafts with pre-made attachment points." This patent pertains to membranous tissue grafts that include one or more pre-made attachment points, which may consist of pre-made markings and/or pre-made suture holes. The grafts can be tubular or rectangular in shape and are designed for use in nerve repair by wrapping around severed or damaged nerves. These grafts are particularly suitable for repairing severed nerves with a gap of less than 5 mm between the stumps. The methods outlined in his patent provide a novel approach to implanting these grafts onto damaged nerves, enhancing the potential for successful recovery.
Career Highlights
Shamus Hillier is associated with Axogen Corporation, a company that specializes in nerve repair and regeneration. His work at Axogen has allowed him to focus on developing innovative solutions that address critical challenges in nerve repair. His patent reflects his commitment to advancing medical technology and improving patient outcomes.
Collaborations
Shamus has collaborated with notable colleagues, including Curt Andrew Deister and Jonathan Andrew Tinnemeyer. These collaborations have likely contributed to the development and refinement of his innovative ideas in the field of tissue grafts.
Conclusion
Shamus Hillier's contributions to the field of tissue grafts exemplify the importance of innovation in medical technology. His patent for tissue grafts with pre-made attachment points represents a significant advancement in nerve repair techniques. Through his work at Axogen Corporation, he continues to make strides in improving patient care and recovery outcomes.