Company Filing History:
Years Active: 2017-2019
Title: David Washburn: Innovator in Joint Replacement Technologies
Introduction
David Washburn is a notable inventor based in Ringwood, NJ (US). He has made significant contributions to the field of joint replacement and resurfacing technologies. With a total of 2 patents, his work focuses on enhancing the performance and longevity of joint devices.
Latest Patents
Washburn's latest patents include innovative joint replacement and resurfacing devices, systems, and methods. These inventions utilize thin film ternary ceramic coatings that provide reliable articulation and bearing surfaces. They also protect both articular and modular junction surfaces from corrosion, wear, and fretting. Furthermore, these technologies reduce the potential for the release of metal ions from joint systems. Isoelasticity is achieved based on parameters such as material of construction, porosity, and coating system. The thin film coatings can be functionalized to enhance hydrophilicity and are applicable in any anatomical articulating joint region. Additionally, his patents feature titanium alloy composite structures that include an ultra-porous structured titanium alloy bone fixation surface and a solid articular surface, with a thin film ceramic coating applied to one or both surfaces.
Career Highlights
David Washburn is currently associated with Acuitive Technologies, Inc., where he continues to develop advanced solutions for joint replacement. His expertise in materials science and engineering has positioned him as a leader in this specialized field.
Collaborations
Throughout his career, Washburn has collaborated with talented professionals, including Alex Khowaylo and James Malayter. These partnerships have fostered innovation and contributed to the success of his projects.
Conclusion
David Washburn's contributions to joint replacement technologies exemplify his commitment to improving patient outcomes through innovative solutions. His work continues to influence the field and inspire future advancements in medical devices.