Location History:
- Campbridge, MA (US) (2018)
- Cambridge, MA (US) (2007 - 2022)
Company Filing History:
12 out of 1,309 
8 out of 16 
5 out of 46 
Years Active: 2007-2022
Title: The Innovative Contributions of Howard Seeherman
Introduction
Howard Seeherman, based in Cambridge, MA, is a prolific inventor with an impressive portfolio of 22 patents. His innovative work primarily focuses on medical devices and therapies that enhance bone repair and regeneration. Seeherman's contributions to the field have had significant implications for improving patient outcomes in orthopedic medicine.
Latest Patents
Among Seeherman's latest patents are groundbreaking inventions aimed at advancing bone treatment methodologies. One notable patent involves a porous carrier matrix that serves as a bone graft substitute. This invention integrates a porous collagen matrix with calcium-deficient hydroxyapatite ceramic granules, facilitating the delivery of osteoinductive agents for bone repair and guided tissue regeneration. Another recent patent details systems and methods for better delivering osteoinductive molecules in bone repair. This technology outlines the preparation of synthetic osteoinductive bone grafts by loading porous ceramic granules with osteoinductive agents, utilizing low-pH buffers and pre-treatments for optimized performance.
Career Highlights
Throughout his career, Howard Seeherman has worked with renowned companies in the biopharmaceutical sector, including Wyeth and Bioventus, LLC. His experiences in these organizations have enriched his expertise in the development of innovative solutions for medical applications.
Collaborations
Seeherman's success is also attributed to his collaborations with esteemed colleagues, such as John Martin Wozney and Christopher Todd Brown. These partnerships have fostered an environment of creativity and innovation, propelling advancements in bone repair technologies.
Conclusion
Howard Seeherman's contributions to the field of biomedical engineering are notable, with a specific emphasis on enhancing techniques for bone repair and regeneration. His inventive solutions continue to influence the development of medical devices, reflecting a commitment to improving therapeutic outcomes for patients. As he continues his work in this dynamic field, his impact on innovations in bone healing and repair is expected to grow even further.