Location History:
- Voorhees, NJ (US) (2010 - 2013)
- Vorhees, NJ (US) (2014)
Company Filing History:
6 out of 35 
1 out of 35 
Years Active: 2010-2014
Title: Innovations in Wound Healing: The Contributions of Amitabha Mitra
Introduction
Amitabha Mitra is a notable inventor based in Voorhees, NJ, who has made significant contributions to the field of medical devices, particularly in wound healing. With a total of seven patents to his name, Mitra's work focuses on developing innovative therapeutic devices that promote the healing of wounds in mammals.
Latest Patents
Mitra's latest patents include a wound dressing with a discontinuous contact layer surface. This therapeutic device is designed to enhance the healing process of wounds by utilizing a permeable structure with a plurality of depressions formed in its surface. The device is positioned adjacent to the wound surface, allowing for effective treatment. Additionally, he has developed a method for manufacturing this therapeutic device, which involves creating a permeable substrate and forming depressions in its surface. Another significant patent involves wound packing material for use with suction, which consists of nonabsorbent synthetic polymeric fibers. This innovative packing material is suitable for placement in a mammal's wound and includes a method for treating the wound using this packing.
Career Highlights
Throughout his career, Amitabha Mitra has worked with reputable companies such as Boehringer Technologies, LP and Boehringer Laboratories, Incorporated. His experience in these organizations has contributed to his expertise in developing advanced medical devices.
Collaborations
Mitra has collaborated with notable individuals in his field, including John R. Boehringer and John Karpowicz. These collaborations have likely enriched his work and led to further advancements in wound healing technologies.
Conclusion
Amitabha Mitra's innovative contributions to wound healing through his patents and collaborations highlight his significant role in the medical device industry. His work continues to impact the way wounds are treated, promoting better healing outcomes for patients.