Company Filing History:
Years Active: 2025
Title: The Innovative Contributions of Robert Matthew Damstra
Introduction
Robert Matthew Damstra is a notable inventor based in Lake Forest, California. He has made significant strides in the field of wearable technology, particularly in the development of orthopedic devices. His innovative approach combines advanced materials with practical applications, showcasing his commitment to improving patient care.
Latest Patents
Damstra holds a patent for a "Customized wearable with integrated pathways and/or interconnects." This invention relates to an orthopedic precast that, when subjected to a specific level of heat while worn adjacent to a targeted body part, transitions into an orthosis that conforms to the body part. The orthopedic precast consists of a first portion made of interwoven strands of a thermoplastic material with a defined melting temperature. These strands create a pathway within the first portion, while an interconnect is positioned within this pathway. The interconnect is designed to receive power and radiate heat based on the current flowing through it. When the interconnect supplies heat at or above the melting temperature, the thermoplastic material partially melts, allowing the device to transition from a flexible state to a rigid orthosis upon cooling.
Career Highlights
Damstra is currently employed at Aspen Medical Products, Inc., where he continues to develop innovative solutions in the medical device industry. His work focuses on enhancing the functionality and comfort of orthopedic devices, making them more effective for patients.
Collaborations
Throughout his career, Damstra has collaborated with talented individuals such as Albert V Romo and Joel Perez. These partnerships have contributed to the advancement of his projects and the overall success of the innovations at Aspen Medical Products.
Conclusion
Robert Matthew Damstra's contributions to wearable technology and orthopedic devices exemplify the impact of innovation in healthcare. His patented work not only enhances patient comfort but also represents a significant advancement in medical technology.