Company Filing History:
Years Active: 2010-2016
Title: Innovations by Manuel Pinto in Orthopedic Technology
Introduction
Manuel Pinto is an accomplished inventor based in Minnetonka, MN (US). He has made significant contributions to the field of orthopedic technology, particularly through his innovative designs in bone screws. With a total of 3 patents to his name, Pinto's work has the potential to enhance surgical procedures and patient outcomes.
Latest Patents
One of Pinto's latest patents is the Multi-thread bone screw and method. This invention features a bone screw that comprises a threaded shank with a distal end portion and a proximal end portion. The screw defines a first threaded section that is designed for anchoring in cancellous bone, while a second threaded section extends from the first and is adapted for engagement in cortical bone. The second threaded section has a finer thread pattern compared to the first. In one embodiment, the first threaded section includes a helical threading that defines a single lead thread pattern for anchoring in cancellous bone. The second threaded section features interleaved helical threading to create a dual lead thread pattern for cortical bone engagement. Additionally, the bone screw includes a head portion that is configured for coupling to a spinal implant.
Career Highlights
Manuel Pinto is currently employed at Warsaw Orthopedic, Inc., where he continues to innovate and develop new orthopedic solutions. His work is characterized by a commitment to improving surgical techniques and patient care through advanced technology.
Collaborations
Pinto collaborates with notable colleagues in the field, including Francis Denis and Timothy A. Garvey. Their combined expertise contributes to the development of cutting-edge orthopedic products.
Conclusion
Manuel Pinto's contributions to orthopedic technology through his innovative patents demonstrate his dedication to enhancing surgical practices. His work not only reflects his ingenuity but also has the potential to significantly impact patient care in the orthopedic field.