Company Filing History:
Years Active: 2015-2017
Title: Inventor Spotlight on Zachary J. Larimore
Introduction
Zachary J. Larimore is a notable inventor based in Elkton, Maryland, recognized for his innovative contributions in the field of biomedical research. With two patents to his name, Larimore has made strides in developing methods that advance scientific understanding and testing methodologies.
Latest Patents
Larimore's latest invention is a device and method for inducing brain injury in animal test subjects. This apparatus employs a platform that supports a laboratory animal, providing an opening for positioning the animal's head. A projectile launching device, oriented below the platform, propels a projectile directly at or through the opening, resulting in brain injury through either a pressure wave or concussive impact. The invention highlights the importance of safety in research; while direct impact without protection causes severe traumatic brain injury, the use of a helmet mitigates risks such as skull fractures and intracerebral hemorrhages while still yielding mild concussion-like pathology.
Career Highlights
Larimore is currently associated with the United States of America as represented by the Secretary of the Army. His work not only demonstrates an innovative approach to understanding brain injuries but is also aligned with military research interests, potentially paving the way for advancements in protective measures and trauma assessment.
Collaborations
Throughout his career, Larimore has collaborated with various professionals, including Frank Casper Tortella and Larry R. Holmes, Jr. These partnerships exemplify the spirit of collaboration that is essential in driving forward innovative research and development.
Conclusion
Zachary J. Larimore's contributions to the field of biomedical research through his patented inventions are significant. His work reflects a commitment to improving understanding of brain injuries and safety measures in research settings. As he continues to innovate, his efforts may well lead to enhanced protective strategies for laboratory animals and advancements in the study of traumatic brain injuries.