Company Filing History:
Years Active: 2018
Title: Laurens E. Howle: Innovator in Medical Device Technology
Introduction
Laurens E. Howle, located in Mebane, NC, is an esteemed inventor known for his contributions to medical technology. With a focus on improving healthcare delivery methods, Howle has created innovations that have the potential to enhance patient care significantly.
Latest Patents
One of Howle's notable patents is for a groundbreaking device titled "Jetless intravenous catheters and mechanical assist devices for hand-injection of contrast media during dynamic tomography and methods of use." This invention features a jetless intravenous catheter designed for the efficient delivery of fluids into a patient's peripheral vein. The catheter comprises an elongated body with a wall that defines an internal fluid passageway, facilitating fluid flow in a longitudinal direction at a controlled velocity. The innovative design includes flow-reducing features that transition fluid flow to ensure a more stable exit velocity, improving the overall performance of fluid delivery during medical procedures.
Career Highlights
Howle's career has been marked by his role at Duke University, where he has leveraged his expertise in medical devices. His dedication to advancing healthcare technology aligns with the university's mission of providing cutting-edge research and solutions to complex medical challenges.
Collaborations
In addition to his individual contributions, Laurens collaborates with talented colleagues such as Rendon Clive Nelson and Eli Breeden Nichols. Their combined efforts enhance the innovation landscape at Duke University, fostering an environment conducive to the development of effective medical solutions.
Conclusion
Laurens E. Howle stands out as a significant figure in the medical device realm, with his inventive work leading to advancements that positively impact patient care. With a dedicated career enriched by collaboration and innovation, Howle continues to influence the future of medical technology and its application in clinical settings.