Company Filing History:
Years Active: 1991
Title: Joseph J Mazza: Innovator in Biopsy Needle Technology
Introduction
Joseph J Mazza is a notable inventor based in Marshfield, Wisconsin. He has made significant contributions to the field of medical technology, particularly in the design of biopsy needles. His innovative approach has led to the development of a unique biopsy needle assembly that enhances the efficiency of tissue sampling.
Latest Patents
Joseph J Mazza holds a patent for a biopsy needle construction. This invention features a biopsy needle assembly comprising an outer tubular cannula with an angular distal end. The inner surface of the cannula adjacent to the distal end is cylindrical, and the end of the inner cylindrical surface opposite the distal end is undercut to provide a sharp annular interior edge. A solid stylus is disposed within the cannula and has an angular distal end, allowing for precise tissue sampling. When the needle assembly is engaged with the tissue, a specimen is collected internally of the cannula, and the sharp undercut interior edge secures the specimen within. After the cannula is removed from the tissue, a rod-like probe is inserted into the distal end of the cannula to push the specimen through its entire length, ensuring the specimen is removed intact. This innovative design has the potential to improve biopsy procedures significantly.
Career Highlights
Joseph J Mazza is associated with the Marshfield Clinic, where he applies his expertise in medical technology. His work at the clinic has allowed him to focus on developing solutions that enhance patient care and improve medical procedures. His dedication to innovation in the medical field is evident through his patent and ongoing contributions.
Collaborations
Due to space constraints, the collaborations section has been omitted.
Conclusion
Joseph J Mazza's contributions to biopsy needle technology exemplify the impact of innovation in the medical field. His patented design not only improves the efficiency of tissue sampling but also enhances patient outcomes. His work continues to inspire advancements in medical technology.