Location History:
- Grant Township, Washington County, MN (US) (1986)
- Stillwater, MN (US) (1984 - 1989)
Company Filing History:
Years Active: 1984-1989
Title: Innovations by Katherine E Reed
Introduction
Katherine E Reed is a notable inventor based in Stillwater, MN (US). She has made significant contributions to the field of orthopedic materials, holding a total of 6 patents. Her work focuses on developing innovative solutions that enhance the functionality and usability of orthopedic casting materials.
Latest Patents
One of her latest patents is for curable resin coated sheets having reduced tack. This invention relates to orthopedic casting materials that exhibit reduced tack and methods for preparing and using such materials. The materials comprise a nonwoven, stretchable fabric impregnated with a curable prepolymer resin. The design allows the interstices between the fibers to receive the resin while keeping the apertures between fiber bundles substantially unoccluded. This results in orthopedic casting materials that are relatively inexpensive and exhibit improved properties. Another significant patent is for a curable resin coated sheet useful as an orthopedic bandage, which also has reduced tack. This resin coated sheet is pre-lubricated with a lubricant that can be bonded to the resin or applied to the surface of the coated sheet, effectively reducing the kinetic coefficient of friction.
Career Highlights
Katherine E Reed is associated with the Minnesota Mining and Manufacturing Company, where she has been able to apply her innovative ideas in a practical setting. Her work has contributed to advancements in orthopedic materials, making them more effective and user-friendly.
Collaborations
Some of her notable coworkers include Dean A Ersfeld and Matthew T Scholz, who have collaborated with her on various projects, enhancing the scope and impact of their innovations.
Conclusion
Katherine E Reed's contributions to the field of orthopedic materials through her patents demonstrate her commitment to innovation and improvement in healthcare solutions. Her work continues to influence the development of more effective orthopedic casting materials.