Company Filing History:
Years Active: 1976-1991
Title: Dietrich Schulte: Innovator in Medical Adhesives and Bandages
Introduction
Dietrich Schulte is a notable inventor based in Pinneberg, Germany. He has made significant contributions to the field of medical adhesives and bandages, holding a total of 3 patents. His innovative designs focus on enhancing the functionality and effectiveness of wound care products.
Latest Patents
One of Schulte's latest patents is the "Self-adhesive wound suture plaster." This invention features a carrier material, particularly in strip form, made from elastic knitted or woven fabric, sheet, or nonwoven. The unique characteristic of this plaster is that the carrier strip can extend under a pulling force and return to its original length once the force is removed. The carrier strip is designed to undergo a length extension of approximately 2 to 10% under a pulling force of 5 N/cm, 5 to 15% at 10 N/cm, and 15 to 30% at 20 N/cm.
Another significant patent is the "Supporting bandage." This bandage is designed to form a stiffening or supporting cast and comprises a carrier material along with a specific composition. The base material is a gas-permeable flexible fabric-like structure. The composition includes 55-97% by weight of burnt gypsum, 1-30% by weight of a highly crosslinked, finely dispersed poly-vinyl ester powder, and up to 12% by weight of a lightweight cellular or porous filler.
Career Highlights
Throughout his career, Dietrich Schulte has worked with prominent companies such as Beiersdorf AG. His experience in these organizations has contributed to his expertise in developing innovative medical products.
Collaborations
Schulte has collaborated with notable individuals in the industry, including Peter Gleichenhagen and Gunther Bonitz. These partnerships have likely influenced his inventive processes and product development.
Conclusion
Dietrich Schulte's contributions to medical adhesives and bandages demonstrate his commitment to innovation in healthcare. His patents reflect a deep understanding of material properties and their applications in wound care.