BioCer Entwicklungs-GmbH
Booth number: 13E17
www.biocer-gmbh.de
About us
BioCer Entwicklungs-GmbH is a young and innovative medical device company from Bayreuth, Bavaria. We specialize in research, development and production of innovative medical biomaterial products without animal or human components. As a service provider on behalf of our customers, we offer innovative coating systems for existing implant systems and develop new medical products.
BioCer Entwicklungs-GmbH commercializes innovative technologies developed in conjunction with leading national and international Universities. BioCer´s primary technology is the development and production of plant based haemostatic materials, to assist medical professionals in the control of blood loss in a diverse range of complex surgical procedures.
BioCer have also commercialized a unique advanced surface coating system of Titanium Oxide, to optimize the biocompatibility of surgical mesh for application in hernia repair and breast reconstruction.
Address
Ludwig-Thoma-Str. 36c
95447 Bayreuth
Germany
Phone: +49 921 787770-0
Products & Services
BioCer developed the innovative haemostatic products HaemoCer™ and HaemoCer™ PLUS for use in surgical procedures. HaemoCer™ is a 100% plantbased material without any human or animal derived components. HaemoCer™ accelerates the physiological clotting cascade by dehydrating the blood. A robust gel matrix is formed, which is providing a mechanical barrier to further bleeding. HaemoCer™ is absorbed completely within 48 hours. In collaboration with experts, we developed TiO2Mesh™, a surgical mesh implant with a titanium oxide surface coating. TiO2Mesh™ meets the requirements of modern hernia surgery. Due to the biocompatible coating, foreign body reactions are reduced widely, and tissue incorporation and cell ingrowth are improved. TiO2Mesh™ BRA is an innovative surgical mesh implant for breast reconstruction after radical mastectomy. The fabric can be stretched in both directions and is perfectly adapted to the dynamics of human body tissue in terms of elasticity.
