Support for development of discoveries of novel bioactives to the stage of commercialisation through license agreements or the formation of new companies.
Design, development, evaluation, and manufacturing of medical devices (bone repair products). 3-D CAD/CAM system, Finite Element Analysis, static and fatigue biomechanical testing, contract manufacturing, forensic engineering.
Biomedical drug re-engineering using supercritical fluid (SCF) technology to create sub-micron particles with improved solubility and bioavailability, for enhanced drug design and delivery.
Fluorescence-based protein activity kits with "Spectral Interference Protection".
Reiner Beck lists his favourite links regarding medical science and biomedical engineering.
Design and fabrication services for biomedical micro and nanotechnologies.
Computerized devices for rehabilitation, including ambulatory physiological data recorders and an artificial hand.
Graduate "distance learning": Extraction of Signals from Noise, Computing Methods for Simulation Modelling and Analysis, Instrumentation Signal Acquisition and Stimulation, Signal Analysis for Medicine and Physiology, Biomedical Signal Processing: Concepts and Techniques, sound and vibration, biomedical signal processing, ISVR, Institute of Sound and Vibration Research, University of Southampton
Biomedical engineering, biomedical physics, biomechanics, and bioacoustics. Institute of Applied Physics, Russian Academy of Sciences
High and low power lasers for medicine: 5-, 10-, and 30-W lasers for surgery (CO2) and contact microsurgery (Nd:YAG); 5- and 10-W Er:YAG lasers for dentistry and dermatology; red and infrared diode lasers from 100 mW up to 500 mW for LLLT,; 15- and 30-W high power diode lasers for contact microsurgery. Plus industrial lasers and accessories.