Artann welcomes opportunities for collaborative research. Our past and ongoing scientific partnerships are comprised of multiple national and foreign academic research and clinical institutions and laboratories, including several institutes of the National Institutes of Health such as the National Cancer Institute, the National Institute of Arthritis and Musculoskeletal diseases, the National Institute of Aging and National Institute of Biomedical Imaging and Bioengineering, Rutgers University, the University of Michigan, Thomas Jefferson University, the Stevens Institute of Technology, Robert Wood Johnson Medical School of the University of Medicine and Dentistry of New Jersey, Cancer Institute of New Jersey, Wayne State University, Los Alamos National Laboratory, the NASA Glenn Research Center, the NASA Langley Research Center, the University of Paris, Francois Rabelais University in Tours, France, Moscow State University, City University of New York, Cornell University, the Cancer Center of Armenia, Kharkiv National University in Ukraine, Mayo Clinic in Rochester, MN, Georgetown University in Washington, DC, and Veteran Administration Medical Centers in Washington DC and Minneapolis. Most of Artann’s scientific collaborations are supported through cooperative grant funding and are aimed at the generation of new knowledge and understanding presented in scientific publications and presentations.
Artann has established business partnerships with several innovative technology companies to enhance development and commercialization of its products.
ProUroCare Medical Inc. is an emerging technology company that is developing its innovative vision in sensing technologies to increase the safety and efficacy of medical diagnostics and therapeutics. Currently, ProUroCare is primarily focused on products and technologies that are capable of identifying tissue abnormalities in the prostate using minimally invasive techniques, and on developing proprietary vision technology for thermal therapy systems to aid in the treatment of prostate related diseases. ProUroCare's first product will be the ProUroScan System, which is being designed as a unique diagnostic-visioning system that enables family physicians, internists and urologists to accurately identify and display tissue abnormalities and map the prostate.
Starting with tactile sensing technology developed at Harvard University, Pressure Profile Systems Inc. was founded in 1996 to design, develop, and manufacture high performance multi-element pressure and tactile sensing systems. Pressure Profile Systems Conformable Tactile Technology was developed over four years with government grants from several agencies, including the Defense Advanced Research Agency, the Army Research Lab, and the National Institute of Health. Other elements of their technology, such as our fluid pressure strip sensors and our discrete tactile sensing pads, have been developed through industry and university collaborations.
Medical Tactile Inc. is an emerging medical device manufacturer incorporated in Delaware and located in Los Angeles, California. The company was founded to develop, manufacturer and market the application of tactile sensing technology as an adjunctive device for the physical breast exam. Medical Tactile founders are committed to creating an affordable, fast and easy to use device that will enhance and quantify the traditional process of manual palpation in breast cancer screening. Medical Tactile first product, the SureTouch Visual Mapping System, represents a first phase in developing tactile sensing technology to improve early detection of breast cancer and ultimately save lives.
IBET Inc.'s focus is on research and development of instrumentation for the biochemical, biophysical, and biomedical sciences. The company’s expertise and experience in biothermodynamics has inspired development of proprietary technology for monitoring thermal and thermodynamic properties of macromolecules; specifically, temperature-dependent UV/Vis spectroscopy and ultrasonic velocimetry. IBET Inc. has developed analytical instruments designed to provide new and unique information about the thermodynamic properties of biologically important macromolecules and biomolecular interactions. These instruments address a deficiency in high-throughput thermodynamic methods resulting from the explosive growth in knowledge of DNA and protein sequence information.