Research & Technology Organization
IMDEA Water Institute posted this:Biology and microbiology laboratoryIn our Biology and Microbiology laboratory we provide surface and groundwater analysis services in order to: • Support water quality surveillance initiatives through standardised national and international methods, in accordance with the Water Framework Directive (WFD 2000/60/EC) and Groundwater Directive (GWD2006/118/EC). • Monitor cyanobacteria blooms and their toxins in surface water and develop technological solutions for the elimination of cyanotoxins in water treatment.
Centre Technology Transfer CITTRU posted this:Method of isolation and purification of xanthophylls from diatom cultureXanthophylls, with their antioxidant, anticancer, anti-inflammatory and neuroprotective properties, found important applications in food and nutrition, cosmetic and environmental industries, as well as pharmacy and medicine. Diadinoxanthin (Ddx) and diatoxanthin (Dtx) are two pigments that belong to xanthophylls family. The availability of Ddx and Dtx on the market is low and up to date limited as they are sold exclusively in small quantities at extremely high prices to be used as HPLC calibration standards. The solution of the above mentioned problems is the 5-step method for the isolation and purification of Ddx and Dtx developed at the Jagiellonian University..
Universidad de Alcalá-OTRI posted this:Automated control and supervision system for pharmaceutical manufacturing environments.GEINTRA is a research group from the Department of Electronics of the University of Alcala. The group has developed a system which gives the opportunity to control and supervise the environments conditions for pharmaceutical products manufacture. GEINTRA is looking for companies working in Agrofood and Pharmaceutical sectors to achieve commercial agreements with technical assistance.
Universitat de València posted this:Nitrogen removal control system based on low-cost sensorsThis control system allows optimization of the activated sludge process since maintains effluent nitrogen concentration under limit values with minimum energy consumption. The most remarkable advantages provided by this technology are: Cost reduction of initial investment and maintenance Easier operation than nutrient analysers Lower time response Lower aireation energy consumption Lower pumping energy consumption
Technology Transfer Office
Technology Transfer Office
Better Care, S.L. posted this:Better Care allows the capture, integration, analysis and processing of biomedical signals from a wide range of medical devices (monitors, respirators, ...) The platform incorporates medical knowledge through implementation of configurable alarms.Our product is unique and different compare with the competition because: - The capacity of acquiring, processing and storing biomedical signals in high quality with advanced alarms. - The advanced alarms are validated by health professionals. - Provide tools for teach and research purposes. - Synchronization of signals from different devices. - Designed for and by health professionals. - Wide variety of medical devices integrated, providing the same interface for the user, easily customizable. - Fully integrated with the Hospital Information System and Electronical Medical Record (EMR) using standards (HL7, DICOM).
Research & Technology Organization
TicSalut Foundation posted this:Innovative ICT Virtual Reality tool for the personalized rehabilitation of motor deficits of the upper extremities after a brain lesion due to Stroke (Ictus)RGS is based on leading edge virtual reality and neurorehabilitation research, and clinical trials on more than 100 patients have shown significant improvements in the rehabilitation of deficits of the upper extremities. RGS is a generic paradigm for brain repair and neurorehabilitation that we will be applied in the future to a range of other deficits in stroke, for instance gait training, aphasia, depression and chronic pain and to other neuropathologies, for instance cerebral palsy and Traumatic Brain Injury (TBI). Technology Innovation: RGS is based on the integration of a wide range of highly innovative ICT technologies, such as Virtual Reality, learning and adaptive systems, image and scene analysis, wireless technologies, multimodal interfaces, simulation tools, sensors, tele-health and information systems. Despite this major integration effort combined with solid science and medical research it is nearly invisible for the End User, unobtrusive and low power consuming (home PC based). The RGS will contribute to directly improve the Quality of Life of the increasing number of patients in need of rehabilitation for motor deficits and will improve accessibility to healthcare therapy/home assistance and to a novel and highly innovative ICT based product. We are now listing the most important aspects: •Personalized Therapy. The RGS system can be personalized to the needs of every patient due to the self-learning and adaptive systems specifically developed, that automatically adapt the difficulty of the games to the performance of the patient in order to avoid frustration. Furthermore, with the aim of incentivising the patient the RGS system amplifies the movement of the impaired arm by successfully completing simple tasks in the virtual world in line with the movement made by the patient • Accessibility and Usability. The RGS is designed thinking about the patient and clinician needs. The system can run on a standard PC which will need only a normal internet connection. Additionally, the low cost of the system renders it an affordable solution for the target population of end users and healthcare agents. The final RGS is unobtrusive; its User interface also allows remote monitoring by the healthcare provider. The RGS incorporates learning and adaptive systems that will allow the system to automatically change the rehabilitation scenario based on the results of the previous exercises performed by the patient and be further supervised by the health care. •Tele-rehabilitation and increase of autonomy for everyone. The RGS will allow patients to design their own rehabilitation schedule and work at home, in coordination with everyday life activities and in consultation with their therapists, who will be able to individualize their therapy and follow their progress remotely (accuracy, speed, movement patterns…) and ensure the quality of the therapy. •Efficiency and more equal access to services. The self-managed RGS “home tele-assistance” will facilitate access to rehabilitation training at home to patients that may not have access to it or who may have had a restricted access due to the great demand from the elderly population and limitations from the healthcare systems; it will also avoid or minimize the cost and loss of time in transportation for both patients and clinicians to and from the hospital/rehabilitation centre designated by the health system or a private insurance company. (1~2 hours per day just in the ambulance).