The aim is to launch a new therapeutic method for sports medicine using a combination of new combined laser therapeutic device with adequate therapies and limited quantities of corresponding drugs.
To develop, manufacture, test and introduce to the market a completely new type of medical device for vacuum therapy.
Production and testing of biomedical shape memory alloys, development of suitable training methods and devices to induce the 2-way shape memory effect, and investigation of its long-term stability and testing of alloy biocompatibility.
To improve the quality of oligonucleotide dna micro-arrays produced with ink jet technology. It will be achieved with image processing software for control of oligonucleotide synthesis.
Apart from in humans, iron deficiency is still a major problem in several segments of the livestock industry, with piglet anaemia as the most widespread. The main objective of this project is to develop a new hem-iron product obtained from pig blood waste in slaughterhouses.
This project deals with the development of novel biodegradable and antimicrobial formulations (solution, gels and creams) composed of a mixture of different natural substances in a specific ratio for developing new cosmetic and pharmaceutical products.
The aim of the project is the development of a new generation of medical lasers with integrated real-time monitoring systems for determining optimal laser treatment parameters based on tissue changes during treatment. Integrated tissue monitoring will result in increased safety and efficacy.
The purpose of this project is the study, the interpretation and the utilisation of the effects of migration that an ultrasound field produces in inclusions of micro and nano bubbles, with therapeutic purpose in different medicine fields.
A recombinant protein purification platform based on cim(r) convective interaction media monolith technology will be developed to significantly decrease protein purification time and costs. The project will result in novel, technical, superior products and services and lower production costs.
To develop a new medical tampon for gynaecological use based on incorporation of chitosan nanoparticle onto cellulose tampon which will provide an optimal and controlled diffusion of antimicrobial substance into the vaginal and cervical mucosa membrane.