Determine the optimal use of the superconductive quantum interference device (squid)/mri in low-field nmr. The technical advantages are a simpler magnet, a convenient, low cost magnet system for use in interventional procedures.
Development of new antibacterial additives, fibres and textile materials designed for protection of humans against pathogenic microorganisms.
The construction of new hybridoma cell lines producing monoclonal antibodies, construction of fluorochrome labelled antibodies for diagnostic purposes, and certification of selected reagents as in-vitro diagnostics.
The project includes developing the equipment to verify a new diagnostic method based on non-invasive cardio-stimulation. This will enable risk assessment of coronary diseases during screening tests of populations at risk.
Experimental production of prototype radioimmunology reagents based on engineered antibodies harbouring all desired properties (e.G. Affinity, stability, non-immunogenicity and high levels of labelling) in combination.
Patented drug formulations of a phthalocyanine photosensitiser based on microfludised lipids in a gel are being developed for photodynamic therapy of tumours together with non-coherent and coherent light sources suitable for the market.
To discover and develop methods of isolation, identification and propagation of bacterial strains which will be used after completion of the project for the preparation of a new polyvalent vaccine against infectious diseases of lower respiratory tract in pigs.
The development of hearing-evaluation equipment for people unable or not wanting to give feedback during a hearing test. Thus the project develops a new device capable of detecting and transforming the magnetic signs emitted by the auditory nerve.
Patented microcrystalized hydrophobic phtalocyanine liposomal drug form plus nayf4 (dopped by yb and er) nanoparticle drug form with matching lasers will be developed, converting 980 nm to 670 nm and enabling unlimited light penetration for infrared pdt curing tumors/metastases in any location.
The aim of the project is research, development and preparation technology of nanolayers with antibacterial, antifungal and antiviral effects and methods of application used in the field of veterinary.