Creation of multiplex microarray allergy test systems

This project aimed to create two diagnostic kits based on innovative microarray technology to detect Type I hypersensitivity to medications and airborne/household allergens. The planned diagnostic kits would have advantages like multiplexing, high sensitivity, quick examination times, minimal blood samples required, and quantitative allergy testing methods.

Enhancing Allergen Purification and Standardization

With the objective of meeting the demand for pure and high-quality allergen components in the market, our primary focus was on utilizing tobacco leaves, specifically the Nicotiana benthamiana expression system, to produce allergen components. By establishing a model purification scheme, we have significantly enhanced the production process, ensuring the creation of allergen components that meet stringent quality standards. This breakthrough development offers immense potential for improving the diagnosis and treatment of allergic diseases worldwide.

Development of COVID-19 test system

This project was aimed to create an innovative hybrid testing system for the detection of antibodies specific to COVID-19 and other cold viruses. Successful implementation resulted in a new multifunctional ELISA test.

New Tools for Determining Microbial Resistance by Immunological Methods 

Antibiotic resistance of bacteria is one of the most urgent problems of modern medicine. This project focused on creating new molecular tools for detecting antibiotic resistance enzymes – β-lactamases – in pathogenic bacteria. The project resulted in a large collection of new antibodies with diagnostic and commercial value against bacterial resistance factors.

Development of a Quantitative Test for Assessing Vitamin D Metabolites in Human Blood Using Dry Blood Sample Technology

The goal of this project was to create an innovative, accurate, and easily accessible quantitative diagnostic test to determine the concentration of vitamin D metabolites in human blood, employing dry blood microsample technology.