The Eliava Institute has been at the forefront of bacteriophage research, dedicated to understanding the potential of these natural viruses in combating bacterial infections. With over 100 years of experience and expertise, our team of scientists and researchers continue to build upon this legacy, driving innovation and pushing the boundaries of phage therapy.
The Eliava Institute was founded in 1923 by distinguished Georgian physician, bacteriologist and phage researcher Prof. George Eliava. An extraordinary role in the institute’s development was played by famous French-Canadian scientist Felix D’Herelle, who was one of the discoverers of bacteriophages. These scientists developed the joint idea of creating the World Centre of Phage Research and Phage Therapy in Tbilisi, Georgia. Unfortunately, this was the time of Stalin’s Terror. In 1937, Eliava was executed, along with his contemporaries, and D’Herelle never came back to Georgia. During its long history, the Eliava Institute has been known by several respected titles. The best-known was the Scientific-Industrial Union (SIU) “Bacteriophage.” It included two major parts, the Research Institute and Industrial Department, the latter consisting of ten manufacturing units. Altogether, roughly 800 people used to work at the SIU “Bacteriophage”, of whom 120 engaged in research. After the collapse of the Soviet Union, the Industrial Department was partly privatized.
During the Soviet period, the Eliava Institute played an important role in the elaboration of novel biological preparations and manufacturing products against almost all major bacterial and viral diseases, such as anthrax, rubies, typhoid fever, brucellosis, salmonellosis, dysentery, etc. For many years, Eliava IBMV has been a leading organization in bacteriophage research, production of phage preparations and their practical application. Experts around the world recognize the contribution of Eliava IBMV scientists in the development, study and production of diagnostic, prophylactic and therapeutic preparations (bacteriophage “cocktails,” biological anti-bacterial and immunological medications) against infections and their application in various fields (medicine, veterinary, and environmental protection).