Symcel, a privately held biotechnology company located in Stockholm, Sweden, developer of the revolutionary cell-based assay tool for real-time cell metabolism measurements, partnered with the Karolinska Institutet in a Horizon 2020 funded project.
Karolinska Institutet is one of the world’s foremost medical universities and is Sweden’s single largest centre of medical academic research, medical courses and programmes.
The collaboration will see Symcel’s calScreener™ technology evaluated as an improved method to test for combinations of antibiotics against extensively drug resistant bacteria in sepsis patients. Associate Professor Christian Giske, Chief Physician in Bacteriology at the Karolinska University Hospital, Sweden, and Chairman of EUCAST, the body which sets the guidelines for antimicrobial susceptibility testing, takes the helm as the project’s academic lead. Professor Giske is tasked with evaluating whether calScreener™ provides a reliable reference point for clinical microbiologists to determine whether an antibiotic is effective in killing multi-resistant bacteria.
The calScreener™ method is well positioned for combination testing due to its total metabolic response in real-time, very high sensitivity and no limit to the number of antimicrobials that the technology can test at once. Combination therapies have emerged as a major new drug development strategy for combating antimicrobial resistance – treating infections with sets of drugs rather than individual ones. This growing trend has been fuelled by the increasing prevalence of infections caused by multi-drug resistant bacteria and exacerbated by the shortage of novel classes of antibiotics entering the clinic.
The project involves a Symcel led consortium spanning 28 months – also comprising Hospital Universitario Ramón y Cajal, Careggi University Hospital, Erasmus MC, Rigshospitalet and IHE, as well as the Karolinska Institutet, and focused on specific geographies with large resistant problems such as Italy and Spain.