SoundCell aims at delivering a breakthrough solution for combating antimicrobial resistance (AMR) which is the ability of micro-organisms to become resistant to antibiotics. By various estimates, AMR is conceived as one of the biggest threats that the global community will be facing in the near future. It leads to prolonged hospitalization, increased morbidity, and mortality. AMR is expected to cause 10 million deaths anually by 2050. To fight AMR, the Organization for Economic Cooperation and Development (OECD) has endorsed 3 strategies:
• Promoting more prudent use of antibiotics and reducing over-prescription,
• Enhancing hygiene in healthcare systems,
• Developing rapid antibiotic susceptibility testing (AST) solutions.
Among these strategies, AST plays a crucial role in treating infectious diseases and in the global antibiotic stewardship.
At SoundCell, a TU Delft spinoff, we develop a rapid antibiotic susceptibility testing (AST) platform that allows hospital microbiology labs to determine which antibiotic works within just one hour. Quicker AST results allows hospital physicians to switch from broad-spectrum to narrow-spectrum antibiotics earlier. This results in i) more prudent use of antibiotics, which is essential in combatting antimicrobial resistance, ii) patients receive effective antibiotics sooner, which can mean the difference between life and death in acute infections like sepsis.The key of our technological breakthrough lies in the concept of leveraging bacterial nanomotion to assess antibiotic susceptibility. This approach does not depend on bacterial growth rates, which is the limiting factor for currently used systems that take two days to provide results.
With the EICT project BE FAST, SoundCell team aims at building high-volume manufacturing methods, enhancing the throughput of its graphene AST platform, and validating it against clinicals strains of bacterial cells. During the project, we will mature our commercial strategy, perform market studies and establish our regulatory roadmap. We will also place our first prototypes in hospitals to benchmark the sensitivity and speed of our platform against available AST platforms. With fast determination of antimicrobial resistance, we envision that BE FAST will have direct impact on health-care system, as it will improve treatment outcomes, save lives, and reduce hospital stays.