Transforming Healthcare with AI-Driven Solutions for Bacterial Resistance
Join us in revolutionizing bacterial resistance treatment with innovative, science-backed therapies.
antimicrobial resistance (AMR)
Antimicrobial resistance (AMR) is a growing global health threat that occurs when microorganisms such as bacteria evolve mechanisms to resist the effects of antibiotics. This resistance makes standard treatments ineffective, allowing infections to persist and spread, increasing the risk of severe illness and death. The overuse and misuse of antibiotics in humans, animals, and agriculture accelerate this process. As a result, common infections are becoming harder to treat, leading to longer hospital stays, higher medical costs, and increased mortality.
AI
Artificial intelligence (AI) offers powerful tools to combat antimicrobial resistance by predicting the emergence of new bacterial strains and identifying effective treatments for existing ones. By analyzing large datasets from clinical, genomic, and environmental sources, AI can help model potential resistance patterns, classify antibiotics by effectiveness, and support real-time decision-making. This enables the development of proactive treatment protocols and allows healthcare systems to stay ahead of evolving microbial threats.
bacteriophage
To address antibiotic resistance, we need to identify and multiply highly specific bacteriophages using advanced technology, enabling precise targeting of resistant bacterial strains. In parallel, the creation of a dynamic library of currently effective phages helps optimize treatments by matching the right phage to each infection. Together, these strategies offer a personalized and adaptable tool to combat constantly evolving bacterial threats.
THOSE WHO ANTICIPATE ADVANCE
Tailored Antibacterial Therapy
Anticipating Future Threats
Future-Oriented Vision
We pioneer biotechnologies that anticipate future threats, building a resilient, post-antibiotic era for global health.
One Health
Our approach integrates human, animal, and environmental health to tackle bacterial resistance .
Bacterial Resistance
We develop next-generation tools to detect, prevent, and counteract the global rise of bacterial resistance.
Predictive AI Models
Advanced AI-driven models forecast bacterial mutations, enabling us to design therapies before resistance emerges.
Bacteriophages
A dynamic phage library is an updatable collection of specific viruses that allows treating bacterial infections with personalized therapies.
CRISPR
In the future, we hope to design custom phages with enhanced capabilities.
Phage Therapy: A Renaissance in the Fight Against Antibiotic-Resistant Bacteria
In the past century, antibiotics have revolutionized modern medicine, transforming once-deadly infections into treatable conditions. However, the overuse and misuse of antibiotics have led to an alarming rise in antibiotic-resistant bacteria—so-called «superbugs»—that pose a dire threat to global health. According to the World Health Organization (WHO), antimicrobial resistance could cause 10 million deaths per year by 2050 if left unchecked. In response to this growing crisis, researchers are turning their attention to a century-old approach that may hold the key to a post-antibiotic era: phage therapy.
Latest Posts
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The use of predictive algorithms in phage therapy paves the way for personalized treatments
Extracted from the article: https://www.immedicohospitalario.es/noticia/48858/el-uso-de-algoritmos-predictivos-en-la-terapia-con-fagos-allana-el-cam.html The design of an artificial…
Predicting the Future: How AI Can Simulate Bacteria Evolution and Build Solutions Before It’s Too Late
Imagine a world where deadly pathogens evolve, but instead of…
Phage Therapy: A Renaissance in the Fight Against Antibiotic-Resistant Bacteria
In the past century, antibiotics have revolutionized modern medicine, transforming…
Contact Us
If you are interested in learning more about our custom-designed bacteriophage solutions for combating bacterial infections, collaborating on research, or exploring clinical applications, please reach out using the form below. Our team of scientists and partners is committed to advancing precision therapies against antibiotic-resistant pathogens and will respond to your inquiry as soon as possible.
+34 65555653x