CASE STUDY

Determining Antimicrobial Resistance in the Gut Microbiome Leveraging the Versatility of Microfluidics-Based qPCR

Case Study

Determining Antimicrobial Resistance in the Gut Microbiome Leveraging the Versatility of Microfluidics-Based qPCR

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Antibiotic treatment in early life can have lasting effects on the gut microbiome, influencing microbial diversity and antimicrobial resistance (AMR) gene selection. This case study demonstrates how high-throughput qPCR enables the detection of 31 clinically relevant AMR genes, revealing significant shifts in microbial composition and AMR gene profiles across multiple time points.

You will learn:

About the impact of antibiotic treatments on microbial diversity and AMR gene selection in infants over time
How microfluidics-based qPCR enabled enables high-throughput detection of AMR gene shifts in the gut microbiome
Why the Biomark™ system and integrated fluidic circuits (IFCs) provide a scalable solution for microbial profiling and AMR research

CASE STUDY

Determining Antimicrobial Resistance in the Gut Microbiome Leveraging the Versatility of Microfluidics-Based qPCR

Case Study

Determining Antimicrobial Resistance in the Gut Microbiome Leveraging the Versatility of Microfluidics-Based qPCR

Fill out the form below to download the case study

Please fill out this form to receive a download link to the case study