Precision Therapy for Inflammatory Bowel Disease


Precision Therapy for Inflammatory Bowel Disease

The global prevalence of inflammatory bowel disease (IBD), including ulcerative colitis (UC) and Crohn’s disease (CD), is on the rise, impacting approximately 6.8 million individuals. This upward trend imposes substantial economic burdens, with annual healthcare expenses surpassing $12,000 and $7,000 for CD and UC patients, respectively. Personalized drug selection, considering individual factors, holds the promise of mitigating these costs and enhancing patient outcomes.

Factors associated with a Western lifestyle such as urbanization, high animal protein intake, ultra-processed foods, and reduced fiber consumption are linked to IBD onset. Gut microbial diversity also plays a key role, with rural communities exhibiting greater microbial richness compared to urban populations. Understanding these environmental and microbial influences is crucial for developing preventive strategies.

Despite significant scientific advancements, the exact causes of UC and CD remain elusive. A complex interplay of genetics, immune dysregulation, gut microbiota alterations, and environmental factors contributes to disease development. Current immunosuppressive treatment options require more personalized approaches.

Multiomics Analysis and Machine Learning in Irritable Bowel Disease

We can potentially predict treatment response and optimize therapy selection by analyzing individual genetic, immunological, and microbial profiles. This “multiomics” approach, coupled with machine learning, holds the key to unlocking new therapeutic targets and improving patient outcomes.

This review dives deeper into IBD’s genetic, immunological, and microbial drivers, highlighting potential predictive markers of treatment response. We explore the principles of machine-learning-powered bioinformatics and collaborative research, paving the way for future precision medicine strategies in IBD.

Source-Eurekalert





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