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Our multidisciplinary research teams combine cutting-edge AI, deep biological insights, and nutritional science to unlock the secrets of your microbiome.
The Modelling and AI team concentrates on Mathematical Modelling, Bioinformatics, applied Statistical Analysis and Deep Learning. We use AI frameworks and predictive capabilities to derive symbiotic relationships between bacteria and you, and arrive at an optimised gut for you.
Mathematical modeling is a powerful tool to define ecological and evolutionary processes in microbiome dynamics. Together with deep learning, we can engineer models, discover multiple representations and achieve precise optimisations for your health.
The Iom Optimisation recalibrates the bacteria in your gut and suggests alterations to maximise your health benefits. We build dynamic and probabilistic models using machine learning combined with deep knowledge of gut biology.
Your gut model is unique, and so are its key bacteria. Iom's optimisation calibrates the bacteria in your gut for specific health outcomes using personalised constraints.
GUTHUB™ is our proprietary integrative computational engine designed to model diet–microbiome–metabolite–host interactions in a systematic and interpretable manner.
It integrates dietary data, microbial community modeling, and metabolic networks to generate precise, interpretable insights for gut–brain and digestive health applications. (Flowchart attached)
Mathematical-based microbiome analytics for clinical translation.
Machine learning and deep learning applications in microbiome research.
Machine learning applications in microbial ecology and environmental monitoring.
Gut microbiome, big data and machine learning for precision medicine.
The Modelling and AI team concentrates on Mathematical Modelling, Bioinformatics, applied Statistical Analysis and Deep Learning. We use AI frameworks and predictive capabilities to derive symbiotic relationships between bacteria and you, and arrive at an optimised gut for you.
Mathematical modeling is a powerful tool to define ecological and evolutionary processes in microbiome dynamics. Together with deep learning, we can engineer models, discover multiple representations and achieve precise optimisations for your health.
Quality & Duration
Daily Vitality
Management
Our AI-powered process uses knowledge of gut biology and your health to create personalized dietary recommendations. When your gut bacteria are healthy, your sleep, energy, and stress levels improve automatically.
Mathematical-based microbiome analytics for clinical translation.
Machine learning and deep learning applications in microbiome research.
Machine learning applications in microbial ecology and environmental monitoring.
Gut microbiome, big data and machine learning for precision medicine.
The Food Microbiome team derives relationships between bacterial communities and food ingredients by analysing the biochemistry of food. We study how food alters microbiota to affect their functions and communications with you.
Understanding microbiota-food interactions enables improved personalization of recommendations, novel bio-therapeutic targets, and potential interventions against health conditions.
A massive metadata repository of food and ingredients including regular nutrients as well as bioactive substances linked to metabolites and microbes.
Links gut bacteria to biochemical effectors like hormones, neurotransmitters, enzymes, and metabolites that control your body's functions.