Philippe Pinton1. 1. Translational Medicine and Clinical Pharmacology, Ferring Pharmaceuticals A/S, International PharmaScience Center, Copenhagen S, Denmark.
P.P. is an employee of Ferring Pharmaceuticals and owns stocks of Takeda Pharmaceutical Company Limited.Dear Editors,The authors report the successful development of a mathematical model of inflammatory bowel disease (IBD) structured in two compartments and combining ulcerative colitis (UC) and Crohn’s disease (CD).IBDs are multifacets and multi‐omics diseases.Different features contribute to responsiveness to treatments and would need to be carefully considered in parametric predictive models. The immune system presents some plasticity, and one clinical phenotype can activate different inflammatory pathways and respond differently to therapies.As introduced by the authors, UC and CD are two heterogeneous and different diseases, for which immunology is a backbone but not identical.
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Their biology is different and leads to different diagnosis, treatment, and monitoring approaches.
The application of the model to CD therapies is provided.Current data suggest that CD is a multiple entity—inflammation is not homogeneous along the colon—and that interleukins pathways and mechanisms of action of potential treatments implicate several tissue layers.
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,An alternative to the proposed model would be then five gut compartments: ileum, ascending, transverse, descending colon, and sigmoid colon–rectum, each divided into subepithelial tissues, lymph nodes, and epithelium. It would allow tissue level spatial considerations for inflammation. Gut compartments would be connected through the blood compartment, and each would have associated epithelial and mucosal layers. The epithelial layer would be healthy, active, damaged, or remodeled. Active and damaged layers would possibly revert but remodeled would be irreversible. Active, damaged, and remodeled tissue fractions would generate SES‐CD subscores. Inflammation would be estimated by serum C‐reactive‐protein and fecal calprotectin. Detailing the intestinal epithelial barrier (IEB) would increase the model prediction accuracy: IEB healing impacts the inflammation level.The mechanistic component is key in modeling. It brings (a) ability to generalize the learning from a patient’s response to one treatment and to extrapolate likely responsiveness to different regimens or drugs, (b) flexibility to challenge multiple short‐term and long‐term treatment options, and (c) transparency compared to the black‐box type machine learning approach.As stated by the authors, the model reasonably replicates cytokines, cells, and biomarkers steady‐state values in IBD. Its simplified approach helps mapping the diseases but with some limitation in treatment strategies evaluation.
The use of artificial intelligence has recently grown in IBD.
Alternative models will soon emerge.Understanding how individual patients respond (outcomes and related paths) to treatments is critical to improve IBD management. Available treatments, including biologics, do not break a 40%‐to‐60% efficacy ceiling.
Hopefully models will help.
Authors: Dan Turner; Amanda Ricciuto; Ayanna Lewis; Ferdinando D'Amico; Jasbir Dhaliwal; Anne M Griffiths; Dominik Bettenworth; William J Sandborn; Bruce E Sands; Walter Reinisch; Jürgen Schölmerich; Willem Bemelman; Silvio Danese; Jean Yves Mary; David Rubin; Jean-Frederic Colombel; Laurent Peyrin-Biroulet; Iris Dotan; Maria T Abreu; Axel Dignass Journal: Gastroenterology Date: 2021-02-19 Impact factor: 22.682
Authors: John Gubatan; Steven Levitte; Akshar Patel; Tatiana Balabanis; Mike T Wei; Sidhartha R Sinha Journal: World J Gastroenterol Date: 2021-05-07 Impact factor: 5.742
Authors: Giuseppe Privitera; Daniela Pugliese; Gian Ludovico Rapaccini; Antonio Gasbarrini; Alessandro Armuzzi; Luisa Guidi Journal: J Clin Med Date: 2021-02-19 Impact factor: 4.241