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Small molecule drug absorption in inflammatory bowel disease and current implementation in physiologically- based pharmacokinetic models

药代动力学 炎症性肠病 药理学 药品 吸收(声学) 医学 电流(流体) 化学 疾病 内科学 材料科学 物理 热力学 复合材料
作者
Jonas Langeraert,Elke Gasthuys,An Vermeulen
出处
期刊:European Journal of Pharmaceutical Sciences [Elsevier BV]
卷期号:209: 107095-107095 被引量:2
标识
DOI:10.1016/j.ejps.2025.107095
摘要

Inflammatory bowel disease (IBD) is characterized by a chronic inflammation of the intestinal mucosa, with predominant localization in the colon in ulcerative colitis (UC) or affecting the entire length of the gastrointestinal tract in Crohn's disease (CD). Recent advances in the drug development space have been marked by a return to orally administered small molecules with novel mechanisms of action such as Janus kinase inhibitors. Additionally, the prevalence of certain chronic conditions is higher in IBD patients, many of which are treated with orally administered drugs. Given the pathophysiology and localization of IBD, altered drug absorption from the gastrointestinal tract can be expected. This review discusses several physiological differences between the small and large intestine with the potential to influence drug absorption including pathophysiology related alterations associated with IBD. The main physiological parameters which are identified include luminal fluid volume, luminal pH, transit time, bile salt concentration, microbiome, absorptive surface area, permeability and metabolizing enzymes and transporters. Literature regarding these factors in IBD patients is marked with high heterogeneity in reporting of disease severity and location leading to difficulties in interpreting data across different studies. While the influence of most of these factors has been directly assessed in healthy volunteers, this is rarely the case for IBD patients. Furthermore, studies which used PBPK modelling to describe the PK of an orally administered drug in an IBD population and were able to verify their findings using clinical data are critically examined. These models were able to incorporate the pathophysiological changes associated with IBD and partly succeeded in adequately predicting drug absorption in this population. Given the limited amount of PBPK studies performed on a limited number of drugs, the developed models are most likely not suitable to be used as a general PBPK model for the IBD population.
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