Chemotherapy for cancer patients induces damaging tissue reactions along the epithelium of the gastrointestinal tract (GIT). This chemotherapy-induced mucositis (CIM) is a serious side effect of cytotoxic drugs, and several animal models of CIM have been developed, mainly in rodents and piglets, to help understand the progression of CIM and how to prevent it. Animal models allow highly controlled experimental conditions, detailed organ (e.g., GIT) insights, standardized, clinically relevant treatment regimens, and discovery of new biomarkers. Still, surprisingly few results from animal models have been translated into clinical CIM management and treatments. The results obtained from specific animal models can be difficult to translate to the diverse range of CIM manifestations in patients, which vary according to the antineoplastic drugs, dose, underlying (cancer) disease, and patient characteristics (e.g., age, genetics, and body constitution). Another factor that hinders the direct use of results from animals is inadequate collaboration between basic science and clinical science in relation to CIM. Here, we briefly describe CIM pathophysiology, particularly the basic knowledge that has been obtained from CIM animal models. These model studies have indicated potential new preventive and ameliorating interventions, including supplementation with natural bioactive diets (e.g., milk fractions, colostrum, and plant extracts), nutrients (e.g., polyunsaturated fatty acids, short-chain fatty acids, and glutamine), and growth factor peptides (e.g., transforming growth factor and glucagon-like peptide-2), as well as manipulations of the gut microbiota (e.g., prebiotics, probiotics, and antibiotics). Rodent CIM models allow well-controlled, in-depth studies of animals with or without tumors while pig models more easily make clinically relevant treatment regimens possible. In synergy, animal models of CIM provide the basic physiological understanding and the new ideas for treatment that are required to make competent decisions in clinical practice.
BC may reduce gut toxicity during myeloablative chemotherapy in piglets by preserving intestinal function and reducing inflammation. Whether similar effects occur in children remains to be tested.
Liver toxicity is frequently seen in relation to allogeneic hematopoietic stem cell transplantation (HSCT), but pathogenesis and the risk factors are poorly understood. The purpose of this study was to investigate associations between liver toxicity, gastrointestinal toxicity, and levels of immune-regulating cytokines during the early post-transplantation period. We prospectively included 81 children and adults undergoing HSCT after myeloablative conditioning. Alanine aminotransferase (ALT), total bilirubin levels, and international normalized ratio were measured longitudinally until 3 months after the transplantation and related to levels of inflammatory markers (C-reactive protein [CRP], IL-6, and IL-10) and to plasma citrulline as a marker of intestinal toxicity during the first 3 weeks after HSCT. The majority of patients experienced ALT levels above the normal range (45 U/L) with significant increases at 3 months after HSCT. Increased levels of total bilirubin were observed in 26% during the 3-month period. Citrulline levels decreased significantly to a nadir at day 7 (B = .23; 95% confidence interval [CI], .12 to .35; P < .0001), but citrulline levels at nadir were not associated with parameters of liver toxicity. However, a faster reconstitution of mucosa with higher citrulline levels at day +21 correlated with lower bilirubin levels 3 months after HSCT (r = -.26, P = .034) and increased overall survival (hazard ratio, .88; 95% CI, .79 to .97; P = .008) . Increased levels of CRP and IL-6 at day 7 after HSCT correlated positively with ALT and bilirubin, and in the multivariate analysis, IL-6 at day 7 appeared to be the only predicting risk factor for increased mean bilirubin during the early post-transplantation phase (B = .01; 95% CI, .01 to .02; P = .001) as well as maximum levels of bilirubin (B = .3; 95% CI, .12 to .48; P= .001) and occurrence of sinusoidal obstruction syndrome during the first 3 months after HSCT (odds ratio, 1.003; 95% CI, 1.001 to 1.005; P = .002). The results of this study indicate that liver toxicity after HSCT is associated with an increased inflammatory response mounted during the phase of maximal gastrointestinal toxicity in the early phase after transplantation.
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