Mathematical modelling, selection and hierarchical inference to determine the minimal dose in IFNα therapy against myeloproliferative neoplasms.

Gurvan Hermange, William Vainchenker, Isabelle Plo, Paul-Henry Cournède
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Abstract

Myeloproliferative neoplasms (MPN) are blood cancers that appear after acquiring a driver mutation in a hematopoietic stem cell. These hematological malignancies result in the overproduction of mature blood cells and, if not treated, induce a risk of cardiovascular events and thrombosis. Pegylated IFN$\alpha $ is commonly used to treat MPN, but no clear guidelines exist concerning the dose prescribed to patients. We applied a model selection procedure and ran a hierarchical Bayesian inference method to decipher how dose variations impact the response to the therapy. We inferred that IFN$\alpha $ acts on mutated stem cells by inducing their differentiation into progenitor cells; the higher the dose, the higher the effect. We found that the treatment can induce long-term remission when a sufficient (patient-dependent) dose is reached. We determined this minimal dose for individuals in a cohort of patients and estimated the most suitable starting dose to give to a new patient to increase the chances of being cured.

通过数学建模、选择和层次推理,确定 IFNα 治疗骨髓增殖性肿瘤的最小剂量。
骨髓增生性肿瘤(MPN)是造血干细胞发生驱动突变后出现的血癌。这些血液恶性肿瘤会导致成熟血细胞过度生成,如果不加以治疗,会诱发心血管事件和血栓形成的风险。聚乙二醇 IFNα 通常用于治疗 MPN,但对于患者的用药剂量并没有明确的指导原则。我们采用了模型选择程序和分层贝叶斯推断法,以解读剂量变化如何影响治疗反应。我们推断,IFNα通过诱导突变干细胞分化为祖细胞,从而对突变干细胞产生作用;剂量越大,效果越明显。我们发现,当达到足够剂量(取决于患者)时,治疗可诱导长期缓解。我们确定了一组患者的最低剂量,并估算出最适合新患者的起始剂量,以增加治愈的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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