Clinical Pharmacology Department, Hospital Universitario de La Princesa, Instituto Teófilo Hernando, Universidad Autónoma de Madrid (UAM), Instituto de Investigación Sanitaria La Princesa (IP), C/ Diego de León, 62, 28006, Madrid, Spain.
UICEC Hospital Universitario de La Princesa, Plataforma SCReN (Spanish Clinical Research Network), Instituto de Investigación Sanitaria La Princesa (IP), Madrid, Spain.
Adv Ther. 2022 Apr;39(4):1743-1753. doi: 10.1007/s12325-022-02067-8. Epub 2022 Feb 22.
Thiopurine drugs are purine nucleoside analogues used for treatment of different immune-related conditions. To date, different studies highlighted the importance of thiopurine methyltransferase (TPMT) genotyping in patients who initiate treatment with thiopurines to make an adequate dose adjustment. We aimed to investigate the influence of TPMT phenotype, concomitant treatments, and demographic characteristics on the incidence of adverse reactions (ADRs) in patients who start treatment with azathioprine (AZA).
This was an observational and retrospective study. The study population comprised 109 patients who started treatment with AZA following routine TPMT genotyping before June 2019 and who were routinely followed up at Hospital Universitario de La Princesa. The incidence of ADRs and treatment duration were evaluated according to TPMT phenotype.
Forty-five men and 64 women were recruited, with a mean age of 67.6 ± 18.5. The medical specialty with the most requests was dermatology (45.9%) and the most frequent disease for which genotyping was requested was bullous pemphigoid (27.5%). All patients were normal metabolizers (NM), except for eight intermediate metabolizers (IM) (7.3%); no poor metabolizers (PM) were found. The initial azathioprine dose was subtherapeutic in both groups (103.2 ± 45.4 mg in NMs and 75 ± 32.3 mg in IMs), increasing during the first months of treatment, especially in NMs (120.3 ± 41.3 vs. 78.6 ± 30.4 mg in IMs, p = 0.011). Most patients (73.4%) received corticosteroids to keep the disease under control; and for 41.2% of NMs, physicians were able to reduce the dose at 6 months post treatment. No IMs completed 6 months of treatment. Hepatotoxicity, gastric intolerance, and blood disorders were the most common ADRs. The incidence of ADRs in the sample was 28.4% (n = 31) with a similar trend between IMs (37.5%) and NMs (27.8%). Patients undergoing concomitant treatment with allopurinol were associated with a higher incidence of ADRs (n = 4, 100% vs. n = 105, 20%; p = 0.002).
TPMT genotyping before AZA prescription reduces ADR incidence in IMs to a similar level as NMs in the Spanish population. However, it is important to note no IMs completed 6 months of treatment, suggesting that there may be some differences in drug tolerability according to phenotype. In addition, most NMs are treated with subtherapeutic doses, are poorly followed up, and thus suffer avoidable ADRs. Finally, concomitant therapies that inhibit the xanthine oxidase enzyme (XDH), such as allopurinol, predispose to ADRs. Therefore, pharmacogenetic testing should be integrated as an additional clinical tool, in such a way that each patient receives personalized, precision treatment, where all factors influencing drug response are considered.
硫嘌呤药物是嘌呤核苷类似物,用于治疗各种与免疫相关的疾病。迄今为止,不同的研究强调了在开始使用硫嘌呤治疗的患者中进行硫嘌呤甲基转移酶(TPMT)基因分型的重要性,以进行适当的剂量调整。我们旨在研究 TPMT 表型、伴随治疗和人口统计学特征对开始使用硫唑嘌呤(AZA)治疗的患者发生不良反应(ADR)的影响。
这是一项观察性和回顾性研究。研究人群包括 109 名患者,他们在 2019 年 6 月之前根据常规 TPMT 基因分型开始使用 AZA 治疗,并且在 Hospital Universitario de La Princesa 进行常规随访。根据 TPMT 表型评估 ADR 的发生率和治疗持续时间。
共招募了 45 名男性和 64 名女性,平均年龄为 67.6±18.5 岁。请求基因分型的医疗专科中皮肤科最多(45.9%),请求基因分型的最常见疾病是大疱性类天疱疮(27.5%)。所有患者均为正常代谢者(NM),除 8 名中间代谢者(IM)(7.3%)外;未发现不良代谢者(PM)。两组的初始硫唑嘌呤剂量均低于治疗剂量(NM 组为 103.2±45.4mg,IM 组为 75±32.3mg),在治疗的最初几个月中增加,尤其是 NM 组(120.3±41.3 vs. IM 组的 78.6±30.4mg,p=0.011)。大多数患者(73.4%)接受皮质类固醇治疗以控制疾病;对于 41.2%的 NM 患者,医生能够在治疗后 6 个月时减少剂量。没有 IM 患者完成 6 个月的治疗。肝毒性、胃不耐受和血液疾病是最常见的 ADR。该样本的 ADR 发生率为 28.4%(n=31),IM(37.5%)和 NM(27.8%)之间的趋势相似。同时接受别嘌呤醇治疗的患者发生 ADR 的发生率更高(n=4,100% vs. n=105,20%;p=0.002)。
在开始 AZA 治疗前进行 TPMT 基因分型可将 IM 患者的 ADR 发生率降低到与西班牙人群中 NM 相似的水平。然而,值得注意的是,没有 IM 患者完成 6 个月的治疗,这表明根据表型可能存在药物耐受性的一些差异。此外,大多数 NM 患者接受的是低于治疗剂量的治疗,监测不佳,因此会遭受可避免的 ADR。最后,抑制黄嘌呤氧化酶(XDH)的伴随治疗,如别嘌呤醇,会导致 ADR。因此,应将遗传药理学检测作为一种额外的临床工具进行整合,以便为每位患者提供个性化的精准治疗,考虑所有影响药物反应的因素。
