V. Petrov, I. S. Anikeev, T. Zayachnikova, A. Strygin, A. M. Dotsenko
{"title":"ADAPTATION OF “DRIED BLOOD DROP” METHOD FOR THERAPEUTIC DRUG MONITORING","authors":"V. Petrov, I. S. Anikeev, T. Zayachnikova, A. Strygin, A. M. Dotsenko","doi":"10.19163/2307-9266-2022-10-4-331-342","DOIUrl":null,"url":null,"abstract":"To control the concentration of drugs with a narrow therapeutic range, and to conduct effective and safe treatments, Therapeutic Drug Monitoring (TDM) is carried out. However, to date, the implementation of TDM is associated with various difficulties, for the solution of which more convenient and less invasive methods for collecting biological material are being developed.The aim of the study was to develop protocols for the collection and storage of “dried blood spot” (DBS) samples, as well as protocols for the validation methods for the quantitative determination of drugs in whole blood, using this technology for subsequent therapeutic drug monitoring.Materials and methods. To analyze a “dried blood spot” method in detail and to identify the characteristic features of taking and storing biosamples, a collection and analysis of scientific literature over the past 10 years has been conducted. The search for literature materials has been carried out from open and accessible sources located in the scientific libraries of institutions, in electronic databases and search engines: Elibrary, PubMed, Scopus, Cyberleninka, Medline, ScienceDirect, Web of Science, Google Scholar. Primary protocols for taking, storing and analyzing samples of the “dried blood drop” have been prepared. To obtain the adequate quality samples, the developed protocols have been tested and optimized at the stages of selection and storage. By high-performance liquid chromatography with mass spectrometric detection (HPLC-MS/MS), using a “dried blood drop” as a sample preparation, drug validation protocols have been optimized to ensure that acceptable validation characteristics were achieved, and subsequent Therapeutic Drug Monitoring was performed.Results. The features of the collection, storage and analysis of the “dried blood spot” samples have been revealed. Such characteristics as a spot volume effect, a hematocrit effect, a droplet uniformity, which can affect the results of a quantitative HPLC-MS/MS analysis, have been determined. For a successful use of the new methods, appropriate protocols for taking samples of “dried blood spot” from the finger of adult patients and from the heel of newborns, as well as protocols for validating methods for the quantitative determination of drugs from these samples, have been developed.Conclusion. The application of the “dried blood spot” method using newly developed protocols for taking, storing and analyzing biological samples, relieves the existing constraints in conducting TDM, and can later become a promising method for conducting preclinical and clinical studies.","PeriodicalId":20031,"journal":{"name":"Pharmacology & Pharmacy","volume":"26 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Pharmacology & Pharmacy","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.19163/2307-9266-2022-10-4-331-342","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
To control the concentration of drugs with a narrow therapeutic range, and to conduct effective and safe treatments, Therapeutic Drug Monitoring (TDM) is carried out. However, to date, the implementation of TDM is associated with various difficulties, for the solution of which more convenient and less invasive methods for collecting biological material are being developed.The aim of the study was to develop protocols for the collection and storage of “dried blood spot” (DBS) samples, as well as protocols for the validation methods for the quantitative determination of drugs in whole blood, using this technology for subsequent therapeutic drug monitoring.Materials and methods. To analyze a “dried blood spot” method in detail and to identify the characteristic features of taking and storing biosamples, a collection and analysis of scientific literature over the past 10 years has been conducted. The search for literature materials has been carried out from open and accessible sources located in the scientific libraries of institutions, in electronic databases and search engines: Elibrary, PubMed, Scopus, Cyberleninka, Medline, ScienceDirect, Web of Science, Google Scholar. Primary protocols for taking, storing and analyzing samples of the “dried blood drop” have been prepared. To obtain the adequate quality samples, the developed protocols have been tested and optimized at the stages of selection and storage. By high-performance liquid chromatography with mass spectrometric detection (HPLC-MS/MS), using a “dried blood drop” as a sample preparation, drug validation protocols have been optimized to ensure that acceptable validation characteristics were achieved, and subsequent Therapeutic Drug Monitoring was performed.Results. The features of the collection, storage and analysis of the “dried blood spot” samples have been revealed. Such characteristics as a spot volume effect, a hematocrit effect, a droplet uniformity, which can affect the results of a quantitative HPLC-MS/MS analysis, have been determined. For a successful use of the new methods, appropriate protocols for taking samples of “dried blood spot” from the finger of adult patients and from the heel of newborns, as well as protocols for validating methods for the quantitative determination of drugs from these samples, have been developed.Conclusion. The application of the “dried blood spot” method using newly developed protocols for taking, storing and analyzing biological samples, relieves the existing constraints in conducting TDM, and can later become a promising method for conducting preclinical and clinical studies.
治疗药物监测(therapeutic Drug Monitoring, TDM)是为了控制治疗范围较窄的药物浓度,进行有效、安全的治疗。然而,迄今为止,TDM的实施伴随着各种困难,为了解决这些困难,正在开发更方便和更少侵入性的生物材料收集方法。本研究的目的是制定“干血斑”(DBS)样本的收集和储存方案,以及全血中药物定量测定的验证方法的方案,并利用该技术进行后续治疗药物监测。材料和方法。为了详细分析“干血点”法,并确定生物样本采集和储存的特点,对近10年的科学文献进行了收集和分析。文献资料的搜索是从机构的科学图书馆、电子数据库和搜索引擎(图书馆、PubMed、Scopus、Cyberleninka、Medline、ScienceDirect、Web of Science、Google Scholar)中开放和可访问的资源中进行的。已经制定了采集、储存和分析“干血滴”样本的主要方案。为了获得足够质量的样品,在选择和储存阶段对所开发的方案进行了测试和优化。通过高效液相色谱-质谱检测(HPLC-MS/MS),使用“干血滴”作为样品制备,优化了药物验证方案,以确保获得可接受的验证特性,并进行了后续的治疗药物监测。揭示了“干血斑”标本的采集、保存和分析特点。斑点体积效应、红细胞压积效应、液滴均匀性等特性会影响定量HPLC-MS/MS分析的结果,这些特性已经确定。为确保新方法的成功应用,已经制定了从成人患者手指和新生儿脚跟采集“干血斑”样本的适当方案,以及从这些样本中验证药物定量测定方法的方案。“干血斑”法采用新开发的生物样本采集、储存和分析方案,缓解了目前进行TDM的限制,以后可能成为进行临床前和临床研究的一种有前景的方法。