Anna A. Bulanova, Artem E. Aksenenko, Anna S. Bobrovnikova, Galina V. Dudko, Dmitriy S. Slizevich, E. Bukreeva, M. N. Shpisman, Ivan Tyutrin
{"title":"慢性阻塞性肺病患者血液凝血反应研究","authors":"Anna A. Bulanova, Artem E. Aksenenko, Anna S. Bobrovnikova, Galina V. Dudko, Dmitriy S. Slizevich, E. Bukreeva, M. N. Shpisman, Ivan Tyutrin","doi":"10.20538/1682-0363-2017-2-87-95","DOIUrl":null,"url":null,"abstract":"Background. Nowadays little data related to the hemostatic system and fibrinolysis in patients with chronic obstructive pulmonary disease (COPD) are available. This is due to the lack of standardized methods for studying the hemostasis system, as well as to the lack of a single functional test that allows the evaluation of the complete fibrinogenesis cycle in whole blood. Aim. The aim of our study was to develop a functional test capable of analyzing the blood gas composition in the “point-of-care test” method for the evaluation of the hemostatic potential in patients with COPD, based on a standardized test stimulus, which is tissue hypoxia. The current level of clinical and laboratory diagnostics requires personification and research of the hemo-coagulation system in real time (point-of-care test), which allows low-frequency piezotromboelastography(NVTEG) to be performed. Materials and methods. NVTEG was chosen to estimate the state of the hemocoagulation system. Ten patients with COPD and 10 healthy volunteers were examined. Hypoxia was selected as a standardized test stimulus. Hypoxia conditions were caused by smoking one standard cigarette (composition: resin 10 mg/cig., nicotine 0,7 mg/cig., CO 10 mg/cig.). The degree of tissue hypoxia was assessed with the GASTAT-navi blood gas analyzer. Results. The study has shown that in response to the standard test stimulus, which is the tissue hypoxia caused by smoking of a standardized cigarette, two types of haemostatic potential reaction were detected both in patients with COPD and healthy volunteers. The first type of reaction – “hypercoagulation” – is characterized by the formation of chronometric and structural hypercoagulation at all stages of fibrinogenesis and increased coagulation activity by 25–30% compared with the response in healthy individuals. The second type of reaction – “hypocoagulation” – is characterized by the formation of chronometric and structural hypocoagulation, a decrease in coagulation activity by 25–30% compared with the response in healthy individuals. Conclusion. Test stimulus, which acts as tissue hypoxia, causes a uniform spectrum of changes in the blood gas composition and hemocoagulation system in both healthy volunteers and patients with COPD. The possibility of online assessment of all stages of fibrinogenesis makes it possible to stratify patients with COPD by type of reaction, which is certain to have an important diagnostic and prognostic value and in the future will allow a more personified approach for choosing the treatment tactics.","PeriodicalId":43691,"journal":{"name":"Byulleten Sibirskoy Meditsiny","volume":"16 1","pages":"87-95"},"PeriodicalIF":0.2000,"publicationDate":"2017-07-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Исследование реакции системы гемокоагуляции на тканевую гипоксию у пациентов с хронической обструктивной болезнью легких\",\"authors\":\"Anna A. Bulanova, Artem E. Aksenenko, Anna S. Bobrovnikova, Galina V. Dudko, Dmitriy S. Slizevich, E. Bukreeva, M. N. Shpisman, Ivan Tyutrin\",\"doi\":\"10.20538/1682-0363-2017-2-87-95\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background. Nowadays little data related to the hemostatic system and fibrinolysis in patients with chronic obstructive pulmonary disease (COPD) are available. This is due to the lack of standardized methods for studying the hemostasis system, as well as to the lack of a single functional test that allows the evaluation of the complete fibrinogenesis cycle in whole blood. Aim. The aim of our study was to develop a functional test capable of analyzing the blood gas composition in the “point-of-care test” method for the evaluation of the hemostatic potential in patients with COPD, based on a standardized test stimulus, which is tissue hypoxia. The current level of clinical and laboratory diagnostics requires personification and research of the hemo-coagulation system in real time (point-of-care test), which allows low-frequency piezotromboelastography(NVTEG) to be performed. Materials and methods. NVTEG was chosen to estimate the state of the hemocoagulation system. Ten patients with COPD and 10 healthy volunteers were examined. Hypoxia was selected as a standardized test stimulus. Hypoxia conditions were caused by smoking one standard cigarette (composition: resin 10 mg/cig., nicotine 0,7 mg/cig., CO 10 mg/cig.). The degree of tissue hypoxia was assessed with the GASTAT-navi blood gas analyzer. Results. The study has shown that in response to the standard test stimulus, which is the tissue hypoxia caused by smoking of a standardized cigarette, two types of haemostatic potential reaction were detected both in patients with COPD and healthy volunteers. The first type of reaction – “hypercoagulation” – is characterized by the formation of chronometric and structural hypercoagulation at all stages of fibrinogenesis and increased coagulation activity by 25–30% compared with the response in healthy individuals. The second type of reaction – “hypocoagulation” – is characterized by the formation of chronometric and structural hypocoagulation, a decrease in coagulation activity by 25–30% compared with the response in healthy individuals. Conclusion. Test stimulus, which acts as tissue hypoxia, causes a uniform spectrum of changes in the blood gas composition and hemocoagulation system in both healthy volunteers and patients with COPD. 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引用次数: 0
摘要
背景。目前,关于慢性阻塞性肺疾病(COPD)患者的止血系统和纤维蛋白溶解的资料很少。这是由于缺乏研究止血系统的标准化方法,以及缺乏一种单一的功能测试来评估全血中完整的纤维蛋白生成周期。的目标。我们的研究目的是开发一种基于标准化测试刺激(组织缺氧)的功能测试,能够在“即时测试”方法中分析血气成分,以评估COPD患者的止血潜力。目前的临床和实验室诊断水平需要实时的血液凝固系统的拟人化和研究(护理点测试),这允许进行低频压电血栓弹性成像(NVTEG)。材料和方法。选择NVTEG来评估血液凝固系统的状态。对10名COPD患者和10名健康志愿者进行了检查。选择缺氧作为标准化的测试刺激。吸一根标准香烟(成分:树脂10毫克/支)引起缺氧。,尼古丁0.7毫克/支。, CO 10 mg/ cigg)。采用GASTAT-navi血气分析仪评估组织缺氧程度。结果。研究表明,在标准测试刺激下,即吸烟标准香烟引起的组织缺氧,COPD患者和健康志愿者均检测到两种类型的止血电位反应。第一种反应——“高凝”,其特点是在纤维蛋白发生的所有阶段都形成了计时性和结构性高凝,与健康个体的反应相比,凝血活性增加了25-30%。第二种反应——“低凝”,其特点是形成时序性和结构性低凝,与健康人的反应相比,凝血活性降低25-30%。结论。测试刺激起到组织缺氧的作用,在健康志愿者和慢性阻塞性肺病患者中引起血气组成和血液凝固系统的均匀变化。在线评估纤维蛋白发生的所有阶段的可能性使得根据反应类型对COPD患者进行分层成为可能,这肯定具有重要的诊断和预后价值,并且在未来将允许更个性化的方法来选择治疗策略。
Исследование реакции системы гемокоагуляции на тканевую гипоксию у пациентов с хронической обструктивной болезнью легких
Background. Nowadays little data related to the hemostatic system and fibrinolysis in patients with chronic obstructive pulmonary disease (COPD) are available. This is due to the lack of standardized methods for studying the hemostasis system, as well as to the lack of a single functional test that allows the evaluation of the complete fibrinogenesis cycle in whole blood. Aim. The aim of our study was to develop a functional test capable of analyzing the blood gas composition in the “point-of-care test” method for the evaluation of the hemostatic potential in patients with COPD, based on a standardized test stimulus, which is tissue hypoxia. The current level of clinical and laboratory diagnostics requires personification and research of the hemo-coagulation system in real time (point-of-care test), which allows low-frequency piezotromboelastography(NVTEG) to be performed. Materials and methods. NVTEG was chosen to estimate the state of the hemocoagulation system. Ten patients with COPD and 10 healthy volunteers were examined. Hypoxia was selected as a standardized test stimulus. Hypoxia conditions were caused by smoking one standard cigarette (composition: resin 10 mg/cig., nicotine 0,7 mg/cig., CO 10 mg/cig.). The degree of tissue hypoxia was assessed with the GASTAT-navi blood gas analyzer. Results. The study has shown that in response to the standard test stimulus, which is the tissue hypoxia caused by smoking of a standardized cigarette, two types of haemostatic potential reaction were detected both in patients with COPD and healthy volunteers. The first type of reaction – “hypercoagulation” – is characterized by the formation of chronometric and structural hypercoagulation at all stages of fibrinogenesis and increased coagulation activity by 25–30% compared with the response in healthy individuals. The second type of reaction – “hypocoagulation” – is characterized by the formation of chronometric and structural hypocoagulation, a decrease in coagulation activity by 25–30% compared with the response in healthy individuals. Conclusion. Test stimulus, which acts as tissue hypoxia, causes a uniform spectrum of changes in the blood gas composition and hemocoagulation system in both healthy volunteers and patients with COPD. The possibility of online assessment of all stages of fibrinogenesis makes it possible to stratify patients with COPD by type of reaction, which is certain to have an important diagnostic and prognostic value and in the future will allow a more personified approach for choosing the treatment tactics.