[Current views of tuberculosis inflammation].

Problemy tuberkuleza Pub Date : 2003-01-01
V V Erokhin, Z S Zemskova
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Abstract

The value of histological and histochemical studies in the diagnosis of a phase of tuberculosis progression or healing is shown. Electron microscopic study of tuberculous inflammation in different phases of its evolution evaluated the functional status of cellular elements of the lung and granuloma. The body's antituberculous resistance due to molecular genetic mechanisms is realized through intercellular interactions and macrophageal functions. Immune macrophages are characterized by a higher metabolic activity, they suppress the intracellular multiplication of Mycobacterium tuberculosis (MBT) and are more protected from their toxic action. The pathogenetic mechanisms responsible for caseous pneumonia were studied. Three stages of evolution of the process: Stage 1 is the breakdown of defense and adaptive mechanisms: disorganization of connective tissue and alveolar parenchyma; enhanced permeability of blood and lymphatic microvascular walls with developed interstitial and intraalveolar edema, plasma and fibrin exudation, fibrinoid swelling of collagenous fibers, and their lysis; occurrence of lung parenchymal microinfarcts and infarction-pneumonia; type 2 alveolocytic dysfunction with surfactant destruction; Stage 2 is the breakdown of local immunity; exudative and alterative tuberculous inflammation with involvement of immunocompetent organs; suppressed T-cellular immunity, a shift of a T helper/T suppressor ratio to the latter, lymphopenia; impaired intercellular interactions, cellular apoptosis in blood and inflammation areas, and suppressed granulomatous reaction; inhibited L transformation of Mycobacteria tuberculosis, intensive MBT multiplication in the foci of tuberculous inflammation, particularly those which are resistant to many antibiotic drugs, a larger number of associations of the nonspecific microflora and fungi. Stage 3 is caseous pneumonia and generalization of a tuberculous process: a predominance of an alterative reaction of inflammation; the presence of allergic and caseous and necrotic vasculitis, bronchiolitis, and endo-panbronchitis; depressed granulomatous reaction; the development of acute alterative sequestrating pneumoniogenic caverns. Histological, histochemical, and electron microscopic studies of tuberculous inflammation may specify the mechanisms of the pathogenesis of tuberculosis and may serve as the basis for early diagnosis of the disease and for timely correction of performed treatment in order to enhance its efficiency.

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[目前对结核炎症的看法]。
组织学和组织化学研究在诊断结核进展或愈合阶段的价值被显示。电镜研究结核性炎症在其演变的不同阶段评估肺和肉芽肿细胞成分的功能状态。机体抗结核的分子遗传机制是通过细胞间相互作用和巨噬功能实现的。免疫巨噬细胞具有较高的代谢活性,它们抑制结核分枝杆菌(MBT)的细胞内增殖,并且更受其毒性作用的保护。研究了干酪性肺炎的发病机制。该过程的进化分为三个阶段:第一阶段是防御和适应机制的瓦解:结缔组织和肺泡实质的瓦解;血液和淋巴微血管壁通透性增强,间质和肺泡内水肿,血浆和纤维蛋白渗出,胶原纤维纤维蛋白样肿胀,纤维蛋白溶解;肺实质微梗死和梗死性肺炎的发生;2型肺泡细胞功能障碍伴表面活性剂破坏;第二阶段是局部免疫的崩溃;浸润免疫功能器官的渗出性和变异性结核性炎症;抑制T细胞免疫,辅助T细胞/抑制T细胞比例向后者转变,淋巴细胞减少;细胞间相互作用受损,血液和炎症区域细胞凋亡,肉芽肿反应抑制;抑制结核分枝杆菌的L转化,结核性炎症灶中密集的MBT增殖,特别是那些对许多抗生素药物耐药的结核分枝杆菌,非特异性微生物群和真菌的大量关联。第3阶段是干酪样肺炎和结核过程的普遍化:主要是炎症的替代反应;存在过敏性、干酪样和坏死性血管炎、细支气管炎和内支气管炎;肉芽肿反应抑制;急性选择性隔离肺源性空洞的发展。结核性炎症的组织学、组织化学和电镜研究可以明确结核病的发病机制,并可作为疾病早期诊断和及时纠正治疗的基础,以提高其效率。
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[Impact of exogenous infection on tuberculosis infection rates in children and adolescents]. [Prevalence of tuberculosis and its specific clinical features in children]. [Antituberculous measures according to the results of Mantoux test]. [Specific features of tuberculin sensitivity in children with allergic dermatoses]. [New technologies in the prevention, detection, diagnosis and treatment of tuberculosis in children].
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