摘要Objective: To explore the diagnostic value of tb-RNA in pleural effusion in tuberculous pleurisy. Methods: 60 patients with tuberculous pleurisy treated from March 2018 to September 2019 were selected as the research object, and 60 patients with non-tuberculous pleurisy treated at the same time were selected as the control group to analyze the diagnostic consistency of tuberculous pleurisy. Results: Through the consistency analysis of the gold standard and tb-RNA diagnosis, the diagnosis consistency of the two methods was strong. By comparing the tb-RNA level of the two groups, the tb-RNA level of the observation group was significantly higher than that of the control group (P<0.05); Through the analysis of diagnostic efficacy of tb-RNA, the diagnostic sensitivity and specificity of tb-RNA were 58.33% and 97.50%, respectively. Conclusion: tb-RNA detection of pleural effusion has a high positive diagnostic value and short detection cycle, which is of positive significance for the diagnosis of tuberculous pleural effusion.
Abstract:Objective: To explore the diagnostic value of tb-RNA in pleural effusion in tuberculous pleurisy. Methods: 60 patients with tuberculous pleurisy treated from March 2018 to September 2019 were selected as the research object, and 60 patients with non-tuberculous pleurisy treated at the same time were selected as the control group to analyze the diagnostic consistency of tuberculous pleurisy. Results: Through the consistency analysis of the gold standard and tb-RNA diagnosis, the diagnosis consistency of the two methods was strong. By comparing the tb-RNA level of the two groups, the tb-RNA level of the observation group was significantly higher than that of the control group (P<0.05); Through the analysis of diagnostic efficacy of tb-RNA, the diagnostic sensitivity and specificity of tb-RNA were 58.33% and 97.50%, respectively. Conclusion: tb-RNA detection of pleural effusion has a high positive diagnostic value and short detection cycle, which is of positive significance for the diagnosis of tuberculous pleural effusion.
基金资助:Fuzhou Science and Technology Plan Project; grant number: 2017-s-133-1; Fuzhou Municipal Clinical Medical Center Project Fuzhou Respiratory Medical Center; grant number: 20180305
LIN Zhong-hui, WENG Li-zhen, CHEN Fen, CHEN Xiao-hong. Diagnostic Value of tb-RNA in Pleural Effusion in Tuberculous Pleurisy[J]. 中国生物医学工程学报(英文版), 2022, 31(1): 13-18.
LIN Zhong-hui, WENG Li-zhen, CHEN Fen, CHEN Xiao-hong. Diagnostic Value of tb-RNA in Pleural Effusion in Tuberculous Pleurisy. Chinese Journal of Biomedical Engineering, 2022, 31(1): 13-18.
[1] Gao Man, Bai Guanghong, Zhou Yi, et al.Application value of different detection methods in the diagnosis of tuberculous meningitis[J].Chinese Journal of Tuberculosis, 2019, 12(4):463-465. [2] Chen Xuerong, Chen Xiaoyou.Transformation from empirical medicine to precision medicine-Interpretation of pulmonary tuberculosis diagnosis(WS 288-2017)[J].West China Medicine, 2018, 33(08):35-37. [3] Gao Junfeng, Zhang Qiwu.Diagnostic value of thoracoscopic pleural biopsy combined with peripheral blood t-spot-tb test in tuberculous pleurisy[J].Journal of Clinical Lung, 2017, 11(02):60-63. [4] Sun haibai, Zhang Lixia, Liu Jiaqing, et al. Xpert, clinical study of MTB/RIF combined with t-spot.tb on tuberculous pleurisy and its drug resistance[J].Chinese Journal of Modern Medicine, 2018, 28(11):93-97. [5] Chen Zhifei.Application value of adenosine deaminase combined with tb-igra in the diagnosis of tuberculous pleurisy[J].Chinese Journal of Physicians, 2017, 19(1):111-114. [6] Chinese Medicine Association Tuberculosis Branch. Guidelines for diagnosis and treatment of tuberculosis[J].Chinese Journal of Tuberculosis and Respiratory Medicine, 2001, 20(2):70-74. [7] Xu Hanyan, Zhang Dongqing, Ye Junru, et al.Diagnostic value of TB combined with pleural effusion adenosine deaminase in patients with tuberculous pleurisy of different ages[J].Chinese Journal of Medicine, 2017, 97(24):1862-1866. [8] Yu Tingting, Li Xiaofei, Huangshan, et al. Application value of genexpert MTB/RIF technology in clinical diagnosis of tuberculous pleurisy[J].Chinese Journal of Medicine, 2018, 53(05):89-91. [9] Petruccioli E, Scriba TJ, Petrone L, et al.Long-lasting tuberculous pleurisy[J].European Respiratory Journal, 2017, 49(5):1700356. [10] Yaguchi D, Ichikawa M, Shizu M.Tuberculous pleurisy mimicking Mycoplasma pneumoniae infection in a previously healthy young adult: A case report[J].Medicine, 2018, 97(20):e10811. [11] Li M, Zhu W, Khan RSU, et al.Accuracy of interleukin-27 assay for the diagnosis of tuberculous pleurisy[J].Medicine, 2017, 96(50):e9205. [12] Zimmer AJ, Schumacher SG, Södersten E, et al.A novel blood-based assay for treatment monitoring of tuberculosis[J].BMC Research Notes, 2021, 14(1):247. [13] Mi Xiaozeng, Yue Yi, Tang Mengsha, et al.TeaAS: a comprehensive database for alternative splicing in tea plants(Camellia sinensis)[J].BMC Plant Biology, 2021, 21(1):280. [14] Sun Huizeng, Zhu Zhi, Zhou Mi, et al.Gene co-expression and alternative splicing analysis of key metabolic tissues to unravel the regulatory signatures of fatty acid composition in cattle[J].RNA Biology, 2021, 18(6):854-862. [15] Duan Liyao, Liang Yan, Gong Wenping, et al.Comparative study on the antituberculous effect and mechanism of the traditional Chinese medicines NiuBeiXiaoHe extract and JieHeWan[J].Military Medical Research, 2021, 8(1):34. [16] Nathan Aparna, Beynor Jessica I, Baglaenko Yuriy, et al.Multimodally profiling memory T cells from a tuberculosis cohort identifies cell state associations with demographics, environment and disease[J].Nature Immunology, 2021, 22(6):781-793. [17] Walter Nicholas D, Born Sarah EM, Robertson Gregory T, et al.Mycobacterium tuberculosis precursor rRNA as a measure of treatment-shortening activity of drugs and regimens[J].Nature Communications, 2021, 12(1):2899. [18] Hall TJ, Mullen MP, Mchugo GP, et al.Integrative genomics of the mammalian alveolar macrophage response to intracellular mycobacteria[J].BMC Genomics, 2021, 22(1). [19] Attur Mukundan, Duan Xin, Cai Lei, et al.Periostin loss-of-function protects mice from post-traumatic and age-related osteoarthritis[J].Arthritis Research & Therapy, 2021, 23(1):104. [20] Catozzi Carlotta, Zamarian Valentina, Marziano Gabriele, et al.The effects of intradermal M. bovis and M. avium PPD test on immune-related mRNA and miRNA in dermal oedema exudates of water buffaloes(Bubalus bubalis)[J].Tropical Animal Health and Production, 2021, 53(2):250. [21] Liu Yajun, Zhang Yi, Li Shiwen, et al.Gene expression pattern of trophoblast-specific transcription factors in trophectoderm by analysis of single-cell RNA-seq data of human blastocyst[J].Functional & Integrative Genomics, 2021, 21(2):205-214. [22] Alemnew Birhan, Hoff S, Abebe T, et al.Ex vivo mRNA expression of toll-like receptors during latent tuberculosis infection[J].BMC Immunology, 2021, 22(1). [23] Evan JW, Aubrey O, Chelsie C, et al.Comparing tuberculosis gene signatures in malnourished individuals using the TBSignatureProfiler[J].BMC Infectious Diseases, 2021, 21(1):106. [24] Ding Wenxing, Ana Coto-Montes, Sara Abdelfatah, et al.Guidelines for the use and interpretation of assays for monitoring autophagy(4th edition)[J].Autophagy, 2021, 17(1):1-382. [25] Mendes P, Marciel, Hickman, Richard, Van Verk, Marcel C, et al. A family of pathogen-induced cysteine-rich transmembrane proteins is involved in plant disease resistance[J].Planta: An International Journal of Plant Biology, 2021, 253(5):102. [26] Zhang Jie, Ren Yixuan, Pan Liping, et al.Analysis of drug resistance and mutation profiles in Mycobacterium tuberculosis isolates in a surveillance site in Beijing, China[J].Journal of International Medical Research, 2021, 49(1). [27] Chileshe J, Kerr TJ, Kinnear C, et al.Cytokine biomarker discovery in the white rhinoceros(Ceratotherium simum)[J].Veterinary Immunology and Immunopathology, 2021, 232:110168. [28] Gungor E, Brouwer PD, Laura W, et al.Azollaferns testify: seed plants and ferns share a common ancestor for leucoanthocyanidin reductase enzymes[J].The New Phytologist, 2021, 229(2):1118-1132. [29] Sadeghi I, Byrne J, Shakur R, et al.Engineered drug delivery devices to address global health challenges[J].Journal of Controlled Release: Official Journal of the Controlled Release Society, 2021, 331:503-514. [30] Wang Aixia, Li Yuemei.Diagnostic value of sputum tb-rna detection in pulmonary tuberculosis[J].China Practical Medicine, 2019, 14(13):31-32.
