气管镜导航技术在肺外周结节诊断中的应用策略

doi:10.16150/j.1671-2870.2018.05.005

摘要/Abstract

中图分类号:

R734.2

陈涛, 黄建安. 气管镜导航技术在肺外周结节诊断中的应用策略[J]. 诊断学理论与实践, 2018, 17(05): 504-507.

[1] 中华医学会呼吸病学分会肺癌学组, 中国肺癌防治联盟专家组. 肺部结节诊治中国专家共识[J]. 中华结核和呼吸杂志,2015,38(4):249-254.
[2] Dibardino DM, Yarmus LB, Semaan RW.Transthoracic needle biopsy of the lung[J]. J Thorac Dis,2015,7(Suppl 4):S304-S316.
[3] Congregado Loscertales M, Girón Arjona JC, Jiménez Merchán R, et al.Usefulness of video-assisted thoracoscopy for the diagnosis of solitary pulmonary nodules[J]. Arch Bronconeumol,2002,38(9):415-420.
[4] Gould MK, Sanders GD, Barnett PG, et al.Cost-effectiveness of alternative management strategies for patients with solitary pulmonary nodules[J]. Ann Intern Med,2003,138(9):724-735.
[5] Hsiao CJ, Tang CC, Hui-Chen, et al.The value of transbronchial lung biopsy in the diagnosis of peripheral lung tumors according to cell type[J]. Chang Gung Med J,2000,23(10):584-589.
[6] Steinfort DP, Khor YH, Manser RL, et al.Radial probe endobronchial ultrasound for the diagnosis of peripheral lung cancer: systematic review and meta-analysis[J]. Eur Respir J,2011,37(4):902-910.
[7] Huang CT, Ruan SY, Liao WY, et al.Risk factors of pneumothorax after endobronchial ultrasound-guided transbronchial biopsy for peripheral lung lesions[J]. PLoS One,2012,7(11):e49125.
[8] 陈文芳, 钟志成, 黄佩, 等. 支气管镜导航系统对肺周围型病变的诊断价值[J]. 中华结核和呼吸杂志,2017, 40(8):622-625.
[9] Asano F, Matsuno Y, Matsushita T, et al.Transbronchial diagnosis of a pulmonary peripheral small lesion using an ultrathin bronchoscope with virtual bronchoscopie navigation[J]. J Bronchol,2002,9(2):108-111.
[10] Asano F, Eberhardt R, Herth FJ.Virtual bronchoscopic navigation for peripheral pulmonary lesions[J]. Respiration,2014,88(5):430-440.
[11] Tachihara M, Ishida T, Kanazawa K, et al.A virtual bronchoscopic navigation system under X-ray fluoroscopy for transbronchial diagnosis of small peripheral pulmonary lesions[J]. Lung Cancer,2007,57(3):322-327.
[12] Khan KA, Nardelli P, Jaeger A, et al.Navigational Bronchoscopy for Early Lung Cancer: A Road to Therapy[J]. Adv Ther,2016,33(4):580-596.
[13] Oki M, Saka H, Ando M, et al.Ultrathin Bronchoscopy with Multimodal Devices for Peripheral Pulmonary Lesions. A Randomized Trial[J]. Am J Respir Crit Care Med,2015,192(4):468-476.
[14] 孙加源, 韩宝惠, 陈海泉. 电磁导航支气管镜系统在呼吸系统疾病诊治中的应用现状与展望[J]. 中国癌症杂志,2015,25(10):832-837.
[15] Gex G, Pralong JA, Combescure C, et al.Diagnostic yield and safety of electromagnetic navigation bronchoscopy for lung nodules: a systematic review and meta-analysis[J]. Respiration,2014,87(2):165-176.
[16] Eberhardt R, Anantham D, Ernst A, et al.Multimodality bronchoscopic diagnosis of peripheral lung lesions: a randomized controlled trial[J]. Am J Respir Crit Care Med,2007,176(1):36-41.
[17] Seijo LM.Electromagnetic navigation bronchoscopy: clinical utility in the diagnosis of lung cancer[J]. Lung Cancer (Auckl),2016,7:111-118.
[18] Eberhardt R, Morgan RK, Ernst A, et al.Comparison of suction catheter versus forceps biopsy for sampling of solitary pulmonary nodules guided by electromagnetic navigational bronchoscopy[J]. Respiration, 2010,79(1):54-60.
[19] 陈愉, 李时悦, 陈汉章, 等. 电磁导航支气管镜实时引导肺活检对肺外周微小病变的诊断价值[J]. 中华结核和呼吸杂志,2014,37(8):579-582.
[20] Khandhar SJ, Bowling MR, Flandes J, et al.Electromagnetic navigation bronchoscopy to access lung lesions in 1,000 subjects: first results of the prospective, multicenter NAVIGATE study[J]. BMC Pulm Med,2017,17(1):59.
[21] Herth FJ, Eberhardt R, Sterman D, et al.Bronchoscopic transparenchymal nodule access (BTPNA): first in human trial of a novel procedure for sampling solitary pulmonary nodules[J]. Thorax,2015,70(4):326-332.
[22] Harzheim D, Sterman D, Shah PL, et al.Bronchoscopic Transparenchymal Nodule Access: Feasibility and Safety in an Endoscopic Unit[J]. Respiration,2016,91(4):302-306.
[23] Hohenforst-Schmidt W, Zarogoulidis P, Vogl T, et al.Cone Beam Computertomography(CBCT) in Interventional Chest Medicine - High Feasibility for Endobronchial Real-time Navigation[J]. J Cancer,2014,5(3):231-241.

气管镜导航技术在肺外周结节诊断中的应用策略

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