虚拟支气管镜导航在肺外周病变诊断中的应用现状和展望_Chinese Journal of Respiratory and Critical Care Medicine

Authors：

李翔 , 黄海东 , 董宇超 ,  白冲

海军军医大学第一附属医院呼吸与危重症医学科（上海200433）;

Corresponding author：

白冲, Email: bc7878@sohu.com

Keywords：

DOI：

10.7507/1671-6205.202210026

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Citation： 李翔, 黄海东, 董宇超, 白冲. 虚拟支气管镜导航在肺外周病变诊断中的应用现状和展望. Chinese Journal of Respiratory and Critical Care Medicine, 2022, 21(10): 687-690. doi: 10.7507/1671-6205.202210026 Copy

1.	Aberle DR, Adams AM, Berg CD, et al. Reduced lung-cancer mortality with low-dose computed tomographic screening. N Engl J Med, 2011, 365(5): 395-409.
2.	Asano F, Shinagawa N, Ishida T, et al. Virtual bronchoscopic navigation combined with ultrathin bronchoscopy. A randomized clinical trial. Am J Respir Crit Care Med, 2013, 188(3): 327-333.
3.	Eberhardt R, Kahn N, Gompelmann D, et al. LungPoint-a new approach to peripheral lesions. J Thorac Oncol, 2010, 5(10): 1559-1563.
4.	Asano F, Eberhardt R, Herth FJ. Virtual bronchoscopic navigation for peripheral pulmonary lesions. Respiration, 2014, 88(5): 430-440.
5.	Shinagawa N, Yamazaki K, Onodera Y, et al. CT-guided transbronchial biopsy using an ultrathin bronchoscope with virtual bronchoscopic navigation. Chest, 2004, 125(3): 1138-1143.
6.	Asano F, Matsuno Y, Takeichi N. Virtual bronchoscopy in navigation of an ultrathin bronchoscope. J Jpn Soc Bronchol, 2002, 24: 433-438.
7.	Asano F, Matsuno Y, Shinagawa N, et al. A virtual bronchoscopic navigation system for pulmonary peripheral lesions. Chest, 2006, 130(2): 559-566.
8.	Shinagawa N, Yamazaki K, Onodera Y, et al. Virtual bronchoscopic navigation system shortens the examination time—Feasibility study of virtual bronchoscopic navigation system. Lung Cancer, 2007, 56(2): 201-206.
9.	Kato A, Yasuo M, Tokoro Y, et al. Virtual bronchoscopic navigation as an aid to CT-guided transbronchial biopsy improves the diagnostic yield for small peripheral pulmonary lesions. Respirology, 2018, 23(11): 1049-1054.
10.	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. Lung Cancer, 2007, 57(3): 322-327.
11.	Iwano S, Imaizumi K, Okada T, et al. Virtual bronchoscopy-guided transbronchial biopsy for aiding the diagnosis of peripheral lung cancer. Eur J Radiol, 2011, 79(1): 155-159.
12.	Steinfort DP, Khor YH, Manser RL, et al. Radial probe endobronchial ultrasound for the diagnosis of peripheral lung cancer: systematic review and meta-analysis. Eur Respir J, 2011, 37(4): 902-910.
13.	Matsumoto Y, Izumo T, Sasada S, et al. Diagnostic utility of endobronchial ultrasound with a guide sheath under the computed tomography workstation (ziostation) for small peripheral pulmonary lesions. Clin Respir J, 2017, 11(2): 185-192.
14.	Yoshikawa M, Sukoh N, Yamazaki K, et al. Diagnostic value of endobronchial ultrasonography with a guide sheath for peripheral pulmonary lesions without X-ray fluoroscopy. Chest, 2007, 131(6): 1788-1793.
15.	Xu CH, Wang Y, Li L, et al. Diagnostic value of virtual bronchoscopic navigation combined with endobronchial ultrasound guided transbronchial lung biopsy for peripheral pulmonary lesions. Technol Cancer Res Treat, 2021, 20: 1180464425.
16.	Bo LY, Li CC, Pan L, et al. Diagnosing a solitary pulmonary nodule using multiple bronchoscopic guided technologies: a prospective randomized study. Lung Cancer, 2019, 129: 48-54.
17.	Asahina H, Yamazaki K, Onodera Y, et al. Transbronchial biopsy using endobronchial ultrasonography with a guide sheath and virtual bronchoscopic navigation. Chest, 2005, 128(3): 1761-1765.
18.	Ishida T, Asano F, Yamazaki K, et al. Virtual bronchoscopic navigation combined with endobronchial ultrasound to diagnose small peripheral pulmonary lesions: a randomised trial. Thorax, 2011, 66(12): 1072-1077.
19.	Asano F, Shinagawa N, Ishida T, et al. Virtual bronchoscopic navigation improves the diagnostic yield of radial-endobronchial ultrasound for peripheral pulmonary lesions with involved bronchi on CT. Intern Med, 2015, 54(9): 1021-1025.
20.	Tachihara M, Tamura D, Kiriu T, et al. Bronchoscopy using virtual navigation and endobronchial ultrasonography with a guide sheath (EBUS-GS) with or without fluoroscopy for peripheral pulmonary lesions. Kobe J Med Sci, 2018, 63(4): E99-E104.
21.	Oki M, Saka H, Ando M, et al. Ultrathin bronchoscopy with multimodal devices for peripheral pulmonary lesions. A randomized trial. Am J Respir Crit Care Med, 2015, 192(4): 468-476.
22.	Zheng XX, Xie FF, Li Y, et al. Ultrathin bronchoscope combined with virtual bronchoscopic navigation and endobronchial ultrasound for the diagnosis of peripheral pulmonary lesions with or without fluoroscopy: a randomized trial. Thorac Cancer, 2021, 12(12): 1864-1872.
23.	Ishiwata T, Gregor A, Inage T, et al. Advances in interventional diagnostic bronchoscopy for peripheral pulmonary lesions. Expert Rev Respir Med, 2019, 13(9): 885-897.
24.	Schuhmann M, Bostanci K, Bugalho A, et al. Endobronchial ultrasound-guided cryobiopsies in peripheral pulmonary lesions: a feasibility study. Eur Respir J, 2014, 43(1): 233-239.
25.	Jiang SM, Liu XJ, Chen JX, et al. A pilot study of the ultrathin cryoprobe in the diagnosis of peripheral pulmonary ground-glass opacity lesions. Transl Lung Cancer Res, 2020, 9(5): 1963-1973.
26.	Hohenforst-Schmidt W, Zarogoulidis P, Vogl T, et al. Cone beam computertomography (CBCT) in interventional chest medicine - high feasibility for endobronchial realtime navigation. J Cancer, 2014, 5(3): 231-241.
27.	Ali E, Takizawa H, Kawakita N, et al. Transbronchial biopsy using an ultrathin bronchoscope guided by cone-beam computed tomography and virtual bronchoscopic navigation in the diagnosis of pulmonary nodules. Respiration, 2019, 98(4): 321-328.
28.	Kawakita N, Takizawa H, Toba H, et al. Cone‐beam computed tomography versus computed tomography‐guided ultrathin bronchoscopic diagnosis for peripheral pulmonary lesions: a propensity score‐matched analysis. Respirology, 2021, 26(5): 477-484.

1. Aberle DR, Adams AM, Berg CD, et al. Reduced lung-cancer mortality with low-dose computed tomographic screening. N Engl J Med, 2011, 365(5): 395-409.
2. Asano F, Shinagawa N, Ishida T, et al. Virtual bronchoscopic navigation combined with ultrathin bronchoscopy. A randomized clinical trial. Am J Respir Crit Care Med, 2013, 188(3): 327-333.
3. Eberhardt R, Kahn N, Gompelmann D, et al. LungPoint-a new approach to peripheral lesions. J Thorac Oncol, 2010, 5(10): 1559-1563.
4. Asano F, Eberhardt R, Herth FJ. Virtual bronchoscopic navigation for peripheral pulmonary lesions. Respiration, 2014, 88(5): 430-440.
5. Shinagawa N, Yamazaki K, Onodera Y, et al. CT-guided transbronchial biopsy using an ultrathin bronchoscope with virtual bronchoscopic navigation. Chest, 2004, 125(3): 1138-1143.
6. Asano F, Matsuno Y, Takeichi N. Virtual bronchoscopy in navigation of an ultrathin bronchoscope. J Jpn Soc Bronchol, 2002, 24: 433-438.
7. Asano F, Matsuno Y, Shinagawa N, et al. A virtual bronchoscopic navigation system for pulmonary peripheral lesions. Chest, 2006, 130(2): 559-566.
8. Shinagawa N, Yamazaki K, Onodera Y, et al. Virtual bronchoscopic navigation system shortens the examination time—Feasibility study of virtual bronchoscopic navigation system. Lung Cancer, 2007, 56(2): 201-206.
9. Kato A, Yasuo M, Tokoro Y, et al. Virtual bronchoscopic navigation as an aid to CT-guided transbronchial biopsy improves the diagnostic yield for small peripheral pulmonary lesions. Respirology, 2018, 23(11): 1049-1054.
10. 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. Lung Cancer, 2007, 57(3): 322-327.
11. Iwano S, Imaizumi K, Okada T, et al. Virtual bronchoscopy-guided transbronchial biopsy for aiding the diagnosis of peripheral lung cancer. Eur J Radiol, 2011, 79(1): 155-159.
12. Steinfort DP, Khor YH, Manser RL, et al. Radial probe endobronchial ultrasound for the diagnosis of peripheral lung cancer: systematic review and meta-analysis. Eur Respir J, 2011, 37(4): 902-910.
13. Matsumoto Y, Izumo T, Sasada S, et al. Diagnostic utility of endobronchial ultrasound with a guide sheath under the computed tomography workstation (ziostation) for small peripheral pulmonary lesions. Clin Respir J, 2017, 11(2): 185-192.
14. Yoshikawa M, Sukoh N, Yamazaki K, et al. Diagnostic value of endobronchial ultrasonography with a guide sheath for peripheral pulmonary lesions without X-ray fluoroscopy. Chest, 2007, 131(6): 1788-1793.
15. Xu CH, Wang Y, Li L, et al. Diagnostic value of virtual bronchoscopic navigation combined with endobronchial ultrasound guided transbronchial lung biopsy for peripheral pulmonary lesions. Technol Cancer Res Treat, 2021, 20: 1180464425.
16. Bo LY, Li CC, Pan L, et al. Diagnosing a solitary pulmonary nodule using multiple bronchoscopic guided technologies: a prospective randomized study. Lung Cancer, 2019, 129: 48-54.
17. Asahina H, Yamazaki K, Onodera Y, et al. Transbronchial biopsy using endobronchial ultrasonography with a guide sheath and virtual bronchoscopic navigation. Chest, 2005, 128(3): 1761-1765.
18. Ishida T, Asano F, Yamazaki K, et al. Virtual bronchoscopic navigation combined with endobronchial ultrasound to diagnose small peripheral pulmonary lesions: a randomised trial. Thorax, 2011, 66(12): 1072-1077.
19. Asano F, Shinagawa N, Ishida T, et al. Virtual bronchoscopic navigation improves the diagnostic yield of radial-endobronchial ultrasound for peripheral pulmonary lesions with involved bronchi on CT. Intern Med, 2015, 54(9): 1021-1025.
20. Tachihara M, Tamura D, Kiriu T, et al. Bronchoscopy using virtual navigation and endobronchial ultrasonography with a guide sheath (EBUS-GS) with or without fluoroscopy for peripheral pulmonary lesions. Kobe J Med Sci, 2018, 63(4): E99-E104.
21. Oki M, Saka H, Ando M, et al. Ultrathin bronchoscopy with multimodal devices for peripheral pulmonary lesions. A randomized trial. Am J Respir Crit Care Med, 2015, 192(4): 468-476.
22. Zheng XX, Xie FF, Li Y, et al. Ultrathin bronchoscope combined with virtual bronchoscopic navigation and endobronchial ultrasound for the diagnosis of peripheral pulmonary lesions with or without fluoroscopy: a randomized trial. Thorac Cancer, 2021, 12(12): 1864-1872.
23. Ishiwata T, Gregor A, Inage T, et al. Advances in interventional diagnostic bronchoscopy for peripheral pulmonary lesions. Expert Rev Respir Med, 2019, 13(9): 885-897.
24. Schuhmann M, Bostanci K, Bugalho A, et al. Endobronchial ultrasound-guided cryobiopsies in peripheral pulmonary lesions: a feasibility study. Eur Respir J, 2014, 43(1): 233-239.
25. Jiang SM, Liu XJ, Chen JX, et al. A pilot study of the ultrathin cryoprobe in the diagnosis of peripheral pulmonary ground-glass opacity lesions. Transl Lung Cancer Res, 2020, 9(5): 1963-1973.
26. Hohenforst-Schmidt W, Zarogoulidis P, Vogl T, et al. Cone beam computertomography (CBCT) in interventional chest medicine - high feasibility for endobronchial realtime navigation. J Cancer, 2014, 5(3): 231-241.
27. Ali E, Takizawa H, Kawakita N, et al. Transbronchial biopsy using an ultrathin bronchoscope guided by cone-beam computed tomography and virtual bronchoscopic navigation in the diagnosis of pulmonary nodules. Respiration, 2019, 98(4): 321-328.
28. Kawakita N, Takizawa H, Toba H, et al. Cone‐beam computed tomography versus computed tomography‐guided ultrathin bronchoscopic diagnosis for peripheral pulmonary lesions: a propensity score‐matched analysis. Respirology, 2021, 26(5): 477-484.

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虚拟支气管镜导航在肺外周病变诊断中的应用现状和展望

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