References
- Wahidi MM, Herth FJF, Ernst A. State of the art: interventional pulmonology. Chest131, 261–274 (2007).
- Sutedja G. New techniques for early detection of lung cancer. Eur. Respir. J.21(39), 57–66 (2003).
- Colt HG, Murgu SD. Interventional bronchoscopy from bench to bedside: new techniques for early lung cancer detection. Clin. Chest. Med.31(1), 29–37 (2010).
- Kennedy T, Lam S, Hirsch FR. Review of recent advances in fluorescence bronchoscopy in early localization of central airway lung cancer. Oncologist6, 257–262 (2001).
- Yarmus L, Feller-Kopman D. Bronchoscopes of the twenty-first century. Clin. Chest Med.31(1), 19–27 (2010).
- Yasufuku K. Early diagnosis of lung cancer. Clin. Chest Med.31(1), 39–47 (2010).
- Banerjee AK, Rabbits PH, George J. Lung cancer. 3: fluorescence bronchoscopy: clinical dilemmas and research opportunities. Thorax58, 266–271 (2003).
- Bolliger CT, Mathur PN, Beamis JF et al. ERS/ATS statement on interventional pulmonology. European Respiratory Society/American Thoracic Society. Eur. Respir. J.19(2), 356–373 (2002).
- Lam S, Kennedy T, Unger M et al. Localization of bronchial intraepithelial neoplastic lesions by fluorescence bronchoscopy. Chest113, 696–702 (1998).
- Lee P, Brokx HAP, Postmus PE, Sutedja TG. Dual digital video-auto fluorescence imaging for detection of pre-neoplastic lesions. Lung Cancer58, 44–49 (2007).
- Loewen G, Natarajan N, Tan D et al. Autofluorescence bronchoscopy for lung cancer surveillance based on risk assessment. Thorax62, 335–340 (2007).
- Herth FJF, Ernst A, Becker HD. Autofluorescence bronchoscopy – a comparison of two systems (LIFE and D-Light). Respiration70, 395–398 (2003).
- Ikeda N, Honda H, Hayashi A et al. Early detection of bronchial lesions using newly developed videoendoscopy-based autofluorescence bronchoscopy. Lung Cancer52, 21–27 (2006).
- McWilliams A, Lam B, Sutedja T. Early proximal lung cancer diagnosis and treatment. Eur. Respir. J.33, 656–665 (2009).
- Rosell A, Sutedja TG. Early detection of lung cancer. Eur. Respir. Mon.48, 35–44 (2010).
- Shibuya K, Fujisawa T, Hoshino H et al. Fluorescence bronchoscopy in the detection of preinvasive lesions in patients with sputum cytology suspicious or positive for malignancy. Lung Cancer32, 19–25 (2001).
- Moro-Sibilot D, Jeanmart M, Lantuejoul S et al. Cigarette smoking, preinvasive bronchial lesions, and autofluorescence bronchoscopy. Chest122, 1902–1908 (2002).
- Lee P, de Bree R, Brokx HAP, Leemans CR, Postmus PE, Sutedja TG. Primary lung cancer after treatment of head and neck cancer without lymph node metastasis: is there a role for autofluorescence bronchoscopy. Lung Cancer62(3), 309–315 (2008).
- Herth F. Playing with the wavelengths: endoscopic early lung cancer detection. Lung Cancer69(2), 131–132 (2010).
- Häussinger K, Becker HD, Stanzel F et al. Autofluorescence bronchoscopy with white light bronchoscopy compared with white light bronchoscopy alone for the detection of precancerous lesions: a European randomized controlled multicenter trial. Thorax60, 496–503 (2005).
- Chiyo M, Shibuya K, Hoshino H et al. Effective detection of bronchial preinvasive lesions by a new autofluorescence imaging bronchovideoscope system. Lung Cancer48, 307–313 (2005).
- Ueno K, Kusunoki Y, Imamura F et al. Clinical experience with autofluorescence imaging system in patients with lung cancers and precancerous lesions. Respiration74, 304–308 (2007).
- Chhajed PN, Shibuya K, Hoshino H et al. A comparison of video and autofluorescence bronchoscopy in patients at high risk of lung cancer. Eur. Respir. J.25, 951–955 (2005).
- Lam B, Wong MP, Fung SL et al. The clinical value of autofluorescence bronchoscopy for the diagnosis of lung cancer. Eur. Respir. J.28, 916–919 (2006).
- Stringer MR, Moghissi K, Dixon K. Autofluorescence bronchoscopy in volunteer asymptomatic smokers. Photodiagnosis Photodyn. Ther.5, 148–152 (2008).
- Hanibuchi M, Yano S, Nishioka Y et al. Autofluorescence bronchoscopy, a novel modality for the early detection of bronchial premalignant and malignant lesions. J. Med. Invest.54, 261–266 (2007).
- Beamis JF, Ernst A, Simoff M, Yung R, Mathur P. A multicenter study comparing autofluorescence bronchoscopy to white light bronchoscopy using a non laser light stimulation system. Chest125, 148–149 (2004).
- Ernst A, Simoff MJ, Mathur PN, Yung RC, Beamis JF Jr. D-light autofluorescence in the detection of premalignant airway changes: a multicenter trial. J. Bronchol.12, 133–138 (2005).
- Herth FJF, Eberhardt R, Anantham D, Gompelmann D, Zakaria MW, Ernst A. Narrow-band imaging bronchoscopy increases the specificity of bronchoscopic early lung cancer detection. J. Thorac. Oncol.4, 1060–1065 (2009).
- Hirsch FR, Prindiville SA, Miller YE et al. Fluorescence versus white light bronchoscopy for detection of preneoplastic lesions: a randomized study. J. Natl Cancer Inst.93, 1385–1391 (2001).
- Edell E, Lam S, Pass H et al. Detection and localization of intraepithelial neoplasia and invasive carcinoma using fluorescence-reflectance bronchoscopy: an international, multicenter clinical trial. J. Thorac. Oncol.4, 49–54 (2009).
- Tercelj M, Zeng H, Petek M, Rott T, Palcic B. Acquisition of fluorescence and reflectance spectra during routine bronchoscopy examinations using ClearVu Elite™ device: pilot study. Lung Cancer50, 35–42 (2005).
- MacEachern P, Tremblay A. Improving specificity of autofluorescence bronchoscopy. J. Bronchol. Intervent. Pulmonol.16(3), 155–156 (2009).
- Gabrecht T, Lovisa B, van den Bergh H, Wagnières G. Autofluorescence bronchoscopy: quantification of inter-patient variations of fluorescence intensity. Lasers Med. Sci.24(1), 45–51 (2009).
- Uehlinger P, Gabrecht T, Glanzmann T. In vivo time-resolved spectroscopy of the human bronchial early cancer autofluorescence. J. Biomed. Opt.14(2), 024011 (2009).
- Hüttenberger D, Gabrecht T, Wagnières G. Autofluorescence detection of tumors in the human lung – spectroscopical measurements in situ, in an in vivo model and in vitro.Photodiagnosis Photodyn. Ther.5(2), 139–147 (2008).
- Gabrecht T, Glanzmann T, Freitag L, Weber BC, van den Bergh H, Wagnières G. Optimized autofluorescence bronchoscopy using additional backscattered red light. J. Biomed. Opt.12(6), 064016 (2007).
- Gabrecht T, Radu A, Grosjean P. Improvement of the specificity of cancer detection by autofluorescence imaging in the tracheo-bronchial tree using backscattered violet light. Photodiagnosis Photodyn. Ther.5(1), 2–9 (2008).
- Gabrecht T, Andrejevic-Blant S, Wagnières G. Blue-violet excited autofluorescence spectroscopy and imaging of normal and cancerous human bronchial tissue after formalin fixation. Photochem. Photobiol.83(2), 450–458 (2007).
- Gabrecht T, Lovisa B, Borle F, Wagnières G. Design of an endoscopic optical reference to be used for autofluorescence bronchoscopy with a commercially available diagnostic autofluorescence endoscopy (DAFE) system. Phys. Med. Biol.52(8), N163–N171 (2007).
- van Rens MT, Schramel FM, Elbers JR, Lammers JW. The clinical value of lung imaging fluorescence endoscopy for detecting synchronous lung cancer. Lung Cancer32, 13–18 (2001).
- Pierard P, Faber J, Hutsebaut J et al. Synchronous lesions detected by autofluorescence bronchoscopy in patients with high-grade preinvasive lesions and occult invasive squamous cell carcinoma of the proximal airways. Lung Cancer46, 341–347 (2004).
- Tsunezuka Y, Oda M, Ohta Y, Matsumoto I, Tamura M, Watanabe G. Fluorescence bronchoscopy for selection of surgical procedure in patients with early staged endobronchial carcinoma. Artif. Organs29(4), 348–352 (2005).
- Weigel TL, Yousem S, Dacic S, Kosco PJ, Siegfried J, Luketich JD. Fluorescence bronchoscopic surveillance after curative surgical resection for non-small-cell lung cancer. Ann. Oncol. Surg.7(3), 176–180 (2000).
- Sutedja TG, Codrington H, Risse EK et al. Autofluorescence bronchoscopy improves staging of radiographically occult lung cancer and has an impact on therapeutic strategy. Chest120, 1327–1332 (2001).
- Ikeda N, Hiyoshi T, Kakihana M et al. Histopathological evaluation of fluorescence bronchoscopy using resected lungs in cases of lung cancer. Lung Cancer41, 303–309 (2003).
- Zaric B, Canak V, Stojanovic G et al. Autofluorescence videobronchoscopy (AFI) for the assessment of tumor extension in lung cancer. Technol. Cancer Res. Treat.8(1), 79–84 (2009).
- Zaric B, Becker HD, Perin B et al. Autofluorescence imaging videobrochoscopy improves assessment of tumor margins and affects therapeutic strategy in central lung cancer. Jpn. J. Clin. Oncol.40, 139–145 (2010).
- Vincent BD, Fraig M, Silvestri GA. A pilot study of narrow-band imaging compared to white light bronchoscopy for evaluation of normal airways and premalignant and malignant airways disease. Chest131, 1794–1799 (2007).
- Zaric B, Perin B, Jovelic A et al. Influence of narrow band imaging (NBI) videobronchoscopy on the assessment of central lung cancer extension and therapeutic decision. Cancer Invest.27, 918–923 (2009).
- Zaric B, Becker HD, Perin B et al. Narrow band imaging (NBI) videobronchoscopy improves assessment of lung cancer extension and influences therapeutic strategy. Jpn. J. Clin. Oncol.39, 657–663 (2009).
- Zaric B, Perin B. The use of narrow band imaging bronchoscopy in detection of lung cancer. Expert Rev. Med. Devices7(3), 395–406 (2010).
- Shibuya K, Nakajima T, Fujiwara T et al. Narrow band imaging with high-resolution bronchovideoscopy: a new approach for visualizing angiogenesis in squamous cell carcinoma of the lung. Lung Cancer69(2), 194–202 (2010).
- Park JK, Jo YS, Jang S, Park YS, Choi CM. Clinical benefits of narrow band imaging bronchoscopy in central lung cancer. Tuberculosis Respir. Dis.68(1), 16–21 (2010).
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