Band-Selection of a Portal LED-Induced Autofluorescence Multispectral Imager to Improve Oral Cancer Detection
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Yung-Jhe Yan | Jin-Chern Chiou | Mang Ou-Yang | Ming-Hsui Tsai | Nai-Lun Cheng | Chia-Ing Jan | J. Chiou | M. Tsai | C. Jan | Y. Yan | M. Ou‐Yang | Nai-Lun Cheng
[1] C. Farah,et al. Assessment of oral mucosal lesions with autofluorescence imaging and reflectance spectroscopy. , 2016, Journal of the American Dental Association.
[2] L. Steier,et al. Use of autofluorescence and fluorescent probes as a potential diagnostic tool for oral cancer: a systematic review. , 2020, Photodiagnosis and photodynamic therapy.
[3] K. Schomacker,et al. Laser induced autofluorescence diagnosis of bladder cancer. , 1996, The Journal of urology.
[4] Pierre Lane,et al. Direct fluorescence visualization of clinically occult high‐risk oral premalignant disease using a simple hand‐held device , 2007, Head & neck.
[5] Camile S Farah,et al. Efficacy of tissue autofluorescence imaging (velscope) in the visualization of oral mucosal lesions , 2012, Head & neck.
[6] A. Villaverde,et al. Fluorescence visualization efficacy for detecting oral lesions more prone to be dysplastic and potentially malignant disorders: a pilot study. , 2017, Photodiagnosis and photodynamic therapy.
[7] A. Leunig,et al. A comparative study of normal inspection, autofluorescence and 5‐ALA‐induced PPIX fluorescence for oral cancer diagnosis , 2002, International journal of cancer.
[8] S. Majumder,et al. Multi-class classification algorithm for optical diagnosis of oral cancer. , 2006, Journal of photochemistry and photobiology. B, Biology.
[9] Ekaterina S. Svistun,et al. Vision enhancement system for detection of oral cavity neoplasia based on autofluorescence , 2004, Head & neck.
[10] J. Chiou,et al. Development of a Novel Embedded Relay Lens Microscopic Hyperspectral Imaging System for Cancer Diagnosis: Use of the Mice with Oral Cancer to Be the Example , 2012 .
[11] Shoko Nioka,et al. Two-channel autofluorescence analysis for oral cancer , 2018, Journal of biomedical optics.
[12] Rebecca Richards-Kortum,et al. Low-cost, multimodal, portable screening system for early detection of oral cancer. , 2008, Journal of biomedical optics.
[13] A. Ramanathan,et al. UTILITY OF AUTOFLUORESCENCE IMAGING IN THE DETECTION OF ORAL MUCOSAL LESIONS IN ELDERLY INSTITUTIONALISED SUBJECTS , 2014 .
[14] P. Gupta,et al. Measurement of NADH concentration in normal and malignant human tissues from breast and oral cavity , 2003, Biotechnology and applied biochemistry.
[15] J. Epstein,et al. Clinical evaluation of chemiluminescent lighting: an adjunct for oral mucosal examinations. , 2006, The Journal of clinical dentistry.
[16] J. Roodenburg,et al. The status of in vivo autofluorescence spectroscopy and imaging for oral oncology. , 2005, Oral oncology.
[17] L. Patton,et al. Adjunctive techniques for oral cancer examination and lesion diagnosis: a systematic review of the literature. , 2008, Journal of the American Dental Association.
[18] Ravleen Nagi,et al. Efficacy of light based detection systems for early detection of oral cancer and oral potentially malignant disorders: Systematic review , 2016, Medicina oral, patologia oral y cirugia bucal.
[19] R. Richards-Kortum,et al. Multispectral optical imaging device for in vivo detection of oral neoplasia. , 2008, Journal of biomedical optics.
[20] T J Flotte,et al. Ultraviolet laser‐induced fluorescence of colonic tissue: Basic biology and diagnostic potential , 1992, Lasers in surgery and medicine.
[21] Viv Bewick,et al. Statistics review 13: Receiver operating characteristic curves , 2004, Critical care.
[22] H. Fukuda,et al. Usefulness of fluorescence photography for diagnosis of oral cancer. , 1999, International journal of oral and maxillofacial surgery.
[23] Haishan Zeng,et al. Simple device for the direct visualization of oral-cavity tissue fluorescence. , 2006, Journal of biomedical optics.
[24] T. Shibahara. [Oral cancer -diagnosis and therapy-.] , 2017, Clinical calcium.
[25] Michaell A. Huber,et al. Acetic acid wash and chemiluminescent illumination as an adjunct to conventional oral soft tissue examination for the detection of dysplasia: a pilot study. , 2004, Quintessence international.
[26] Rebecca Richards-Kortum,et al. Oral premalignancy: New methods of detection and treatment , 2006, Current oncology reports.
[27] C. Mathers,et al. Estimates of worldwide burden of cancer in 2008: GLOBOCAN 2008 , 2010, International journal of cancer.
[28] Daniel Rothamel,et al. Autofluorescence imaging in recurrent oral squamous cell carcinoma , 2016, Oral and Maxillofacial Surgery.
[29] Shih-Lin Wu,et al. Novel Quantitative Analysis Using Optical Imaging (VELscope) and Spectroscopy (Raman) Techniques for Oral Cancer Detection , 2020, Cancers.
[30] Autofluorescence and Diagnostic Accuracy of Lesions of Oral Mucosa: A Pilot Study. , 2015, Brazilian dental journal.
[31] Yung-Jhe Yan,et al. Portable LED-induced autofluorescence spectroscopy for oral cancer diagnosis , 2017, Journal of biomedical optics.
[32] J. Roodenburg,et al. Autofluorescence characteristics of healthy oral mucosa at different anatomical sites , 2003, Lasers in surgery and medicine.
[33] R. Richards-Kortum,et al. Noninvasive diagnosis of oral neoplasia based on fluorescence spectroscopy and native tissue autofluorescence. , 1998, Archives of otolaryngology--head & neck surgery.
[34] S. Shapshay,et al. Spectroscopic detection and evaluation of morphologic and biochemical changes in early human oral carcinoma , 2003, Cancer.
[35] Liann-Be Chang,et al. Multiclass classification of autofluorescence images of oral cavity lesions based on quantitative analysis , 2020, PloS one.
[36] Zengtong Zhou,et al. Potential role of autofluorescence imaging in determining biopsy of oral potentially malignant disorders: A large prospective diagnostic study. , 2019, Oral oncology.
[37] H Stepp,et al. Autofluorescence imaging and spectroscopy of normal and malignant mucosa in patients with head and neck cancer , 1999, Lasers in surgery and medicine.
[38] Darren Roblyer,et al. Evaluation of a low-cost, portable imaging system for early detection of oral cancer , 2010, Head & neck oncology.
[39] Dorina Lauritano,et al. Evaluation of autofluorescence and toluidine blue in the differentiation of oral dysplastic and neoplastic lesions from non dysplastic and neoplastic lesions: a cross-sectional study , 2014, Journal of biomedical optics.
[40] D. Messadi,et al. Diagnostic aids for detection of oral precancerous conditions , 2013, International Journal of Oral Science.
[41] Rebecca Richards-Kortum,et al. Autofluorescence and diffuse reflectance spectroscopy of oral epithelial tissue using a depth-sensitive fiber-optic probe. , 2008, Applied optics.
[42] Kjetil Søreide,et al. Receiver-operating characteristic curve analysis in diagnostic, prognostic and predictive biomarker research , 2008, Journal of Clinical Pathology.
[43] S. Warnakulasuriya,et al. Assessing the accuracy of autofluorescence, chemiluminescence and toluidine blue as diagnostic tools for oral potentially malignant disorders—a clinicopathological evaluation , 2015, Clinical Oral Investigations.
[44] Imran S. Vohra,et al. Autofluorescence Imaging to Monitor the Progression of Oral Potentially Malignant Disorders , 2019, Cancer Prevention Research.
[45] J. Mandrekar. Receiver operating characteristic curve in diagnostic test assessment. , 2010, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.
[46] P. Speight,et al. Critical Evaluation of Diagnostic Aids for the Detection of Oral Cancer , 2008 .
[47] Camile S Farah,et al. A pilot case control study on the efficacy of acetic acid wash and chemiluminescent illumination (ViziLite) in the visualisation of oral mucosal white lesions. , 2007, Oral oncology.
[48] Narayanan Subhash,et al. Laser‐induced autofluorescence spectral ratio reference standard for early discrimination of oral cancer , 2008, Cancer.
[49] C. Farah,et al. Oral cancer awareness for the general practitioner: new approaches to patient care. , 2008, Australian dental journal.