Hyperspectral imaging fluorescence excitation scanning for detecting colorectal cancer: pilot study

Optical spectroscopy and hyperspectral imaging have shown the theoretical potential to discriminate between cancerous and non-cancerous tissue with high sensitivity and specificity. To date, these techniques have not been able to be effectively translated to endoscope platforms. Hyperspectral imaging of the fluorescence excitation spectrum represents a new technology that may be well-suited for endoscopic implementation. However, the feasibility of detecting differences between normal and cancerous mucosa using fluorescence excitation-scanning hyperspectral imaging has not been evaluated. The objective of this pilot study was to evaluate the changes in the fluorescence excitation spectrum of resected specimen pairs of colorectal adenocarcinoma and normal colorectal mucosa. Patients being treated for colorectal adenocarcinoma were enrolled. Representative adenocarcinoma and normal colonic mucosa specimens were collected from each case. Specimens were flash frozen in liquid nitrogen. Adenocarcinoma was confirmed by histologic evaluation of H&E permanent sections. Hyperspectral image data of the fluorescence excitation of adenocarcinoma and surrounding normal tissue were acquired using a custom microscope configuration previously developed in our lab. Results demonstrated consistent spectral differences between normal and cancerous tissues over the fluorescence excitation spectral range of 390-450 nm. We conclude that fluorescence excitation-scanning hyperspectral imaging may offer an alternative approach for differentiating adenocarcinoma and surrounding normal mucosa of the colon. Future work will focus on expanding the number of specimen pairs analyzed and will utilize fresh tissues where possible, as flash freezing and reconstituting tissues may have altered the autofluorescence properties.

[1]  T. Fujii,et al.  Flat and depressed colonic neoplasms: a prospective study of 1000 colonoscopies in the UK , 2000, The Lancet.

[2]  S. Winawer,et al.  Choice of fecal occult blood tests for colorectal cancer screening: recommendations based on performance characteristics in population studies , 2002, American Journal of Gastroenterology.

[3]  今泉 克一,et al.  Dual-wavelength excitation of mucosal autofluorescence for precise detection of diminutive colonic adenomas , 2012 .

[4]  Shotaro Nakamura,et al.  Chromoendoscopy, Narrow-Band Imaging Colonoscopy, and Autofluorescence Colonoscopy for Detection of Diminutive Colorectal Neoplasia in Familial Adenomatous Polyposis , 2009, Diseases of the colon and rectum.

[5]  R. Sampliner,et al.  Prospective blinded trial of the colonoscopic miss-rate of large colorectal polyps. , 1991, Gastrointestinal endoscopy.

[6]  Hiroyuki Osawa,et al.  A comparison of conventional endoscopy, chromoendoscopy, and the optimal-band imaging system for the differentiation of neoplastic and non-neoplastic colonic polyps. , 2009, Gastrointestinal endoscopy.

[7]  C. Trautwein,et al.  Value of magnifying chromoendoscopy and narrow band imaging (NBI) in classifying colorectal polyps: a prospective controlled study. , 2007, Endoscopy.

[8]  J. Olsen,et al.  Randomised study of screening for colorectal cancer with faecal-occult-blood test , 1996, The Lancet.

[9]  Y. Sano,et al.  Chromoendoscopy using indigo carmine dye spraying with magnifying observation is the most reliable method for differential diagnosis between non-neoplastic and neoplastic colorectal lesions: a prospective study. , 2004, Endoscopy.

[10]  J. Crook,et al.  Accuracy of polyp detection by gastroenterologists and nurse endoscopists during flexible sigmoidoscopy: a randomized trial. , 1999, Gastroenterology.

[11]  E. Feuer,et al.  SEER Cancer Statistics Review, 1975-2003 , 2006 .

[12]  H. Tajiri,et al.  Narrow-band imaging in the diagnosis of colorectal mucosal lesions: a pilot study. , 2004, Endoscopy.

[13]  L M Schuman,et al.  Reducing mortality from colorectal cancer by screening for fecal occult blood. Minnesota Colon Cancer Control Study. , 1993, The New England journal of medicine.

[14]  D. Apel,et al.  Accuracy of high-resolution chromoendoscopy in prediction of histologic findings in diminutive lesions of the rectosigmoid. , 2006, Gastrointestinal endoscopy.

[15]  T. Church,et al.  Colorectal cancer mortality: effectiveness of biennial screening for fecal occult blood. , 1999, Journal of the National Cancer Institute.

[16]  B E Storer,et al.  Screening sigmoidoscopy and colorectal cancer mortality. , 1992, Journal of the National Cancer Institute.

[17]  S. Woolf,et al.  Colorectal cancer screening and surveillance: clinical guidelines and rationale-Update based on new evidence. , 2003, Gastroenterology.

[18]  J. P. Robinson,et al.  An excitation wavelength-scanning spectral imaging system for preclinical imaging. , 2008, The Review of scientific instruments.

[19]  Chi-Yang Chang,et al.  A prospective comparative study of narrow-band imaging, chromoendoscopy, and conventional colonoscopy in the diagnosis of colorectal neoplasia , 2007, Gut.

[20]  Douglas K Rex,et al.  Maximizing Detection of Adenomas and Cancers During Colonoscopy , 2006, The American Journal of Gastroenterology.

[21]  Prashant Prabhat,et al.  Excitation-scanning hyperspectral imaging microscope , 2014, Journal of biomedical optics.

[22]  A B West,et al.  Prevalence and distinctive biologic features of flat colorectal adenomas in a North American population. , 2001, Gastroenterology.

[23]  S. Moss,et al.  Randomised controlled trial of faecal-occult-blood screening for colorectal cancer , 1989, The Lancet.

[24]  E. Dekker,et al.  Endoscopic tri-modal imaging for surveillance in ulcerative colitis: randomised comparison of high-resolution endoscopy and autofluorescence imaging for neoplasia detection; and evaluation of narrow-band imaging for classification of lesions , 2008, Gut.

[25]  Pietro Addeo,et al.  Conventional colonoscopy and magnified chromoendoscopy for the endoscopic histological prediction of diminutive colorectal polyps: a single operator study. , 2006, World journal of gastroenterology.

[26]  A. Zauber,et al.  Prevention of colorectal cancer by colonoscopic polypectomy. The National Polyp Study Workgroup. , 1993 .

[27]  Liang Gao,et al.  Real-time snapshot hyperspectral imaging endoscope. , 2011, Journal of biomedical optics.

[28]  A. Jemal,et al.  Cancer Statistics, 2008 , 2008, CA: a cancer journal for clinicians.

[29]  R. Capocaccia,et al.  Efficacy in standard clinical practice of colonoscopic polypectomy in reducing colorectal cancer incidence , 2001, Gut.

[30]  Chen-Ming Hsu,et al.  Comparative Study of Conventional Colonoscopy, Chromoendoscopy, and Narrow-Band Imaging Systems in Differential Diagnosis of Neoplastic and Nonneoplastic Colonic Polyps , 2006, The American Journal of Gastroenterology.

[31]  D. Rex,et al.  Colonoscopic miss rates of adenomas determined by back-to-back colonoscopies. , 1997, Gastroenterology.

[32]  N. Suzuki,et al.  What is the most reliable imaging modality for small colonic polyp characterization? Study of white-light, autofluorescence, and narrow-band imaging. , 2011, Endoscopy.

[33]  L. Seeff,et al.  How many endoscopies are performed for colorectal cancer screening? Results from CDC's survey of endoscopic capacity. , 2004, Gastroenterology.