The incidence of esophageal adenocarcinoma has increased significantly over the past 30 years, and the 5-year mortality rate is unacceptably high because of a lack of effective early detection strategies [1]. Moreover, the presence of alarm symptoms that motivate patients to seek medical care often occur when this disease is advanced in stage. Barrett's esophagus is a precursor condition defined by a """"""""salmon pink,"""""""" columnar-lined segment on endoscopy with histological evidence of intestinal metaplasia [2,3]. Once Barrett's esophagus is diagnosed, endoscopic surveillance is recommended for detection of high-grade dysplasia and early adenocarcinoma [4]. Tarqeted imaging is needed for early detection and prevention of adenocarcinoma because high-grade dysplasia can be focal and patchy [5]. However, white light endoscopy is not sensitive to this condition because dysplasia is architecturally flat and visually indistinct from metaplasia [6]. Consequently, random four quadrant biopsy has been proposed [7], but its effectiveness is limited by sampling error, histology processing costs, and time limitations. Furthermore, the histological diagnosis of dysplasia in Barrett's esophagus is challenging, even for the most experienced pathologists, because dysplasia is difficult to distinguish from reactive changes associated with inflammation [8]. High-frequency amplified chromosomal regions and mRNA over-expression represents biological events that are specific for neoplastic changes not seen in inflammation [9], and their targets can be detected endoscopically with fluorescent-labeled peptides.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Specialized Center--Cooperative Agreements (U54)
Project #
1U54CA163059-01
Application #
8244089
Study Section
Special Emphasis Panel (ZCA1-SRLB-1 (O1))
Project Start
2011-09-21
Project End
2016-08-31
Budget Start
2011-09-21
Budget End
2012-08-31
Support Year
1
Fiscal Year
2011
Total Cost
$226,207
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Type
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Chen, Jing; Gao, Zhenghong; Li, Gaoming et al. (2018) Dual-modal in vivo fluorescence and photoacoustic imaging using a heterodimeric peptide. Chem Commun (Camb) 54:13196-13199
Joshi, Bishnu P; Wang, Thomas D (2018) Targeted Optical Imaging Agents in Cancer: Focus on Clinical Applications. Contrast Media Mol Imaging 2018:2015237
Rubenstein, Joel H; Waljee, Akbar K; Dwamena, Ben et al. (2018) Yield of Higher-Grade Neoplasia in Barrett's Esophagus With Low-Grade Dysplasia Is Double in the First Year Following Diagnosis. Clin Gastroenterol Hepatol 16:1529-1530
Tavakkoli, Anna; Appelman, Henry D; Beer, David G et al. (2018) Use of Appropriate Surveillance for Patients With Nondysplastic Barrett's Esophagus. Clin Gastroenterol Hepatol 16:862-869.e3
Stachler, Matthew D; Camarda, Nicholas D; Deitrick, Christopher et al. (2018) Detection of Mutations in Barrett's Esophagus Before Progression to High-Grade Dysplasia or Adenocarcinoma. Gastroenterology 155:156-167
Jiang, Yang; Gong, Yuanzheng; Rubenstein, Joel H et al. (2017) Toward real-time quantification of fluorescence molecular probes using target/background ratio for guiding biopsy and endoscopic therapy of esophageal neoplasia. J Med Imaging (Bellingham) 4:024502
Savastano, Luis E; Seibel, Eric J (2017) Scanning Fiber Angioscopy: A Multimodal Intravascular Imaging Platform for Carotid Atherosclerosis. Neurosurgery 64:188-198
Zhou, Juan; He, Lei; Pang, Zhijun et al. (2017) Identification and validation of FGFR2 peptide for detection of early Barrett's neoplasia. Oncotarget 8:87095-87106
Savastano, Luis E; Zhou, Quan; Smith, Arlene et al. (2017) Multimodal laser-based angioscopy for structural, chemical and biological imaging of atherosclerosis. Nat Biomed Eng 1:
Joshi, Bishnu P; Zhou, Juan; Pant, Asha et al. (2016) Design and Synthesis of Near-Infrared Peptide for in Vivo Molecular Imaging of HER2. Bioconjug Chem 27:481-94

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