Abstract

? The objective of this research is to develop a screening tool for the early detection of ovarian cancer with the capability of diagnosing microscopic cancers or areas of abnormality in the ovary using minimally invasive surgical access. Ovarian cancer has the highest mortality of any of the gynecologic conditions because it is usually diagnosed in late stages leading to poor overall prognosis for survival. The fluorescence confocal microendoscope is a new type of instrument for visualizing tissue at the cellular level that has shown great promise for performing optical biopsy. Preliminary work suggests significant potential for this instrument in imaging and identifying pathology in the ovary. Confocal microscopy has the capability to enhance a physicians' diagnostic ability and ultimately provide an automated image analytic tool for real-time in vivo diagnosis of pathology.
The specific aims of the work are as follows: 1) To build a third-generation confocal microendoscope instrument that can be used routinely and reliably in the clinic. The system will be compact, mobile, and incorporate high sensitivity grayscale and multi-spectral imaging capabilities. 2) To develop a reliable mechanism for localized delivery of exogenous fluorescence contrast agent. Ideally this will be a non- (or minimum) contact technique that will allow well-controlled exposure of tissue to the exogenous agents. 3) To incorporate automated real-time pattern recognition capability into the system. This capability will assist the operating physician in identifying pathology during continuous imaging of the surface of the ovary. 4) To evaluate the safety and efficacy of specific fluorescent compound(s) for use as contrast agents in the peritoneal cavity that will be delivered topically to the surface of the ovary. This work will be done in a rodent model. 5) To demonstrate the feasibility of using the instrument for in vivo imaging of human ovary. This will prove that the basic system concept works and to point out practical issues that need to be addressed. 6) To assess the efficacy of the clinical instrument for detection of pathology of the ovary. This will be a more extensive study to evaluate the sensitivity and specificity of this technique across a range of histologic diagnoses including normal ovary, benign neoplasms, and cancers. The clinical evaluations will be done in a cohort of women who are scheduled to undergo oophrectomy procedures. ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA115780-02
Application #
7114964
Study Section
Biomedical Imaging Technology Study Section (BMIT)
Program Officer
Baker, Houston
Project Start
2005-09-01
Project End
2009-06-30
Budget Start
2006-07-01
Budget End
2007-06-30
Support Year
2
Fiscal Year
2006
Total Cost
$269,645
Indirect Cost

  Institution

Name
University of Arizona
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
806345617
City
Tucson
State
AZ
Country
United States
Zip Code
85721

  Publications

Risi, Matthew D; Rouse, Andrew R; Chambers, Setsuko K et al. (2016) Pilot Clinical Evaluation of a Confocal Microlaparoscope for Ovarian Cancer Detection. Int J Gynecol Cancer 26:248-54
Risi, Matthew D; Makhlouf, Houssine; Rouse, Andrew R et al. (2015) Analysis of multimode fiber bundles for endoscopic spectral-domain optical coherence tomography. Appl Opt 54:101-13
Wu, Tzu-Yu; Rouse, Andrew R; Chambers, Setsuko K et al. (2014) Confocal microlaparoscope for imaging the fallopian tube. J Biomed Opt 19:116010
Risi, Matthew D; Makhlouf, Houssine; Rouse, Andrew R et al. (2014) Design and Performance of a Multi-Point Scan Confocal Microendoscope. Photonics 1:421-431
Kano, Angelique; Rouse, Andrew R; Gmitro, Arthur F (2013) Ultrathin single-channel fiberscopes for biomedical imaging. J Biomed Opt 18:16013
Leung, Hui Min; Schafer, Rachel; Pagel, Mark M et al. (2013) Multimodality pH imaging in a mouse dorsal skin fold window chamber model. Proc SPIE Int Soc Opt Eng 8574:
Tanbakuchi, Anthony A; Udovich, Joshua A; Rouse, Andrew R et al. (2010) In vivo imaging of ovarian tissue using a novel confocal microlaparoscope. Am J Obstet Gynecol 202:90.e1-9
Udovich, J A; Besselsen, D G; Gmitro, A F (2009) Assessment of acridine orange and SYTO 16 for in vivo imaging of the peritoneal tissues in mice. J Microsc 234:124-9
Tanbakuchi, Anthony A; Rouse, Andrew R; Udovich, Joshua A et al. (2009) Clinical confocal microlaparoscope for real-time in vivo optical biopsies. J Biomed Opt 14:044030
Tanbakuchi, Anthony A; Rouse, Andrew R; Gmitro, Arthur F (2009) Monte Carlo characterization of parallelized fluorescence confocal systems imaging in turbid media. J Biomed Opt 14:044024

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