Literature DB >> 26374464

Real-time Imaging of the Resection Bed Using a Handheld Probe to Reduce Incidence of Microscopic Positive Margins in Cancer Surgery.

Sarah J Erickson-Bhatt1, Ryan M Nolan1, Nathan D Shemonski2, Steven G Adie1, Jeffrey Putney3, Donald Darga3, Daniel T McCormick4, Andrew J Cittadine3, Adam M Zysk3, Marina Marjanovic1, Eric J Chaney1, Guillermo L Monroy5, Fredrick A South2, Kimberly A Cradock6, Z George Liu6, Magesh Sundaram7, Partha S Ray7, Stephen A Boppart8.   

Abstract

Wide local excision (WLE) is a common surgical intervention for solid tumors such as those in melanoma, breast, pancreatic, and gastrointestinal cancer. However, adequate margin assessment during WLE remains a significant challenge, resulting in surgical reinterventions to achieve adequate local control. Currently, no label-free imaging method is available for surgeons to examine the resection bed in vivo for microscopic residual cancer. Optical coherence tomography (OCT) enables real-time high-resolution imaging of tissue microstructure. Previous studies have demonstrated that OCT analysis of excised tissue specimens can distinguish between normal and cancerous tissues by identifying the heterogeneous and disorganized microscopic tissue structures indicative of malignancy. In this translational study involving 35 patients, a handheld surgical OCT imaging probe was developed for in vivo use to assess margins both in the resection bed and on excised specimens for the microscopic presence of cancer. The image results from OCT showed structural differences between normal and cancerous tissue within the resection bed following WLE of the human breast. The ex vivo images were compared with standard postoperative histopathology to yield sensitivity of 91.7% [95% confidence interval (CI), 62.5%-100%] and specificity of 92.1% (95% CI, 78.4%-98%). This study demonstrates in vivo OCT imaging of the resection bed during WLE with the potential for real-time microscopic image-guided surgery. ©2015 American Association for Cancer Research.

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Year:  2015        PMID: 26374464      PMCID: PMC4749141          DOI: 10.1158/0008-5472.CAN-15-0464

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  19 in total

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Authors:  Stephen A Boppart; Wei Luo; Daniel L Marks; Keith W Singletary
Journal:  Breast Cancer Res Treat       Date:  2004-03       Impact factor: 4.872

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3.  Real-time intraoperative detection of breast cancer using near-infrared fluorescence imaging and Methylene Blue.

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4.  Rapid cancer detection by topically spraying a γ-glutamyltranspeptidase-activated fluorescent probe.

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Journal:  Sci Transl Med       Date:  2011-11-23       Impact factor: 17.956

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6.  Three-dimensional optical coherence tomography for optical biopsy of lymph nodes and assessment of metastatic disease.

Authors:  Renu John; Steven G Adie; Eric J Chaney; Marina Marjanovic; Krishnarao V Tangella; Stephen A Boppart
Journal:  Ann Surg Oncol       Date:  2012-06-12       Impact factor: 5.344

7.  Intraoperative frozen section analysis of margins in breast conserving surgery significantly decreases reoperative rates: one-year experience at an ambulatory surgical center.

Authors:  Julie M Jorns; Daniel Visscher; Michael Sabel; Tara Breslin; Patrick Healy; Stephanie Daignaut; Jeffrey L Myers; Angela J Wu
Journal:  Am J Clin Pathol       Date:  2012-11       Impact factor: 2.493

8.  Real-time three-dimensional optical coherence tomography image-guided core-needle biopsy system.

Authors:  Wei-Cheng Kuo; Jongsik Kim; Nathan D Shemonski; Eric J Chaney; Darold R Spillman; Stephen A Boppart
Journal:  Biomed Opt Express       Date:  2012-04-30       Impact factor: 3.732

9.  Large field, high resolution full-field optical coherence tomography: a pre-clinical study of human breast tissue and cancer assessment.

Authors:  Osnath Assayag; Martine Antoine; Brigitte Sigal-Zafrani; Michael Riben; Fabrice Harms; Adriano Burcheri; Kate Grieve; Eugénie Dalimier; Bertrand Le Conte de Poly; Claude Boccara
Journal:  Technol Cancer Res Treat       Date:  2013-08-31

10.  Real-time in vivo computed optical interferometric tomography.

Authors:  Adeel Ahmad; Nathan D Shemonski; Steven G Adie; Hee-Seok Kim; Wen-Mei W Hwu; P Scott Carney; Stephen A Boppart
Journal:  Nat Photonics       Date:  2013-06-01       Impact factor: 38.771
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  53 in total

1.  Visualization and tissue classification of human breast cancer images using ultrahigh-resolution OCT.

Authors:  Xinwen Yao; Yu Gan; Ernest Chang; Hanina Hibshoosh; Sheldon Feldman; Christine Hendon
Journal:  Lasers Surg Med       Date:  2017-03-06       Impact factor: 4.025

2.  Complementary use of polarization-sensitive and standard OCT metrics for enhanced intraoperative differentiation of breast cancer.

Authors:  Jianfeng Wang; Yang Xu; Kelly J Mesa; Fredrick A South; Eric J Chaney; Darold R Spillman; Ronit Barkalifa; Marina Marjanovic; P Scott Carney; Anna M Higham; Z George Liu; Stephen A Boppart
Journal:  Biomed Opt Express       Date:  2018-11-28       Impact factor: 3.732

3.  Clinical feasibility of optical coherence micro-elastography for imaging tumor margins in breast-conserving surgery.

Authors:  Wes M Allen; Ken Y Foo; Renate Zilkens; Kelsey M Kennedy; Qi Fang; Lixin Chin; Benjamin F Dessauvagie; Bruce Latham; Christobel M Saunders; Brendan F Kennedy
Journal:  Biomed Opt Express       Date:  2018-11-19       Impact factor: 3.732

Review 4.  Optical coherence elastography - OCT at work in tissue biomechanics [Invited].

Authors:  Kirill V Larin; David D Sampson
Journal:  Biomed Opt Express       Date:  2017-01-27       Impact factor: 3.732

5.  Use of a handheld terahertz pulsed imaging device to differentiate benign and malignant breast tissue.

Authors:  Maarten R Grootendorst; Anthony J Fitzgerald; Susan G Brouwer de Koning; Aida Santaolalla; Alessia Portieri; Mieke Van Hemelrijck; Matthew R Young; Julie Owen; Massi Cariati; Michael Pepper; Vincent P Wallace; Sarah E Pinder; Arnie Purushotham
Journal:  Biomed Opt Express       Date:  2017-05-09       Impact factor: 3.732

6.  Computational optical coherence tomography [Invited].

Authors:  Yuan-Zhi Liu; Fredrick A South; Yang Xu; P Scott Carney; Stephen A Boppart
Journal:  Biomed Opt Express       Date:  2017-02-16       Impact factor: 3.732

7.  Review of intraoperative optical coherence tomography: technology and applications [Invited].

Authors:  Oscar M Carrasco-Zevallos; Christian Viehland; Brenton Keller; Mark Draelos; Anthony N Kuo; Cynthia A Toth; Joseph A Izatt
Journal:  Biomed Opt Express       Date:  2017-02-21       Impact factor: 3.732

Review 8.  Update of the American Society of Breast Surgeons Toolbox to address the lumpectomy reoperation epidemic.

Authors:  Maureen P McEvoy; Jeffrey Landercasper; Himani R Naik; Sheldon Feldman
Journal:  Gland Surg       Date:  2018-12

9.  Economical and compact briefcase spectral-domain optical coherence tomography system for primary care and point-of-care applications.

Authors:  Roshan Dsouza; Jungeun Won; Guillermo L Monroy; Darold R Spillman; Stephen A Boppart
Journal:  J Biomed Opt       Date:  2018-09       Impact factor: 3.170

10.  Wide-field quantitative micro-elastography of human breast tissue.

Authors:  Wes M Allen; Kelsey M Kennedy; Qi Fang; Lixin Chin; Andrea Curatolo; Lucinda Watts; Renate Zilkens; Synn Lynn Chin; Benjamin F Dessauvagie; Bruce Latham; Christobel M Saunders; Brendan F Kennedy
Journal:  Biomed Opt Express       Date:  2018-02-09       Impact factor: 3.732
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