Literature DB >> 15847572

Imaging ex vivo healthy and pathological human brain tissue with ultra-high-resolution optical coherence tomography.

Kostadinka Bizheva1, Angelika Unterhuber, Boris Hermann, Boris Povazay, Harald Sattmann, A F Fercher, Wolfgang Drexler, Matthias Preusser, Herbert Budka, Andreas Stingl, Tuan Le.   

Abstract

The ability of ultra-high-resolution optical coherence tomography (UHR OCT) to discriminate between healthy and pathological human brain tissue is examined by imaging ex vivo tissue morphology of various brain biopsies. Micrometer-scale OCT resolution (0.9x2 microm, axialxlateral) is achieved in biological tissue by interfacing a state-of-the-art Ti:Al2O3 laser (lambda(c)=800 nm, delta lambda=260 nm, and P(out)=120 mW exfiber) to a free-space OCT system utilizing dynamic focusing. UHR OCT images are acquired from both healthy brain tissue and various types of brain tumors including fibrous, athypical, and transitional meningioma and ganglioglioma. A comparison of the tomograms with standard hematoxylin and eosin (H&E) stained histological sections of the imaged biopsies demonstrates the ability of UHR OCT to visualize and identify morphological features such as microcalcifications (>20 microm), enlarged nuclei of tumor cells (approximately 8 to 15 microm), small cysts, and blood vessels, which are characteristic of neuropathologies and normally absent in healthy brain tissue. Copyright 2005 Society of Photo-Optical Instrumentation Engineers

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Year:  2005        PMID: 15847572     DOI: 10.1117/1.1851513

Source DB:  PubMed          Journal:  J Biomed Opt        ISSN: 1083-3668            Impact factor:   3.170


  27 in total

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Review 4.  Review of optical coherence tomography in oncology.

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5.  Capability of physically reasonable OCT-based differentiation between intact brain tissues, human brain gliomas of different WHO grades, and glioma model 101.8 from rats.

Authors:  I N Dolganova; P V Aleksandrova; P V Nikitin; A I Alekseeva; N V Chernomyrdin; G R Musina; S T Beshplav; I V Reshetov; A A Potapov; V N Kurlov; V V Tuchin; K I Zaytsev
Journal:  Biomed Opt Express       Date:  2020-10-28       Impact factor: 3.732

Review 6.  Intraoperative imaging techniques for glioma surgery.

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Journal:  Future Oncol       Date:  2017-08-10       Impact factor: 3.404

7.  AI-Assisted In Situ Detection of Human Glioma Infiltration Using a Novel Computational Method for Optical Coherence Tomography.

Authors:  Ronald M Juarez-Chambi; Carmen Kut; Jose J Rico-Jimenez; Kaisorn L Chaichana; Jiefeng Xi; Daniel U Campos-Delgado; Fausto J Rodriguez; Alfredo Quinones-Hinojosa; Xingde Li; Javier A Jo
Journal:  Clin Cancer Res       Date:  2019-07-17       Impact factor: 12.531

8.  Detection of human brain cancer infiltration ex vivo and in vivo using quantitative optical coherence tomography.

Authors:  Carmen Kut; Kaisorn L Chaichana; Jiefeng Xi; Shaan M Raza; Xiaobu Ye; Elliot R McVeigh; Fausto J Rodriguez; Alfredo Quiñones-Hinojosa; Xingde Li
Journal:  Sci Transl Med       Date:  2015-06-17       Impact factor: 17.956

9.  Optical Coherence Tomography for Brain Imaging and Developmental Biology.

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Journal:  IEEE J Sel Top Quantum Electron       Date:  2015-12-30       Impact factor: 4.544

10.  A prospective study to assess in vivo optical coherence tomography imaging for early detection of chemotherapy-induced oral mucositis.

Authors:  Alden Calantog; Lucy Hallajian; Tasneem Nabelsi; Stephanie Mansour; Anh Le; Joel Epstein; Petra Wilder-Smith
Journal:  Lasers Surg Med       Date:  2013-01-15       Impact factor: 4.025
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