Improving maximal safe brain tumor resection with photoacoustic remote sensing microscopy

Malignant brain tumors are among the deadliest neoplasms with the lowest survival rates of any cancer type. In considering surgical tumor resection, suboptimal extent of resection is linked to poor clinical outcomes and lower overall survival rates. Currently available tools for intraoperative histo...

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Bibliographic Details
Published in:Scientific reports 2020-10, Vol.10 (1), p.17211, Article 17211
Main Authors: Ecclestone, Benjamin R., Bell, Kevan, Abbasi, Saad, Dinakaran, Deepak, van Landeghem, Frank K. H., Mackey, John R., Fieguth, Paul, Haji Reza, Parsin
Format: Article
Language:English
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Brain Neoplasms - diagnostic imaging
Brain Neoplasms - pathology
Brain Neoplasms - surgery
Eosine Yellowish-(YS)
Glioma - diagnostic imaging
Glioma - pathology
Glioma - surgery
Hematoxylin
Humanities and Social Sciences
Humans
Image Processing, Computer-Assisted - methods
Margins of Excision
Microscopy - instrumentation
Microscopy - methods
multidisciplinary
Neurosurgical Procedures - instrumentation
Neurosurgical Procedures - methods
Photoacoustic Techniques - instrumentation
Photoacoustic Techniques - methods
Remote Sensing Technology - instrumentation
Remote Sensing Technology - methods
Science
Science (multidisciplinary)
Stereotaxic Techniques - instrumentation
Surgery, Computer-Assisted - instrumentation
Surgery, Computer-Assisted - methods
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Description
Summary:Malignant brain tumors are among the deadliest neoplasms with the lowest survival rates of any cancer type. In considering surgical tumor resection, suboptimal extent of resection is linked to poor clinical outcomes and lower overall survival rates. Currently available tools for intraoperative histopathological assessment require an average of 20 min processing and are of limited diagnostic quality for guiding surgeries. Consequently, there is an unaddressed need for a rapid imaging technique to guide maximal resection of brain tumors. Working towards this goal, presented here is an all optical non-contact label-free reflection mode photoacoustic remote sensing (PARS) microscope. By using a tunable excitation laser, PARS takes advantage of the endogenous optical absorption peaks of DNA and cytoplasm to achieve virtual contrast analogous to standard hematoxylin and eosin (H&E) staining. In conjunction, a fast 266 nm excitation is used to generate large grossing scans and rapidly assess small fields in real-time with hematoxylin-like contrast. Images obtained using this technique show comparable quality and contrast to the current standard for histopathological assessment of brain tissues. Using the proposed method, rapid, high-throughput, histological-like imaging was achieved in unstained brain tissues, indicating PARS’ utility for intraoperative guidance to improve extent of surgical resection.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-74160-3