Literature DB >> 27618507

Detection of extracellular matrix modification in cancer models with inverse spectroscopic optical coherence tomography.

Graham L C Spicer1, Samira M Azarin, Ji Yi, Scott T Young, Ronald Ellis, Greta M Bauer, Lonnie D Shea, Vadim Backman.   

Abstract

In cancer biology, there has been a recent effort to understand tumor formation in the context of the tissue microenvironment. In particular, recent progress has explored the mechanisms behind how changes in the cell-extracellular matrix ensemble influence progression of the disease. The extensive use of in vitro tissue culture models in simulant matrix has proven effective at studying such interactions, but modalities for non-invasively quantifying aspects of these systems are scant. We present the novel application of an imaging technique, Inverse Spectroscopic Optical Coherence Tomography, for the non-destructive measurement of in vitro biological samples during matrix remodeling. Our findings indicate that the nanoscale-sensitive mass density correlation shape factor D of cancer cells increases in response to a more crosslinked matrix. We present a facile technique for the non-invasive, quantitative study of the micro- and nano-scale structure of the extracellular matrix and its host cells.

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Year:  2016        PMID: 27618507      PMCID: PMC5056859          DOI: 10.1088/0031-9155/61/19/6892

Source DB:  PubMed          Journal:  Phys Med Biol        ISSN: 0031-9155            Impact factor:   3.609


  33 in total

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Review 9.  The extracellular matrix: a dynamic niche in cancer progression.

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  8 in total

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Review 2.  Engineered Niches to Analyze Mechanisms of Metastasis and Guide Precision Medicine.

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4.  Optical coherence tomography for the early detection of colorectal dysplasia and cancer: validation in a murine model.

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Review 5.  The Role of Tumor Microenvironment in Chemoresistance: To Survive, Keep Your Enemies Closer.

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6.  Optical Detection of Early Damage in Retinal Ganglion Cells in a Mouse Model of Partial Optic Nerve Crush Injury.

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7.  Detection of Malignancy in Ocular Surface Lesions by Inverse Spectroscopic Optical Coherence Tomography and Two-Photon Autofluorescence.

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8.  Measuring light scattering and absorption in corals with Inverse Spectroscopic Optical Coherence Tomography (ISOCT): a new tool for non-invasive monitoring.

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  8 in total

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