John W. Pyhtila scite author profile

Angle-resolved low-coherence interferometry ͑a/LCI͒ is used to obtain quantitative, depth-resolved nuclear morphology measurements. We compare the average diameter and texture of cell nuclei in rat esophagus epithelial tissue to grading criteria established in a previous a/LCI study to prospectively grade neoplastic progression. We exploit the depth resolution of a/LCI to exclusively examine the basal layer of the epithelium, approximately 50 to 100 m beneath the tissue surface, without the need for exogenous contrast agents, tissue sectioning, or fixation. The results of two studies are presented that compare the performance of two a/LCI modalities. Overall, the combined studies show 91% sensitivity and 97% specificity for detecting dysplasia, using histopathology as the standard. In addition, the studies enable the effects of dietary chemopreventive agents, difluoromethylornithine ͑DFMO͒ and curcumin, to be assessed by observing modulation in the incidence of neoplastic change. We demonstrate that a/LCI is highly effective for monitoring neoplastic change and can be applied to assessing the efficacy of chemopreventive agents in the rat esophagus.

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Determining nuclear morphology using an improved angle-resolved low coherence interferometry system

Pyhtila¹,

Graf²,

Wax³

2003

Opt. Express

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We outline the process for determining the morphology of subsurface epithelial cell nuclei using depth-resolved light scattering measurements. The measurements are accomplished using a second generation angle-resolved low coherence interferometry system. The new system greatly improves data acquisition and analysis times compared to the initial prototype system. The calibration of the new system is demonstrated in scattering studies to determine the size distribution of polystyrene microspheres in a turbid sample. The process for determining the size of cell nuclei is discussed by analyzing measurements of basal cells in a sub-surface layer of intact, unstained epithelial tissue.

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Review and Recent Development of Angle-Resolved Low-Coherence Interferometry for Detection of Precancerous Cells in Human Esophageal Epithelium

Brown

Pyhtila

Terry

et al. 2008

IEEE J. Select. Topics Quantum Electron.

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In situ detection of nuclear atypia in Barrett's esophagus by using angle-resolved low-coherence interferometry

Pyhtila

Chalut

Boyer

et al. 2007

Gastrointestinal Endoscopy

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John W. Pyhtila

Prospective grading of neoplastic change in rat esophagus epithelium using angle-resolved low-coherence interferometry

Determining nuclear morphology using an improved angle-resolved low coherence interferometry system

Review and Recent Development of Angle-Resolved Low-Coherence Interferometry for Detection of Precancerous Cells in Human Esophageal Epithelium

In situ detection of nuclear atypia in Barrett's esophagus by using angle-resolved low-coherence interferometry

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