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High-speed spectral nanocytology for early cancer screening John E. Chandler Hariharan Subramanian Charles D. Maneval Craig A. White
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Document Date: 2014-06-25 10:33:47

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File Size: 2,05 MB

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Tucson / Natick / Lachine / Vancouver / Sacramento / Waltham / Irvine / Evanston / Orlando / Acton / Bedford / Newton / Stratford / Barrington / Redmond / San Diego / Bridgewater / /

Company

Nanocytomics LLC / Hologic / Zaber Technologies / Olympus / Newport Corporation / Creative Commons / High-Speed Automated Hardware / Microsoft / /

Country

United States / /

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Facility

Northwestern University / PATH Building / Center Valley / University of California / Laboratory Medicine / Coolsnap HQ / Davis Medical Center / /

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IndustryTerm

segmentation algorithms / clinical cancer screening technology combines / software algorithms / sphere solution / storage protocols / throughput nanoscale-sensitive screening technologies / actual tumor site / cervical cell nuclei using feed-forward neural networks / software development / affected organ site / predictive autofocus algorithm / segmentation algorithm / early cancer screening illumination hardware / slide-mapping algorithm / cytopathology systems / software takes / tiered screening protocol / then imaging specific regions / software interfaces / rapid autofocus algorithm / cytology systems / automated cytology systems / automated segmentation-based selection algorithm / clinical diagnostic tool / objective and imaging sensor / image-segmentation algorithms / improved software interfaces / automated hardware / throughput quantitative screening tool / treatment of the disease / /

MedicalCondition

ovarian cancer / potential cancer / injury / disorder / prostate cancer / breast cancer / tumor / cancer / distant tumors / carcinogenesis / Automatic breast cancer / automated lung cancer / nuclear disorder / human colon cancer / carcinoma / colon cancer / early cancer / Intracellular Disorder / automated cancer / actual tumor / several cancer / cancers / HT29 colon cancer / disease / distant lung tumor / lung cancer / Field carcinogenesis / carcinomas / patients harboring lung cancer / early carcinogenesis / /

MedicalTreatment

radiation / /

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From left to right / /

Organization

Institutional Review Board / U.S. Securities and Exchange Commission / Department of Biomedical Engineering / Davis Medical Center / National Science Foundation / Northwestern University / University of California / Davis / Interest Committee / Department of Pathology and Laboratory Medicine / /

Person

Richard M. Levenson Vadim / John E. Chandler / Craig A. White Richard / E. Chandler Hariharan Subramanian Charles / Charles D. Maneval Craig / Vadim Backmana / Vital Stat / Edmund Optics / /

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Position

pathologist / cervical cell nuclei using feed-forward / cytotechnologist / /

ProgrammingLanguage

MATLAB / /

ProvinceOrState

Quebec / British Columbia / Connecticut / Washington / California / Arizona / New Jersey / Illinois / Pennsylvania / Florida / Massachusetts / /

Technology

PWS technology / radiation / X-ray / tiered screening protocol / high-throughput screening / screening protocol / image-segmentation algorithms / cancer detection / spectroscopy / predictive autofocus algorithm / rapid autofocus algorithm / automated segmentation-based selection algorithm / Flash / GUI / broadband / 2.7 Autofocus Algorithm / tomography / two-step algorithm / MRI / storage protocols / segmentation algorithms / slide-mapping algorithm / segmentation algorithm / condensation / software algorithms / /

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