Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy - Wikidata - awgldk - TriplyDB

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

http://www.wikidata.org/entity/Q37133920

about

Dinosaurs and ancient civilizations: reflections on the treatment of cancer Dark field optical imaging reveals vascular changes in an inducible hamster cheek pouch model during carcinogenesis Detection of cervical cancer based on photoacoustic imaging-the in-vitro results.Diffuse reflectance spectroscopy of epithelial tissue with a smart fiber-optic probe Diagnostic efficacy of backscattering intensity measurements in optical coherence tomography of cervical intraepithelial dysplasia.Wide-field spectral imaging of human ovary autofluorescence and oncologic diagnosis via previously collected probe data.Visible light optical spectroscopy is sensitive to neovascularization in the dysplastic cervix.The use of optical spectroscopy for in vivo detection of cervical pre-cancer.Quantification of the optical properties of two-layered turbid media by simultaneously analyzing the spectral and spatial information of steady-state diffuse reflectance spectroscopy.Rapid ratiometric determination of hemoglobin concentration using UV-VIS diffuse reflectance at isosbestic wavelengths.Role of optical spectroscopy using endogenous contrasts in clinical cancer diagnosis.Rapid determination of oxygen saturation and vascularity for cancer detection 5-aminolevulinic-acid-based fluorescence spectroscopy and conventional colposcopy for in vivo detection of cervical pre-malignancy Sensitivity of Raman spectroscopy to normal patient variability.A Quantitative Diffuse Reflectance Imaging (QDRI) System for Comprehensive Surveillance of the Morphological Landscape in Breast Tumor Margins.The interconnectedness of cancer cell signaling.In vivo isolation of the effects of melanin from underlying hemodynamics across skin types using spatial frequency domain spectroscopy.Performance of a lookup table-based approach for measuring tissue optical properties with diffuse optical spectroscopy Experimental validation of an inverse fluorescence Monte Carlo model to extract concentrations of metabolically relevant fluorophores from turbid phantoms and a murine tumor model A pilot study of low-cost, high-resolution microendoscopy as a tool for identifying women with cervical precancer.Towards monitoring dysplastic progression in the oral cavity using a hybrid fiber-bundle imaging and spectroscopy probe Quantitative physiology and immunohistochemistry of oral lesions Using optical spectroscopy to longitudinally monitor physiological changes within solid tumors.Characterizing human pancreatic cancer precursor using quantitative tissue optical spectroscopy Assessing Absorption Coefficient of Hemoglobin in the Breast Phantom Using Near-Infrared Spectroscopy.The War on Cancer rages on.The use of wound healing assessment methods in psychological studies: a review and recommendations.Models of light propagation in human tissue applied to cancer diagnostics.Optical spectroscopy: current advances and future applications in cancer diagnostics and therapy.Different optical properties between human hepatocellular carcinoma tissues and non-tumorous hepatic tissues in vitro.Unique spectral markers discern recurrent Glioblastoma cells from heterogeneous parent population.Effect of bile absorption coefficients on the estimation of liver tissue optical properties and related implications in discriminating healthy and tumorous samples.Multimodal Imaging and Spectroscopy Fiber-bundle Microendoscopy Platform for Non-invasive, In Vivo Tissue Analysis.Optical techniques for cervical neoplasia detection.

P2860

Q24628746-1646C429-9529-401E-ADE1-8712B3404A45 Q30372986-1304A6E0-4A03-4C4C-807C-A4F257D66B9C Q30419322-CE8B8FC8-318D-4876-A445-5B410FDECDC4 Q30441035-6B6D631D-319D-43C7-AD78-E7BE9DAC9D7B Q34128121-32A38A0F-8E53-4388-A40C-C1FEFB95466C Q34232011-23A753EE-4E31-4E1A-8AF6-EB0D754800E2 Q34253038-04A0028C-0D3E-44E8-8BA7-A930FD150820 Q34610792-45B54FCD-F263-494B-A90F-AB40EA03A391 Q34769196-D3F01A31-E52A-4A4F-A135-67FEEAA418F7 Q34976719-DF6E4487-7C21-42F9-B1CA-E308585F0237 Q34983812-571BB2AA-3D2F-4258-9703-60BB2934F4E7 Q35072969-88FADE5E-1AEC-4FA7-B599-B370B0279216 Q35518765-CC0F77B0-CB18-4AB7-A2CB-D003F19ECF2B Q35566199-57FE4651-AB78-4335-A58D-29AE08A9636D Q35663980-F25E4C1A-87A8-4E55-8AC4-07C0EE6313A9 Q35669733-D031C980-167B-40B1-9797-078FECBF06B1 Q36008231-CBDBAAC2-8610-4560-A349-E5578DEAFDA8 Q36052023-303A1EEA-AE12-4753-8A64-46320300FC8A Q36127658-30693396-0BC0-48D4-B63E-52D48CFFA929 Q36387352-528ED772-8648-4550-9959-DFECD8EBC9C3 Q36934212-D853D2D9-2D46-4F76-A642-92FD316D0ACD Q37312617-77611C82-44AB-410D-9FED-141E70332EA8 Q37328139-B6F53AB7-942C-47B6-AC72-BFB3CCBE9257 Q37389948-66D730F1-2D4E-4263-90A3-168D1FB70DD7 Q37425061-F45516F2-7F2A-4AE2-9C0A-1C7854B7F60C Q37478602-CD70CA99-BA3A-4045-89D6-034F85F709C4 Q37827897-58274827-15E8-44B9-8D87-052413842DF5 Q37850442-CB04B5C9-F7D2-4CF9-BA1F-7D96C244F74D Q37992695-B1EB4F6D-0667-4D93-BA0C-439EAA888775 Q39720209-BDC14258-8463-4D8D-A407-288286DEB6E9 Q39738921-2F3CDAC5-B7CD-4B8A-9773-E1B5DA6CCD47 Q41769333-D3DF09C8-D957-4178-99B9-19D84F335C6E Q42224223-B6F4D715-626F-4A71-B8DE-238F2367F950 Q42371103-C90300D0-4CB0-4F14-99F4-69B3F57CCDBA

P2860

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

http://www.wikidata.org/entity/Q37133920

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on April 2009

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

@en

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy.

@nl

type

label

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

@en

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy.

@nl

prefLabel

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

@en

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy.

@nl

P1433

Q37133920-A4BADA68-2639-45DD-9EA3-0EE78D5565CF

P1476

Q37133920-CC18F13D-8DB1-4AB1-9123-544F5ED43C2D

P2093

Q37133920-04D0D104-A976-4612-9501-F2EE321E838B

Q37133920-28D4209E-B7B3-4D79-810C-99A0596336B8

Q37133920-4221AE62-180D-49A7-AA9C-44F9391B0E42

Q37133920-70D7EAF8-0F7C-4DFA-9CF8-CBB6CE9FE97A

Q37133920-94D1FDAB-ACA1-4BB3-A36E-C530DF5FE3E7

Q37133920-EE9D10A8-6398-4FF3-BEB2-7103455DA133

P2860

Q37133920-01FEAD63-D383-4F38-AAC9-2B6F72BD732D

Q37133920-0B0513B4-0146-48A6-90E5-9CF9480BDAEC

Q37133920-0F790437-7850-4D8D-B058-11E05544AE55

Q37133920-1488FD35-5E57-4FB3-80F8-84FE6C8C6B86

Q37133920-18D5A245-1051-4F26-9333-8B036D8DB9D6

Q37133920-2F29C7E3-2D40-4734-8B39-720019A79568

Q37133920-32CE58BE-46FD-498A-A1D5-DF18BCB26CE1

Q37133920-33B47AD8-968E-4C56-A6F3-115C000088C4

Q37133920-3E503CD4-1833-4305-8C7D-BFD6C37D8DE0

Q37133920-3F05A364-CC9B-4ABE-BC00-A60D51BD0BAA

P304

Q37133920-A0347C42-758B-424E-9E09-1AA0F2544A3B

P31

Q37133920-E91378BF-6F79-4549-B45E-683BADE4A53D

P356

Q37133920-F9AD860E-7140-41FE-B7B6-43E268622242

P433

Q37133920-5B3662CE-6145-474C-AD73-16D2DC4F28A2

P478

Q37133920-ED64AF3F-4BAF-4156-91E7-068831A5954E

P577

Q37133920-37E56A3B-0077-4FC5-9F55-A5A8F45018D3

P5875

Q37133920-94F1C37A-D710-4EE4-8530-7A9E6249BB7F

P698

Q37133920-F7E82210-623B-451D-9EB8-000F8F3A7462

P932

Q37133920-B7A3BBFC-B6AD-4462-84C6-5DE43F697C4F

P356

P1433

P1476

Quantitative physiology of the precancerous cervix in vivo through optical spectroscopy

@en

P2093

Greg M Palmer

http://www.w3.org/2001/XMLSchema#string

Nirmala Ramanujam

http://www.w3.org/2001/XMLSchema#string

Peter S Cartwright

http://www.w3.org/2001/XMLSchema#string

Rex C Bentley

http://www.w3.org/2001/XMLSchema#string

Sarah M Bean

http://www.w3.org/2001/XMLSchema#string

Vivide Tuan-Chyan Chang

http://www.w3.org/2001/XMLSchema#string

P2860

2006 consensus guidelines for the management of women with cervical intraepithelial neoplasia or adenocarcinoma in situ

MCML—Monte Carlo modeling of light transport in multi-layered tissues

A novel optical imaging method for the early detection, quantitative grading, and mapping of cancerous and precancerous lesions of cervix.

Microanatomical and biochemical origins of normal and precancerous cervical autofluorescence using laser-scanning fluorescence confocal microscopy.

Quantitative near-infrared spectroscopy of cervical dysplasia in vivo.

In vivo detection and staging of epithelial dysplasias and malignancies based on the quantitative assessment of acetic acid-tissue interaction kinetics.

Noninvasive functional optical spectroscopy of human breast tissue

Chapter 10: Cervical cancer screening using visualization techniques.

Novel optical detection system for in vivo identification and localization of cervical intraepithelial neoplasia.

Diagnosing breast cancer using diffuse reflectance spectroscopy and intrinsic fluorescence spectroscopy.

P304

325-332

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1593/NEO.81386

http://www.w3.org/2001/XMLSchema#string

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

11

http://www.w3.org/2001/XMLSchema#string

P577

2009-04-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

24221526

http://www.w3.org/2001/XMLSchema#string

P698

19308287

http://www.w3.org/2001/XMLSchema#string

P932

2657880

http://www.w3.org/2001/XMLSchema#string