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Items: 1 to 20 of 197

1.

Flow measurement without phase information in optical coherence tomography images.

Barton J, Stromski S.

Opt Express. 2005 Jul 11;13(14):5234-9.

PMID:
19498514
2.
3.
4.

Quantifying labial blood flow using optical Doppler tomography.

Otis LL, Piao D, Gibson CW, Zhu Q.

Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2004 Aug;98(2):189-94.

PMID:
15316546
5.

Imaging and quantifying transverse flow velocity with the Doppler bandwidth in a phase-resolved functional optical coherence tomography.

Ren H, Brecke KM, Ding Z, Zhao Y, Nelson JS, Chen Z.

Opt Lett. 2002 Mar 15;27(6):409-11.

PMID:
18007817
6.
7.

In vivo, label-free, three-dimensional quantitative imaging of kidney microcirculation using Doppler optical coherence tomography.

Wierwille J, Andrews PM, Onozato ML, Jiang J, Cable A, Chen Y.

Lab Invest. 2011 Nov;91(11):1596-604. doi: 10.1038/labinvest.2011.112. Epub 2011 Aug 1.

8.

Phase-domain processing of optical coherence tomography images.

Yung KM, Lee SL, Schmitt JM.

J Biomed Opt. 1999 Jan;4(1):125-36.

PMID:
23015177
9.

In vivo bidirectional color Doppler flow imaging of picoliter blood volumes using optical coherence tomography.

Izatt JA, Kulkarni MD, Yazdanfar S, Barton JK, Welch AJ.

Opt Lett. 1997 Sep 15;22(18):1439-41.

PMID:
18188263
10.

Feasibility of interstitial Doppler optical coherence tomography for in vivo detection of microvascular changes during photodynamic therapy.

Li H, Standish BA, Mariampillai A, Munce NR, Mao Y, Chiu S, Marcon NE, Wilson BC, Vitkin A, Yang VX.

Lasers Surg Med. 2006 Sep;38(8):754-61.

PMID:
16927368
11.

Signal power decrease due to fringe washout as an extension of the limited Doppler flow measurement range in spectral domain optical coherence tomography.

Walther J, Mueller G, Morawietz H, Koch E.

J Biomed Opt. 2010 Jul-Aug;15(4):041511. doi: 10.1117/1.3466578.

PMID:
20799789
12.

Doppler imaging with dual-detection full-range frequency domain optical coherence tomography.

Meemon P, Lee KS, Rolland JP.

Biomed Opt Express. 2010 Aug 10;1(2):537-552.

13.

Real-time in vivo color Doppler optical coherence tomography.

Rollins AM, Yazdanfar S, Barton JK, Izatt JA.

J Biomed Opt. 2002 Jan;7(1):123-9.

PMID:
11818020
14.

Parabolic BM-scan technique for full range Doppler spectral domain optical coherence tomography.

Jaillon F, Makita S, Yabusaki M, Yasuno Y.

Opt Express. 2010 Jan 18;18(2):1358-72. doi: 10.1364/OE.18.001358.

PMID:
20173963
15.

Speckle reduction in optical coherence tomography by "path length encoded" angular compounding.

Iftimia N, Bouma BE, Tearney GJ.

J Biomed Opt. 2003 Apr;8(2):260-3.

PMID:
12683852
16.

Flow velocity estimation using joint Spectral and Time domain Optical Coherence Tomography.

Szkulmowski M, Szkulmowska A, Bajraszewski T, Kowalczyk A, Wojtkowski M.

Opt Express. 2008 Apr 28;16(9):6008-25.

PMID:
18545302
17.

Spatial factors for quantifying constant flow velocity in a small tube phantom: comparison of phase-contrast cine-magnetic resonance imaging and the intraluminal Doppler guidewire method.

Machida H, Komori Y, Ueno E, Shen Y, Hirata M, Kojima S, Morita S, Sato M, Okazaki T.

Jpn J Radiol. 2009 Nov;27(9):335-41. doi: 10.1007/s11604-009-0349-9. Epub 2009 Nov 27.

PMID:
19943143
18.

Speckle properties of the logarithmically transformed signal in optical coherence tomography.

Lee P, Gao W, Zhang X.

J Opt Soc Am A Opt Image Sci Vis. 2011 Apr 1;28(4):517-22. doi: 10.1364/JOSAA.28.000517.

PMID:
21478944
19.

Speckle in optical coherence tomography.

Schmitt JM, Xiang SH, Yung KM.

J Biomed Opt. 1999 Jan;4(1):95-105.

PMID:
23015175
20.

Use of optical coherence tomography to monitor biological tissue freezing during cryosurgery.

Choi B, Milner TE, Kim J, Goodman JN, Vargas G, Aguilar G, Nelson JS.

J Biomed Opt. 2004 Mar-Apr;9(2):282-6.

PMID:
15065892
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