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Items: 1 to 20 of 133

1.

Automated phase retardation oriented segmentation of chorio-scleral interface by polarization sensitive optical coherence tomography.

Duan L, Yamanari M, Yasuno Y.

Opt Express. 2012 Jan 30;20(3):3353-66. doi: 10.1364/OE.20.003353.

PMID:
22330573
2.

Automated measurement of choroidal thickness in the human eye by polarization sensitive optical coherence tomography.

Torzicky T, Pircher M, Zotter S, Bonesi M, Götzinger E, Hitzenberger CK.

Opt Express. 2012 Mar 26;20(7):7564-74. doi: 10.1364/OE.20.007564.

3.

Tissue discrimination in anterior eye using three optical parameters obtained by polarization sensitive optical coherence tomography.

Miyazawa A, Yamanari M, Makita S, Miura M, Kawana K, Iwaya K, Goto H, Yasuno Y.

Opt Express. 2009 Sep 28;17(20):17426-40. doi: 10.1364/OE.17.017426.

PMID:
19907527
4.

Variables affecting polarization-sensitive optical coherence tomography imaging examined through the modeling of birefringent phantoms.

Liu B, Harman M, Brezinski ME.

J Opt Soc Am A Opt Image Sci Vis. 2005 Feb;22(2):262-71.

PMID:
15717555
5.

Intra-retinal layer segmentation in optical coherence tomography images.

Mishra A, Wong A, Bizheva K, Clausi DA.

Opt Express. 2009 Dec 21;17(26):23719-28. doi: 10.1364/OE.17.023719.

PMID:
20052083
6.

Polarization-sensitive swept-source optical coherence tomography with continuous source polarization modulation.

Yamanari M, Makita S, Yasuno Y.

Opt Express. 2008 Apr 14;16(8):5892-906.

PMID:
18542701
7.

Automated segmentation of the macula by optical coherence tomography.

Fabritius T, Makita S, Miura M, Myllylä R, Yasuno Y.

Opt Express. 2009 Aug 31;17(18):15659-69. doi: 10.1364/OE.17.015659.

PMID:
19724565
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11.

Use of varying constraints in optimal 3-D graph search for segmentation of macular optical coherence tomography images.

Haeker M, Abràmoff MD, Wu X, Kardon R, Sonka M.

Med Image Comput Comput Assist Interv. 2007;10(Pt 1):244-51.

PMID:
18051065
12.

Characterizing of tissue microstructure with single-detector polarization-sensitive optical coherence tomography.

Liu B, Harman M, Giattina S, Stamper DL, Demakis C, Chilek M, Raby S, Brezinski ME.

Appl Opt. 2006 Jun 20;45(18):4464-79.

PMID:
16778957
13.

Automated estimation of choroidal thickness distribution and volume based on OCT images of posterior visual section.

Vupparaboina KK, Nizampatnam S, Chhablani J, Richhariya A, Jana S.

Comput Med Imaging Graph. 2015 Dec;46 Pt 3:315-27. doi: 10.1016/j.compmedimag.2015.09.008. Epub 2015 Oct 22.

PMID:
26526231
14.

Measurement and imaging of birefringent properties of the human cornea with phase-resolved, polarization-sensitive optical coherence tomography.

Götzinger E, Pircher M, Sticker M, Fercher AF, Hitzenberger CK.

J Biomed Opt. 2004 Jan-Feb;9(1):94-102.

PMID:
14715060
15.

Corneal birefringence compensation for polarization sensitive optical coherence tomography of the human retina.

Pircher M, Götzinger E, Baumann B, Hitzenberger CK.

J Biomed Opt. 2007 Jul-Aug;12(4):041210.

PMID:
17867799
16.

Quantification of the wound healing using polarization-sensitive optical coherence tomography.

Oh JT, Lee SW, Kim YS, Suhr KB, Kim BM.

J Biomed Opt. 2006 Jul-Aug;11(4):041124.

PMID:
16965152
17.
18.

Relationship of ocular and systemic factors to the visibility of choroidal-scleral interface using spectral domain optical coherence tomography.

Gupta P, Cheng CY, Cheung CM, Htoon HM, Zheng Y, Lamoureux EL, Aung T, Wong TY, Cheung CY.

Acta Ophthalmol. 2016 Mar;94(2):e142-9. doi: 10.1111/aos.12777. Epub 2015 Jun 24.

19.

Clinical validation of an algorithm for rapid and accurate automated segmentation of intracoronary optical coherence tomography images.

Chatzizisis YS, Koutkias VG, Toutouzas K, Giannopoulos A, Chouvarda I, Riga M, Antoniadis AP, Cheimariotis G, Doulaverakis C, Tsampoulatidis I, Bouki K, Kompatsiaris I, Stefanadis C, Maglaveras N, Giannoglou GD.

Int J Cardiol. 2014 Apr 1;172(3):568-80. doi: 10.1016/j.ijcard.2014.01.071. Epub 2014 Jan 24.

PMID:
24529948
20.

Retinal polarization-sensitive optical coherence tomography at 1060 nm with 350 kHz A-scan rate using an Fourier domain mode locked laser.

Torzicky T, Marschall S, Pircher M, Baumann B, Bonesi M, Zotter S, Götzinger E, Trasischker W, Klein T, Wieser W, Biedermann B, Huber R, Andersen P, Hitzenberger CK.

J Biomed Opt. 2013 Feb;18(2):26008. doi: 10.1117/1.JBO.18.2.026008.

PMID:
23377007

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