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Literature DB >> 33239763

Optical coherence tomography (OCT) in neuro-ophthalmology.

Neda Minakaran¹, Emanuel R de Carvalho^2,3, Axel Petzold^2,4,5, Sui H Wong^2,6.

Abstract

Optical coherence tomography (OCT) is a non-invasive medical imaging technology that is playing an increasing role in the routine assessment and management of patients with neuro-ophthalmic conditions. Its ability to characterise the optic nerve head, peripapillary retinal nerve fibre layer and cellular layers of the macula including the ganglion cell layer enables qualitative and quantitative assessment of optic nerve disease. In this review, we discuss technical features of OCT and OCT-based imaging techniques in the neuro-ophthalmic context, potential pitfalls to be aware of, and specific applications in more common neuro-ophthalmic conditions including demyelinating, inflammatory, ischaemic and compressive optic neuropathies, optic disc drusen and raised intracranial pressure. We also review emerging applications of OCT angiography within neuro-ophthalmology.

Entities: Chemical

Mesh：

Year: 2020 PMID： 33239763 PMCID： PMC7852683 DOI： 10.1038/s41433-020-01288-x

Source DB: PubMed Journal: Eye (Lond) ISSN： 0950-222X Impact factor: 3.775

80 in total

1. The locus of fixation and the foveal cone mosaic.

Authors: Nicole M Putnam; Heidi J Hofer; Nathan Doble; Li Chen; Joseph Carroll; David R Williams
Journal: J Vis Date: 2005-08-17 Impact factor: 2.240

2. Repeatability in and interchangeability between the macular and the fast macular thickness map protocols: a study on normal eyes with Stratus optical coherence tomography.

Authors: Urban Eriksson; Albert Alm
Journal: Acta Ophthalmol Date: 2008-10-07 Impact factor: 3.761

3. Evaluation of the effect of aging on retinal nerve fiber layer thickness measured by optical coherence tomography.

Authors: Akiyasu Kanamori; Michael F T Escano; Ayako Eno; Makoto Nakamura; Hidetaka Maeda; Ryu Seya; Kazuki Ishibashi; Akira Negi
Journal: Ophthalmologica Date: 2003 Jul-Aug Impact factor: 3.250

4. Baseline, one and three month changes in the peripapillary retinal nerve fiber layer in acute optic neuritis: relation to baseline vision and MRI.

Authors: Mark J Kupersmith; Gary Mandel; Susan Anderson; Daniel E Meltzer; Randy Kardon
Journal: J Neurol Sci Date: 2011-07-18 Impact factor: 3.181

5. Correlation between morphological and functional retinal impairment in multiple sclerosis patients.

Authors: V Parisi; G Manni; M Spadaro; G Colacino; R Restuccia; S Marchi; M G Bucci; F Pierelli
Journal: Invest Ophthalmol Vis Sci Date: 1999-10 Impact factor: 4.799

6. Relation of visual function to retinal nerve fiber layer thickness in multiple sclerosis.

Authors: Jennifer B Fisher; Dina A Jacobs; Clyde E Markowitz; Steven L Galetta; Nicholas J Volpe; M Ligia Nano-Schiavi; Monika L Baier; Elliot M Frohman; Heather Winslow; Teresa C Frohman; Peter A Calabresi; Maureen G Maguire; Gary R Cutter; Laura J Balcer
Journal: Ophthalmology Date: 2006-01-10 Impact factor: 12.079

7. Analysis of macular thickness in British population using optical coherence tomography (OCT): an emphasis on interocular symmetry.

Authors: Mohamed El-Ashry; Vijay Hegde; Peter James; Sergio Pagliarini
Journal: Curr Eye Res Date: 2008-08 Impact factor: 2.424

8. Retinal ganglion cell layer thinning within one month of presentation for optic neuritis.

Authors: Mark J Kupersmith; Mona K Garvin; Jui-Kai Wang; Mary Durbin; Randy Kardon
Journal: Mult Scler Date: 2015-09-11 Impact factor: 6.312

9. Repeatability of Foveal Measurements Using Spectralis Optical Coherence Tomography Segmentation Software.

Authors: Irene Ctori; Byki Huntjens
Journal: PLoS One Date: 2015-06-15 Impact factor: 3.240

10. Retinal nerve fiber layer axonal loss and visual dysfunction in optic neuritis.

Authors: S Anand Trip; Patricio G Schlottmann; Stephen J Jones; Daniel R Altmann; David F Garway-Heath; Alan J Thompson; Gordon T Plant; David H Miller
Journal: Ann Neurol Date: 2005-09 Impact factor: 10.422

8 in total

1. Spectroscopic thermo-elastic optical coherence tomography for tissue characterization.

Authors: Aaron Doug Deen; Heleen M M Van Beusekom; Tom Pfeiffer; Mathijs Stam; Dominique De Kleijn; Jolanda Wentzel; Robert Huber; Antonius F W Van Der Steen; Gijs Van Soest; Tianshi Wang
Journal: Biomed Opt Express Date: 2022-02-14 Impact factor: 3.732

Review 7. Oral Cancer Screening by Artificial Intelligence-Oriented Interpretation of Optical Coherence Tomography Images.

Authors: Kousar Ramezani; Maryam Tofangchiha
Journal: Radiol Res Pract Date: 2022-04-23

8. Optical coherence tomography as a useful adjunct in the early detection of meningioma with optic nerve compression.

Authors: En-Che Chang; Jing-Shan Huang; Yu-Chih Hou; Chu-Hsuan Huang; I-Hua Wang
Journal: Taiwan J Ophthalmol Date: 2022-03-10