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Literature DB >> 21390064

Imaging retinal mosaics in the living eye.

E A Rossi¹, M Chung, A Dubra, J J Hunter, W H Merigan, D R Williams.

Abstract

Adaptive optics imaging of cone photoreceptors has provided unique insight into the structure and function of the human visual system and has become an important tool for both basic scientists and clinicians. Recent advances in adaptive optics retinal imaging instrumentation and methodology have allowed us to expand beyond cone imaging. Multi-wavelength and fluorescence imaging methods with adaptive optics have allowed multiple retinal cell types to be imaged simultaneously. These new methods have recently revealed rod photoreceptors, retinal pigment epithelium (RPE) cells, and the smallest retinal blood vessels. Fluorescence imaging coupled with adaptive optics has been used to examine ganglion cells in living primates. Two-photon imaging combined with adaptive optics can evaluate photoreceptor function non-invasively in the living primate retina.

Entities: Disease Species

Mesh：

Year: 2011 PMID： 21390064 PMCID： PMC3178316 DOI： 10.1038/eye.2010.221

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

34 in total

1. Molecular phenotyping of retinal ganglion cells.

Authors: Robert E Marc; Bryan W Jones
Journal: J Neurosci Date: 2002-01-15 Impact factor: 6.167

2. Ultrahigh-resolution optical coherence tomography with monochromatic and chromatic aberration correction.

Authors: Robert J Zawadzki; Barry Cense; Yan Zhang; Stacey S Choi; Donald T Miller; John S Werner
Journal: Opt Express Date: 2008-05-26 Impact factor: 3.894

3. In vivo fluorescence imaging of primate retinal ganglion cells and retinal pigment epithelial cells.

Authors: Daniel C Gray; William Merigan; Jessica I Wolfing; Bernard P Gee; Jason Porter; Alfredo Dubra; Ted H Twietmeyer; Kamran Ahamd; Remy Tumbar; Fred Reinholz; David R Williams
Journal: Opt Express Date: 2006-08-07 Impact factor: 3.894

4. Supernormal vision and high-resolution retinal imaging through adaptive optics.

Authors: J Liang; D R Williams; D T Miller
Journal: J Opt Soc Am A Opt Image Sci Vis Date: 1997-11 Impact factor: 2.129

5. Deletion of the X-linked opsin gene array locus control region (LCR) results in disruption of the cone mosaic.

Authors: Joseph Carroll; Ethan A Rossi; Jason Porter; Jay Neitz; Austin Roorda; David R Williams; Maureen Neitz
Journal: Vision Res Date: 2010-07-16 Impact factor: 1.886

6. In vivo autofluorescence imaging of the human and macaque retinal pigment epithelial cell mosaic.

Authors: Jessica I W Morgan; Alfredo Dubra; Robert Wolfe; William H Merigan; David R Williams
Journal: Invest Ophthalmol Vis Sci Date: 2008-10-24 Impact factor: 4.799

7. Cone photoreceptor mosaic disruption associated with Cys203Arg mutation in the M-cone opsin.

Authors: Joseph Carroll; Rigmor C Baraas; Melissa Wagner-Schuman; Jungtae Rha; Cory A Siebe; Christina Sloan; Diane M Tait; Summer Thompson; Jessica I W Morgan; Jay Neitz; David R Williams; David H Foster; Maureen Neitz
Journal: Proc Natl Acad Sci U S A Date: 2009-11-23 Impact factor: 11.205

8. In vivo imaging of microscopic structures in the rat retina.

Authors: Ying Geng; Kenneth P Greenberg; Robert Wolfe; Daniel C Gray; Jennifer J Hunter; Alfredo Dubra; John G Flannery; David R Williams; Jason Porter
Journal: Invest Ophthalmol Vis Sci Date: 2009-07-02 Impact factor: 4.799

9. First-order design of off-axis reflective ophthalmic adaptive optics systems using afocal telescopes.

Authors: Armando Gómez-Vieyra; Alfredo Dubra; Daniel Malacara-Hernández; David R Williams
Journal: Opt Express Date: 2009-10-12 Impact factor: 3.894

10. In-vivo imaging of retinal nerve fiber layer vasculature: imaging histology comparison.

Authors: Drew Scoles; Daniel C Gray; Jennifer J Hunter; Robert Wolfe; Bernard P Gee; Ying Geng; Benjamin D Masella; Richard T Libby; Stephen Russell; David R Williams; William H Merigan
Journal: BMC Ophthalmol Date: 2009-08-23 Impact factor: 2.209

61 in total

Review 1. Anatomic alterations in aging and age-related diseases of the eye.

Authors: Hans E Grossniklaus; John M Nickerson; Henry F Edelhauser; Louise A M K Bergman; Lennart Berglin
Journal: Invest Ophthalmol Vis Sci Date: 2013-12-13 Impact factor: 4.799

2. In vivo two-photon imaging of the mouse retina.

Authors: Robin Sharma; Lu Yin; Ying Geng; William H Merigan; Grazyna Palczewska; Krzysztof Palczewski; David R Williams; Jennifer J Hunter
Journal: Biomed Opt Express Date: 2013-07-09 Impact factor: 3.732

3. Dynamic near-infrared imaging reveals transient phototropic change in retinal rod photoreceptors.

Authors: Rongwen Lu; Alexander M Levy; Qiuxiang Zhang; Steven J Pittler; Xincheng Yao
Journal: J Biomed Opt Date: 2013-10 Impact factor: 3.170

4. Imaging individual neurons in the retinal ganglion cell layer of the living eye.

Authors: Ethan A Rossi; Charles E Granger; Robin Sharma; Qiang Yang; Kenichi Saito; Christina Schwarz; Sarah Walters; Koji Nozato; Jie Zhang; Tomoaki Kawakami; William Fischer; Lisa R Latchney; Jennifer J Hunter; Mina M Chung; David R Williams
Journal: Proc Natl Acad Sci U S A Date: 2017-01-03 Impact factor: 11.205

5. Outer retinal structure after closed-globe blunt ocular trauma.

Authors: John A Flatter; Robert F Cooper; Michael J Dubow; Alexander Pinhas; Ravi S Singh; Rashmi Kapur; Nishit Shah; Ryan D Walsh; Sang H Hong; David V Weinberg; Kimberly E Stepien; William J Wirostko; Scott Robison; Alfredo Dubra; Richard B Rosen; Thomas B Connor; Joseph Carroll
Journal: Retina Date: 2014-10 Impact factor: 4.256