Spectral Domain Optical Coherence Tomography Imaging of Geographic Atrophy Margins

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• 作者：Srilaxmi Bearelly ; Felix Y. Chau ; Anjum Koreishi ; S ; ra S. Stinnett ; Joseph A. Izatt ; Cynthia A. Toth
• 刊名：Ophthalmology
• 出版年：2009
• 出版时间：September 2009
• 年：2009
• 卷：116
• 期：9
• 页码：1762-1769
• 全文大小：1417 K

文摘

Objective

To test in vivo whether spectral domain optical coherence tomography (SD-OCT) provides adequate resolution for reproducible measurement of photoreceptor (PR) layer at the margins of geographic atrophy (GA), and if it delineates the relationship between PR layer and retinal pigment epithelium at the margins of GA.

Design

Prospective consecutive case series.

Participants

Patients with GA secondary to nonneovascular age-related macular degeneration (AMD) identified during routine follow-up at Duke Eye Center between January 3, 2006, and June 3, 2007, and who consented to participate in this study.

Methods

We used SD-OCT to image eyes. Multiple B-scans from each eye were saved and independently graded by 2 graders and the following locations were marked: (1) site where PR thickness began to decline below its baseline, (2) site where PR layer disappeared, and (3) site of the GA margin. These data were processed to calculate the locations of PR losses relative to GA margins and were categorized as (A) bridging across GA margins, (B) entirely within GA margins, or (C) entirely outside GA margins.

Main Outcome Measures

Location of PR loss (bridging across GA margins, entirely within GA margins, or entirely outside GA margins) was calculated. Distances from the GA margin were measured for beginning and ending of PR loss. Interobserver agreement was determined for categories of PR loss as well as locations of PR loss relative to the GA margin.

Results

We analyzed 500 unique scans. The PR loss occurred most frequently bridging across the GA margin (65 % scans), second most frequently entirely inside the GA margin (29 % scans), and least frequently entirely outside the GA margin (6 % scans). Loss of PR started an average of 61 μm (standard deviation [SD] ± 235) outside the GA margin, ended an average of 311±273 μm inside the GA margin, and spanned an average of 372±179 μm.

Conclusions

Relative to GA margins in nonneovascular AMD with GA, SD-OCT provides adequate resolution for quantifying PR loss. It may also serve as a means of tracking disease progression in future interventional trials.

Financial Disclosure(s)

Proprietary or commercial disclosure may be found after the references.