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Novel imaging approach reveals important details about rare eye disease choroideremia

Written by | 21 Sep 2022 | Ophthalmology

By combining traditional eye imaging techniques with adaptive optics – a technology that enhances imaging resolution – researchers at the National Eye Institute (NEI) have shown for the first time how cells across different tissue layers in the eye are affected in people with choroideremia, a rare genetic disorder that leads to blindness. Their study, which was funded by the NEI Intramural Research Program, is published in Communications Biology. NEI is part of the National Institutes of Health.

Johnny Tam, Ph.D., head of the NEI Clinical and Translational Imaging Unit combined adaptive optics with indocyanine green dye to view live cells in the retina, including light-sensing photoreceptors, retinal pigment epithelium (RPE), and choroidal blood vessels. His team was able to see in detail the extent to which choroideremia disrupts these tissues, providing information that could help design effective treatments for this and other diseases. The retina’s RPE is a layer of pigmented cells essential to the nourishment and survival of photoreceptors.

Choroideremia affects men more than women because the gene responsible for the disease is located on the X chromosome. Since men have only one copy of the X chromosome, a mutation in the gene causes males to develop more severe symptoms, while females – who have two copies of the X chromosome – usually have milder symptoms, having one working copy of the gene on the other X chromosome.

“One major finding of our study was that the RPE cells are dramatically enlarged in males and females with choroideremia,” said Tam. “We were surprised to see many cells enlarged by as much as five-fold.”

Female participants in the study showed a mix of enlarged and healthier-looking RPE cells. This may explain why women with choroideremia have milder symptoms, according to Tam. Photoreceptor and blood vessel layers were less affected in both male and female study participants, suggesting that RPE disruption plays an important role in choroideremia.

Tam’s adaptive optics is not part of routine diagnostic testing in eye clinics. Surprisingly, his team found that enlarged RPE cells can be detected even when using only a commercially available scanning laser ophthalmoscope along with indocyanine green dye.

“It’s not obvious at first, but using an existing tool in the clinic, we can monitor and track the cellular status of the RPE layer. This could prove valuable in identifying which patients would benefit the most from therapeutic interventions,” said Tam.

Reference:

Nancy Aguilera, Tao Liu, Andrew J. Bower, Joanne Li, Sarah Abouassali, Rongwen Lu, John Giannini, Maximilian Pfau, Chelsea Bender, Margery G. Smelkinson, Amelia Naik, Bin Guan, Owen Schwartz, Andrei Volkov, Alfredo Dubra, Zhuolin Liu, Daniel X. Hammer, Dragan Maric, Robert Fariss, Robert B. Hufnagel, Brett G. Jeffrey, Brian P. Brooks, Wadih M. Zein, Laryssa A. Huryn, Johnny Tam*. Widespread subclinical cellular changes revealed across a neural-epithelial vascular complex in choroideremia using adaptive optics.

DOI:10.1038/s42003-022-03842-7

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