Simplified diagnosis of rare eye diseases

Uveitis is a rare inflammatory eye disease. Posterior and panuveitis in particular are associated with a poor prognosis and a protracted course of the disease. Diagnosis and monitoring can be challenging for healthcare professionals. Fundus autofluorescence (FAF) is a fast and non-invasive imaging technique that supports this. Researchers from the University Hospital Bonn and the University of Bonn, together with experts from Berlin, Münster and Mannheim, have drafted a review on how FAF can facilitate the diagnosis and monitoring of posterior uveitis and panuveitis. The results have now been published in the journal Biomolecules.

Uveitis is a rare inflammatory disease of the choroid of the eye, which lies between the retina and the sclera. “Depending on the inflamed anatomical structure, this disease can be divided into the subtypes anterior, intermediate, posterior and panuveitis. The exact diagnosis of posterior uveitis and panuveitis can be challenging, as there are many different and sometimes extremely rare subtypes,” explains Dr. Maximilian Wintergerst from the Eye Clinic at the University Hospital Bonn (UKB), who also conducts research at the University of Bonn. In the review, the researchers from Bonn, Berlin, Münster, and Mannheim now show how imaging using fundus autofluorescence (FAF) supports the diagnosis and monitoring of some posterior uveitis forms.

FAF provides indications of active inflammation

Fundus autofluorescence is a non-invasive method for imaging the fundus of the eye. “Using light of a precisely defined wavelength, so-called fluorophores in the tissue of the eye are stimulated to glow. The distribution of these fluorophores, the intensity of the light signal, and certain resulting light patterns can provide information about the underlying form of uveitis,” explains Wintergerst. In unclear cases, this can help to make the correct diagnosis. “In addition, the autofluorescence signal can also provide us with information on the current state of inflammation in certain forms of uveitis. For example, brightly illuminated areas in the retina are sometimes associated with active inflammation, while darker areas can indicate inactive inflammation,” adds Dr. Matthias Mauschitz, Head of the Uveitis Clinic at the UKB.

The wavelength used influences the result

“Depending on the wavelength used, the autofluorescence signal from the retina and choroid can differ significantly. Depending on the excitation wavelength, lesions can be imaged at different depths and therefore in different areas,” explains Mauschitz. In addition to their review, the researchers included a case series in which they compared the autofluorescence of different wavelengths. Overall, they found that the combination of different wavelengths can provide additional information about the underlying form of uveitis.

Combination of different wavelengths provides additional information

With their work, the research team would like to draw attention to autofluorescence imaging, which is very helpful in some forms of uveitis, and highlight new approaches for future research, such as the combination of autofluorescence imaging of different wavelengths. “Fundus autofluorescence plays an important role in the diagnosis and monitoring of posterior uveitis and panuveitis. In some specific subtypes of uveitis, it can also provide important indications of a flare-up of inflammatory activity,” summarizes Wintergerst.

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