A von Rückmann scite author profile

Aim-To demonstrate the usefulness of a recently developed technique of imaging fundus autofluorescence and to compare it with the results of fluorescein angiography in the diagnosis and staging of macular holes. Methods-The intensity and distribution of fundus autofluorescence was studied in 51 patients with idiopathic macular holes and pseudoholes using a confocal laser scanning ophthalmoscope (cLSO) and the images were compared with those obtained by fundus fluorescein angiography. (Br J Ophthalmol 1998;82:346-351) The diagnosis of idiopathic full thickness macular holes (FTMH) is usually made by history and by biomicroscopic examination. However, at times it may be diYcult to diVerentiate between a FTMH and a macular pseudohole even using otherwise reliable clinical tests such as the Watzke-Allen slit beam test. Results-Autofluorescence1 In such cases fluorescein angiography is used but this has the disadvantage of being invasive, requiring an intravenous injection of sodium fluorescein which carries a potential risk of adverse reactions. 2Recently a new technique has been developed that allows in vivo imaging of the distribution of fundus autofluorescence using a confocal laser scanning ophthalmoscope (cLSO).3 This provides high spatial resolution imaging of the distribution of fundus autofluorescence which is most likely derived from lipofuscin within the retinal pigment epithelium.3-5 It is generally accepted that lipofuscin represents the product of degradation of photoreceptor outer segments. In a normal fundus, the distribution of fundus autofluorescence is diVuse, with decreased intensity at the fovea, at the optic nerve head, and under the retinal blood vessels which appear dark.3 4 As this technique images the intrinsic fluorescence of the fundus derived from the retinal pigment epithelium, 3-5 it should be possible to demonstrate a macular defect such as the FTMH similar to that seen on fluorescein angiography.In this study we obtained images of the intrinsic autofluorescence of the fundus with a cLSO in patients with macular holes and pseudoholes and compared the images with those obtained by fluorescein angiography. Material and methodsThe technique of imaging fundus autofluorescence has been described previously.3 4 Briefly the cLSO used in this study was a prototype (SM 30-4024) donated by Zeiss (Zeiss, Oberkochen, Germany). The argon laser (wavelength 488 nm and power of 250 µW) was used for illumination, and to record autofluorescence a filter with a cut oV at 521 nm was inserted in front of the detector. The cLSO images were recorded at standard video scanning rates on SVHS video tape and digitised at 256 × 256 resolution using a Wide Vision V-10 frame grabber (Wild Vision, Tyne and Wear) with an Acorn Archimedes computer (Acorn Computers, Cambridge).A prospective study was undertaken of patients with unilateral idiopathic FTMH and with macular pseudoholes. We deliberately selected only patients with unilateral macular holes in order to compare the autofluorescence images and the...

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In Vivo Fundus Autofluorescence in Macular Dystrophies

Rückmann

Fitzke²,

Bird³

1997

Arch Ophthalmol

200

112

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A von Rückmann

Distribution of fundus autofluorescence with a scanning laser ophthalmoscope.

Fundus autofluorescence in patients with macular holes imaged with a laser scanning ophthalmoscope

In Vivo Fundus Autofluorescence in Macular Dystrophies

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