The Humphrey optical coherence tomography scanner: quantitative analysis and reproducibility study of the normal human retinal nerve fibre layer

doi:10.1136/bjo.85.6.673

British Journal of Ophthalmology 2001;85:673-677; doi:10.1136/bjo.85.6.673

Br J Ophthalmol 2001;85:673-677 ( June )

Scientific correspondence

The Humphrey optical coherence tomography scanner: quantitative analysis and reproducibility study of the normal human retinal nerve fibre layer Adrian L Jones^a, Nick J L Sheen^a, Rachel V North^a, James E Morgan^a ^b

^a Retinal Imaging Laboratory, Department of Optometry and Vision Sciences, Cardiff University, Cardiff CF10 3YJ, UK, ^b Department of Ophthalmology, University of Wales College of Medicine, Heath Park, Cardiff CF14 4XW, UK

Correspondence to: Mr James E Morgan, Department of Ophthalmology, University of Wales College of Medicine, Heath Park, Cardiff CF14 4XW, UK MorganJE3{at}cardiff.ac.uk

Accepted for publication 31 January 2001

BACKGROUND/AIMS $---$ To determine the reproducibility of the Humphrey optical coherence tomography scanner (OCT), software version 5.0, for measurementof retinal nerve fibre layer (RNFL) thickness in normal subjectsand to compare OCT measurements with published histological thicknessof the humanRNFL.
METHODS $---$ Three independent measurements were obtained at each session for one eye from 15 normal subjects with a mean age of 30.8 (SD10.9) years. Scans were taken in the peripapillary retina usingthe default setting (1.74 mm radius from centre of the optic disc)and were repeated 1 week later. Additional scans were obtainedat the optic nerve head (ONH) margin overlying the scleral rim,for comparison with available histological data on the humanRNFL.
RESULTS $---$ For the 1.74 mm circular scan, the mean coefficient of variation (COV) for the global RNFL thickness measurement was 5% (SD3%). This increased to 8% (3%) for quadrant measurements and to9% (3%) with further subdivision into 12 segments. Significantdifferences (p<0.05) between sessions were only found when thedata were divided into segments. The mean RNFL thickness for the1.74 mm scan was 127.87 (9.81) µm. The RNFL was maximal at thesuperior disc pole, 161.44 µm (14.8), and minimal at the temporalpole, 83.1 (12.8) µm. Peak thickness values occurred superiortemporal and inferior temporal to the vertical axis. RNFL thicknessfor every sector of the disc was greatest at the margin of theoptic disc (mean 185.79 µm; SD 32.61). Although the variationin RNFL thickness around the disc follows published histologydata, the OCT underestimates RNFL thickness by an average of 37%(SD 11; range 21-48%).
CONCLUSION $---$ The OCT provides reproducible measurement of the retinal structures that are consistent with the properties of the RNFL. However,comparison with available studies of RNFL thickness in the humansuggests that in its present form, the OCT underestimates RNFLthickness. Further refinement of this technology is required toimprove the accuracy with which the OCT measures retinal nervefibre layerthickness.

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