Direct digital lateral cephalometry: The effects of JPEG compression on image quality

Objectives tudy used an aluminium test object to assess the effect of the Joint Photographics Expert Group (JPEG) compression algorithm, on direct digital cephalometric image quality. s uminium block of 15 steps, with 20 holes in each step was radiographed in a Planmeca Proline 2002 digital cephalometric machine with Dimaxis2 software. Six different JPEG compression ratios were used to capture the cephalometric images. These ratios were 60%, 70%, 80%, 90%, TOP QUALITY JPEG (TQJPEG 98%) and TIFF (uncompressed). The images were taken at 68 kV and 12 mA with a 7 s exposure. perienced observers viewed the monitor displayed images, which were presented randomly. This was repeated one month later. The number of holes detected by each observer was plotted against each compression ratio. Intra-observer and inter-observer reproducibility was calculated using the Mann–Whitney U-test. ences between the compression ratios were assessed using a Kruskal–Wallis one-way analysis of variance. s omparing intra-observer reproducibility, it was found that there were only four of 36 comparisons that showed a statistically significant difference (Observer 1: 60% (P = 0.004), TQJPEG (P = 0.019); Observer 2: TIFF (P = 0.005); Observer 3: 90% (P = 0.007)). tically, there was no significant difference with inter-observer reproducibility. was no statistically significant difference between the image quality obtained from each compression ratio. sions sults showed that JPEG compression does not have any effect on the perceptibility of landmarks in the aluminium test object used in this study.