论文信息 - Detection of discrete white matter lesions after irreversible compression of MR images.

Detection of discrete white matter lesions after irreversible compression of MR images.

PURPOSE To validate the use of techniques of irreversible compression of images, which can be performed using a block-based discrete cosine transform technique as defined by the Joint Photographic Experts Group, before they can be used in clinical applications, by evaluating the effect of compression on the ability of observers to detect discrete white matter lesions on MR images of the brain. METHODS Sixty T2- and intermediate-weighted spin-echo images were compressed with varying degrees of coefficient quantization with compression ratios from 1:1 to more than 40:1, randomized, and evaluated by three observers blinded to the degree of compression. RESULTS No significant difference in the number of lesions detected was apparent until compression ratios reached 40:1, despite a significant subjective loss in perceived image quality at 20:1. Only small (< or = 5 mm) lesions were missed at the highest degree of compression. No significant differences were observed in the detection of confluent periventricular white matter disease at any degree of compression tested. CONCLUSIONS The use of high degrees of irreversible compression of MR images may be acceptable for diagnostic tasks.

J Szumowski | S Roman-Goldstein | D A Clunie | P J Mitchell | J Howieson

[1] H. K. Huang,et al. Full-frame transform compression of CT and MR images. , 1989, Radiology.

[2] S Sakuma,et al. Clinical evaluation of irreversible image compression: analysis of chest imaging with computed radiography. , 1990, Radiology.

[3] Y. Wang,et al. Information preserving image compression for archiving NMR images , 1988, [1988 Proceedings] 9th International Conference on Pattern Recognition.

[4] H K Huang,et al. Design and implementation of full-frame, bit-allocation image-compression hardware module. Work in progress. , 1991, Radiology.

[5] F A Howe,et al. Implementation and evaluation of data compression of MR images. , 1989, Magnetic resonance imaging.

[6] W H Anderson,et al. Image data compression in magnification hand radiographs. , 1989, Radiology.

[7] M L Giger,et al. Data compression: effect on diagnostic accuracy in digital chest radiography. , 1991, Radiology.

[8] J. Hesselink,et al. MR detection of white matter disease of the brain in patients with HIV infection: fast spin-echo vs conventional spin-echo pulse sequences. , 1994, AJR. American journal of roentgenology.

[9] H K Huang,et al. Radiological image compression using full-frame cosine transform with adaptive bit-allocation. , 1989, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.