Detection and measurement of approximal radiolucencies by computer-aided image analysis.

Serial standardized bitewing radiography permits monitoring of the development of approximal carious lesions. A quantitative method using image-analysis techniques was developed. Only certain types of hardware proved capable of processing this complex image adequately. A computer-aided, software-driven, TV-based system incorporating an image memory, recursive filtration, and 256 gray-level resolution, which can both detect and measure approximal enamel radiolucencies produced by natural carious lesions, has been developed. The radiolucent boundary is delineated, displayed, and plotted to scale. For the first time, objective values for depth, area, width, perimeter, and "degree of radiolucency" can be automatically derived. Currently the system is seen as a tool in caries research; in the future such systems may have wider applications.

[1]  K Shinoda,et al.  Computer analysis of radiographic images. , 1968, The Journal of Nihon University School of Dentistry.

[2]  Finn Brudevold,et al.  Microradiographic and Polarized Light Studies of Initial Carious Lesions , 1959, Journal of dental research.

[3]  R. L. Webber,et al.  Fitting an image to the eye: a conceptual basis for preprocessing radiographs. , 1971, Oral surgery, oral medicine, and oral pathology.

[4]  G. Stookey,et al.  The arrestment of incipient dental caries in adults after the use of three different forms of SnF2 therapy: results after 30 months. , 1967, Journal of the American Dental Association.

[5]  H G Gröndahl,et al.  Statistical contrast enhancement of subtraction images for radiographic caries diagnosis. , 1982, Oral surgery, oral medicine, and oral pathology.

[6]  Radiographic Study of the Area-Volume Relationship in Interproximal Cavities , 1966, Journal of dental research.

[7]  O. Backer Dirks,et al.  A Reproducible Method for Caries Evaluation , 1951, Journal of dental research.

[8]  N. Pitts Systems for grading approximal carious lesions and overlaps diagnosed from bitewing radiographs. Proposals for future standardization. , 1984, Community dentistry and oral epidemiology.

[9]  J. Rowiński,et al.  Malignancy associated changes (MAC) in cells of buccal smears detected by means of objective image analysis. , 1974, Acta cytologica.

[10]  K. Shinoda,et al.  Computerized numerical evaluation of radiographic images: the destruction and reduction of bone tissues in periodontal areas. , 1969, The Journal of Nihon University School of Dentistry.

[11]  J. Murray,et al.  Inter-examiner and intra-examiner reproducibility in clinical and radiographic diagnosis. , 1975, International dental journal.

[12]  R. L. Webber,et al.  Effect of quantum noise on the detection of incipient proximal caries. , 1982, Oral surgery, oral medicine, and oral pathology.

[13]  N. Pitts,et al.  Determination of tooth dimensions from study casts using an image analysis system. , 1983, Journal of the International Association of Dentistry for Children.

[14]  N. Pitts The use of film holding, beam collimating and aiming devices in bitewing radiography. A suggested design for routine and research use. , 1983, Dento maxillo facial radiology.

[15]  Gröndahl Hg Radiographic caries diagnosis and treatment decisions. , 1979 .

[16]  N. Pitts Monitoring of caries progression in permanent and primary posterior approximal enamel by bitewing radiography. , 1983, Community dentistry and oral epidemiology.

[17]  N. Pitts,et al.  Film-holding, beam-aiming and collimating devices as an aid to standardization in intra-oral radiography: a review. , 1984, Journal of dentistry.

[18]  N. Pitts The bitewing examination as a preventive aid to the control of approximal caries. , 1984, Clinical preventive dentistry.

[19]  J. Hefferren A review of approaches to the detection of dental caries. Council on Dental Materials and Devices. , 1973, Journal of the American Dental Association.

[20]  P. B. Mack,et al.  A METHOD FOR ESTIMATING THE DEGREE OF MINERALIZATION OF BONES FROM TRACINGS OF ROENTGENOGRAMS. , 1939, Science.