Automated Bone Age Analysis with Lossy Image Files
| Autor: | C. Becket Mahnke, Daniel P. Chiles, Jordan E. Pinsker, Veronica J. Rooks, Michael S L Ching, Michael B. Lustik |
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| Rok vydání: | 2017 |
| Předmět: |
Male
Pathology medicine.medical_specialty Adolescent Pediatric endocrinology Specialty 030209 endocrinology & metabolism 030218 nuclear medicine & medical imaging Military medicine 03 medical and health sciences 0302 clinical medicine Software Design Age Determination by Skeleton Medicine Humans Child Analysis of Variance business.industry Health Insurance Portability and Accountability Act Public Health Environmental and Occupational Health Bone age General Medicine computer.file_format File format medicine.disease JPEG United States Child Preschool Female Medical emergency Image file formats business Tomography X-Ray Computed computer |
| Zdroj: | Military medicine. 182(9) |
| ISSN: | 1930-613X |
| Popis: | In our U.S. Department of Defense hospital system, pediatric endocrinology and radiology resources to evaluate bone age radiographs are limited. Our tertiary care center provides expert specialty support to remotely stationed beneficiaries at more than 30 Department of Defense medical facilities using a well-established, asynchronous, Health Insurance Portability and Accountability Act compliant system that allows for physician-to-physician teleconsultation. Up to 14% of these teleconsultations are for endocrinology assessment, many of which include bone age analysis. We sought to evaluate the feasibility of using an automated bone age analysis program using the file format most commonly provided to us, lossy JPEG image files saved at lower quality, to improve access to our consultation services.All patients seen in the Tripler Army Medical Center pediatric endocrinology clinic, who were being evaluated for poor growth during the 2-month study period and who had a bone age film performed at Tripler Army Medical Center during that time, were eligible to have their deidentified bone age films analyzed. We imported lossy JPEG bone age image files from our hospital web viewer to BoneXpert, version 2.1, using a fully automated, custom built system that reconstructed each file's true resolution and then packaged the original image into a Digital Imaging and Communications in Medicine header. The original JPEG files were saved at 70% quality. Bone age readings were compared between our pediatric endocrinologists (ENDO), pediatric radiologists (RADS), and BoneXpert (BONE). Additionally, adult height prediction from ENDO and BONE were compared.35 bone age images were evaluated over a 2-month period. Most patients were being evaluated for idiopathic short stature or growth hormone deficiency. Analysis of variance showed no significant differences in mean bone age readings between the 3 groups (mean bone age reading = 9.0, 9.1, and 9.1 years for ENDO, RADS, and BONE, respectively, p = 0.827). Mean (SD) differences between physician and software bone age readings were -0.09 (0.89) years (ENDO) and -0.03 (1.01) years (RADS). Mean difference for adult height predictions was only -0.2 cm (p = 0.806).Automated analysis of lossy JPEG files of bone age images using the BoneXpert software appears to be feasible and accurate. Larger studies are needed to validate these results. |
| Databáze: | OpenAIRE |
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