Welcome to Francis Academic Press

International Journal of Frontiers in Medicine, 2019, 1(1); doi: 10.25236/IJFM.2019.010103.

Establishment of Digital Bone Age Criteria for Adolescents Aged 6-12 Years


Zhe Ruan1,*

Corresponding Author:
Zhe Ruan

1. Sports Institute, Zhengzhou Normal University, Zhengzhou 450000, China
*Corresponding Author e-Mail:[email protected]


This Article through to the Digital Medical Imaging Technology in the Practical Application of Review on the Research of Bone Age, At Beijing Sports University Experiment Center to Participate in the Development of Low Dose of Bone Age Full Protection of Digital Image Testing System (Shj - 1) and the Traditional X-Ray Photograph of a Test to Do Comparative Research of the Skeletal Age Respectively from Shooting Time, X Ray Radiation Dosage, Interpretation Image Processing, and Interpretation of Report Generation and Interpretation Results of Storage and Transportation, Etc, Comparing Experiments, Establishing Standards for Digital Bone Age 6 to 12 Years Old. the Results Show That the Application of Digital X-Ray Machine Has Significant Advantages in Medical Image Standardization, Radiation Protection of X-Ray Machine, Data Storage and Transportation, Etc. the Newly Established Digital Bone Age Standard for 6-12 Year Olds is More Accurate and Convenient.


Adolescent Digital Bone Age Standard Digital Flat Plate Detector Dr Dicom Image Standard

Cite This Paper

Zhe Ruan. Establishment of Digital Bone Age Criteria for Adolescents Aged 6-12 Years. International Journal of Frontiers in Medicine (2019), Vol. 1, Issue 1: 13-18. https://doi.org/10.25236/IJFM.2019.010103.


[1] Bai mei, liu xu, peng mingchen, et al. Digital X-ray imaging equipment Test of DQE[J]. Medical device information, 2007(4).
[2] nie cong. Comparative study of different flat plate detectors DR [J]. Medical treatment Equipment information,2007(2).
[3] liang cunsheng, feng ji. Analysis and application of DICOM standard. China medical equipment, 2006, 3 (2):
[4] Ra1ph s, Robert F, Peter k. n. high -- speed scanning technique for Computed Radiography[J]. SP1E, 2002,4682:511-520
[5] Jorg F, Stephan M, Clemens H, et a1. Reflective and transmissive CR scanhead technology on needle image plates[J]. SPIE, 2005,5745-499-510
[6] Ulrich n.statatus and prospects of digital detector technology for CR and DRU. Radiation Protection Dosimetry, 2005,114 (1-3) : 32-38.