People aged 18 years could be punished lightly or diminished criminal responsibility, even be spared the death sentence, which has important meaning in Chinese judicatory adjudication. The epiphysis of long bones from human limbs and the secondary sexual characteristics almost have developed completely before 18 years old. Clavicle epiphysis is one of the articular metaphysis which has a late epiphyseal closure. The recent studies in exploring the rule of clavicle epiphyseal by multi-imaging technology shows that the development of clavicle epiphysis has some value in age estimation of 18 years old. CT, especially thin-section CT, is widely used at present. However, thin-section CT scanning has great net radiation, which is not ethically acceptable if it is not for diagnosis and treatment. MRI is nonradioactive tomographic imaging and easy to evaluate, which is one of the future research directions in forensic age estimation using the medial clavicle. This paper summarizes the progress on the rule of clavicle epiphyseal closure, and analyzes and summarizes the feasibility of rule of clavicle epiphyseal closure applies on age estimation.
Adolescent ; Age Determination by Skeleton ; Asian People ; Clavicle/physiology* ; Death ; Epiphyses/physiology* ; Forensic Anthropology ; Humans ; Magnetic Resonance Imaging ; Osteogenesis ; Tomography, X-Ray Computed

In order to observe the feature of age-related marrow conversion and maturation of epiphyseal cartilage and analyze the distribution of red and yellow marrow in the proximal femur at STIR MR imaging, STIR and T(1) weighted MR imaging of the proximal femur in 52 subjects, aged 4 months to 25 years old, were retrospectively analyzed for the distribution and appearance of red and yellow marrow. The subjects with no known bone marrow abnormalities were divided into 6 age groups. The signal intensity of the marrow in the proximal epiphysis, proximal metaphysis, proximal diaphysis, distal diaphysis and greater trochanter was compared with the signal intensity and homogeneity of surrounding muscle and fat and graded by two observers. The results showed that the conversion of hematopoietic marrow in the proximal femur followed a well-defined sequence, occurring first in the proximal epiphysis, followed by the distal diaphysis, and then greater trochanter and metaphysis. STIR in combination with T(1)-weighted imaging could display clearly the origin of ossification center and the course of conversion from red to yellow marrow in proximal epiphysis and greater trochanter. STIR imaging showed that the marrow conversion in proximal metaphysic began below epiphyseal plate and intertrochanter. The site of red yellow was distributed in weight-bearing axis by 20 years of age. The marrow conversion of diaphysis was from distal end to proximal end, and the consequence of conversion was that distal diaphysis contained yellow marrow but proximal diaphysis partly red marrow connected with the red marrow of metaphysic. The epiphyseal cartilage had different characters of signal-intensity with age in STIR sequence. The distribution of red marrow in STIR imaging was more close to that of anatomy than T(1)-weighted imaging. It was concluded that STIR could dynamically display the feature of marrow conversion and the development of epiphyseal cartilage and accurately reveal the age-related distribution of red and yellow marrow on STIR imaging in the proximal femur.
Age Factors ; Bone Marrow/*anatomy & histology ; Bone Marrow/physiology ; Epiphyses/anatomy & histology ; Femur/*anatomy & histology ; Image Enhancement/*methods ; Magnetic Resonance Imaging/*methods ; Retrospective Studies ; Young Adult

OBJECTIVE: To establish staging criteria for teenager's skeletal growth by examining osteoarticular X-rays. METHODS: Review publications on skeletal growth staging systems by domestic and overseas authorities. Abided by the staging principles on theory of cartilage epiphyseal growth and X-ray images of skeletal growth, X-ray imaging characteristics were studied through three hundred male and female teenagers epiphyseal growth of both sternal ends of clavicle and the left side of shoulder, elbow, carpal, hip, knee and ankle joints transversally and longitudinally. The subjects were from 11 to 20 years old, selected from Henan, Hainan and Zhejiang province in China. Twenty-four skeletal growth indexes were selected closely related to age. RESULTS: Based on regular changing characteristics of epiphyseal growth at different joints, 24 skeletal development indexes were divided into 2 to 8 stages. The stage number of different indexes of the single joint were similar. It was shown that the time of different epiphyseal growth in identical joints had isochromism. CONCLUSION These staging criteria have merits of extensive skeletal growth indexes, and are applicable to wide age range with a strong maneuverability. It provides a favorable fundamental platform for forensic evaluating skeletal age in living subjects in China.
Adolescent ; Age Determination by Skeleton/methods* ; Arthrography ; Bone Development/physiology* ; Bone and Bones/diagnostic imaging* ; Child ; Epiphyses/diagnostic imaging* ; Female ; Forensic Anthropology/methods* ; Humans ; Male ; Young Adult

OBJECTIVE: According to the features of epiphyseal development of knee and ankle joints in male and female teenagers, the trend of epiphyseal development was analyzed and the possibility of its application in age estimation was discussed. METHODS: Firstly, radiographs of adem position were taken from both sides of knee and ankle joints from 1709 individuals from Eastern China, Central China, and Southern China (Age: 11-21 years old). Secondly, 5 osteal loci were selected as bone age markers from the two joints. Thirdly, characteristics of epiphyseal development were observed systematically and comprehensively. Fourthly, the proportions of "epiphyseal fusion" in different age groups were calculated, and confirmed the numbers of people which were included by epiphyseal fusion of knee and ankle joints. Finally, age range of each epiphyseal fusion was calculated by mathematical statistical analysis. RESULTS: Compared with the data of 1960s', the age of 5 epiphyseal fusions was earlier about 2-3 years. However, the results were basically the same as the recent studies. CONCLUSION The data on the time of epiphyseal fusion were updated. It is important to determine the accuracy in age estimation in male and female teenagers.
Adolescent ; Age Determination by Skeleton/methods* ; Ankle Joint/diagnostic imaging* ; Arthrography ; Bone Development/physiology* ; Child ; China/epidemiology* ; Epiphyses/diagnostic imaging* ; Female ; Forensic Anthropology/methods* ; Humans ; Knee Joint/diagnostic imaging* ; Male ; Young Adult

OBJECTIVE: To discuss bone development trend in the knee joint of Tibetan teenagers in Sichuan province and to effectively update the database for estimating the living age of Tibetan teenagers in terms of bone age of the knee joint. METHODS: Radiographs including epiphysis of distal femur, proximal tibia and proximal fibula were taken from 483 Tibetan male and female teenagers aged from 14 to 19 years old in Aba prefecture of Sichuan province in order to observe epiphyseal growth situation. The descriptive data of the epiphyseal closure ages of these teenagers' knee joints were statistically analyzed by SPSS 16.0 software. RESULTS: The distal femur epiphyseal closure occurred earliest, while the proximal fibula epiphyseal closure occurred latest. The epiphyseal growth of knee joints of females occurred about one year earlier than that of males. CONCLUSION The forensic information and data related to Tibetan teenagers' bone age identification should be updated regularly. These results provide potential value for the practice of forensic medicine, anthropology and clinical medicine.
Adolescent ; Age Determination by Skeleton/methods* ; Bone Development/physiology* ; China/ethnology* ; Epiphyses/growth & development* ; Female ; Femur/growth & development* ; Humans ; Knee Joint/growth & development* ; Male ; Sex Characteristics ; Tibia/growth & development* ; X-Ray Film ; Young Adult

OBJECTIVE: To realize the automated assessment of the levels of epiphysis of distal radius and ulna by support vector machine (SVM). METHODS: The X-ray films of the left wrist joints were taken from 140 teenagers aged from 11 to 19 years old as training samples. The levels of epiphysis of distal radius and ulna were divided into five developmental levels. Each level contained 28 samples. Another 35 cases were selected as independent verifying samples. SVM classification models of the five developmental levels of epiphysis of distal radius and ulna were established. The internal cross validation was made by leave one out cross validation (LOOCV), while the external validation was made by histogram of oriented gradient (HOG), and then the accuracy (PA) of testing results was calculated, respectively. RESULTS: The PA of SVM, LOOCV and HOG of distal radius epiphyseal level were 100%, 78.6%, and 82.8%, respectively; whereas the PA of SVM, LOOCV and HOG of distal ulna epiphyseal level were 100.0%, 80.0% and 88.6%, respectively. CONCLUSION The SVM-based automatic models of the growth stage of distal ra- dius and ulna appear to have certain feasibility, and may provide a foundation for software development of bone age assessment by forensic medicine.
Adolescent ; Bone Development/physiology* ; Child ; Epiphyses/growth & development* ; Female ; Humans ; Image Processing, Computer-Assisted/methods* ; Male ; Radius/growth & development* ; Support Vector Machine ; Ulna/growth & development* ; Wrist/growth & development* ; Wrist Joint/growth & development* ; Young Adult

OBJECTIVE: To study the difference of Han female adolescent bone development in Henan and Zhejiang province. METHODS: All radiography including sternal end of clavicle and six main bone joints were taken from 599 female adolescents with age between 12 to 19 in Henan and Zhejiang province. Twenty four skeletal development indexes were analyzed based on "The Grading Standards" of skeletal growth of teenagers and then the bone age were calculated using mathematical model functions. The ratios of the bone age and the chronological age were analyzed by statistical software. RESULTS: The development of Henan female adolescents' skeleton was about 0.39 years earlier than that in Zhejiang at the age of 14-15 years old. The development of Henan female adolescents' skeleton was about 0.37 years later than that in Zhejiang at the age of 15-16 years old. The development of Henan female adolescents' skeleton was about 0.38 years later than that in Zhejiang at the age of 18-19 years old. There was no statistics significance in other age group. CONCLUSION The female adolescent bone development in Henan province is faster at earlier stage and then slower than that in Zhejiang province. The results provide potential value for the forensic medicine, anthropology and clinical medicine.
Adolescent ; Age Determination by Skeleton/methods* ; Age Factors ; Analysis of Variance ; Bone Development/physiology* ; Child ; China/ethnology* ; Clavicle/diagnostic imaging* ; Epiphyses/physiology* ; Female ; Forensic Anthropology/methods* ; Humans ; Joints/physiology* ; Models, Theoretical ; Sampling Studies ; Sternum/diagnostic imaging* ; Tomography Scanners, X-Ray Computed ; Young Adult

OBJECTIVE: To further improve the accuracy of bone age identification using the time of secondary ossification center appearance and epiphyseal fusion of 7 joints to estimate the age of living individuals. METHODS: DR films were taken from 7 parts including sternal end of clavical and the left side of shoulder, elbow, carpal, hip, knee and ankle joints of 1 709 individuals who came from eastern China, central China and southern China, whose ages were between 11.0 and 20.0 years. From those 7 joints 24 osteal loci were selected as bone age indexes, which could better reflect age growth of teenagers. The characteristics of secondary ossification center appearance and epiphyseal fusion were observed, and the mean and age range of secondary ossification center appearance and epiphyseal fusion were calculated. RESULTS: The fusion time of the 24 epiphyses were advanced at different degrees, the most obvious epiphyses the sternal end of clavicle, scapular acromial end, distal end of the radius, distal end of the ulna, iliac crest, ischial tuberosity, the upper and lower end of tibia and fibula. The appearance time of sternal end of clavicle, scapular acromial end, iliac crest and ischial tuberosity epiphyses were all found to be after the age of 12, and the female's age, approximately 1 year ahead of schedule in comparison with the male's. CONCLUSION The relevant forensic information and data for bone age identification should be updated every 10-15 years so as to provide accurate and objective evidence for court testimony, conviction and sentencing.
Adolescent ; Age Determination by Skeleton/methods* ; Asian People/ethnology* ; Bone Development/physiology* ; Bone and Bones/diagnostic imaging* ; Child ; China/ethnology* ; Clavicle/growth & development* ; Epiphyses/growth & development* ; Female ; Forensic Anthropology/methods* ; Humans ; Joints/growth & development* ; Male ; Sex Characteristics ; Tomography, X-Ray Computed ; Young Adult

OBJECTIVE: To estimate the chronological age of Han teenagers in Sichuan by the epiphyses development characteristics of iliac crest and ischial tuberosity in X-ray digital images. METHODS: According to TW2 classification principle, combining with the age range of our subjects and epiphyses development regularity, the degree of epiphyses development of iliac crest and ischial tuberosity had been divided into 8 grades (0-7) and 7 grades (0-6), respectively. Based on the degrees, the pelvic X-rays digital images of 691 samples of 16-20 aged teenagers were read and statistically analyzed by SPSS 19.0 software. The multiple linear regression equation was established by skeletal age (Y), development degree of iliac crest epiphyses (X1) and ischial tuberosity epiphyses (X2). RESULTS: There were no statistical differences between two sides of epiphyses development of iliac crest and ischial tuberosity (P>0.05). There were no statistical difference between genders (P>0.05). The re-substitution method of the samples showed that the accuracy of equation as Y=15.269+0.444X1+0.236 X2 was high. The result of the re-substitution method showed a high accuracy of the equation. CONCLUSION The multiple linear regression equation could be used to identify the skeletal age for providing the scientific basis to identify the 18-year-old Han population in Sichuan.
Adolescent ; Age Determination by Skeleton/methods* ; Age Factors ; Asian People/ethnology* ; Bone Development/physiology* ; China/ethnology* ; Epiphyses/diagnostic imaging* ; Female ; Forensic Anthropology/methods* ; Humans ; Ilium/diagnostic imaging* ; Ischium/diagnostic imaging* ; Linear Models ; Male ; Pelvis/diagnostic imaging* ; Tomography, X-Ray Computed ; Young Adult