ライフサイエンスコーパス: bone age

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1 specific craniofacial features and advanced bone age.

2 e model estimates and the reference standard bone ages.

3 The ability to assess bone age accurately is important and allows to diagnose

4 antiandrogens appear effective in preventing bone age advancement and virilization in boys with famil

5 anastrozole, decreased bleeding episodes and bone age advancement in girls with McCune-Albright syndr

6 Bone age among HIV(-) adolescents with a history of inhi

7 lipodystrophic mice, we observed an advanced bone age, an indirect reflection of premature bone forma

8 t of using cephalometric images to determine bone age and its significance for conducting appropriate

9 Delayed bone age and seizure disorders were overrepresented in t

10 predictors of regional body composition were bone age and weight.

11 both genders display significantly advanced bone ages and are oftentimes hypertensive.

12 d-wrist radiographs using Bjork's method and bone age assessed from cephalometric radiographs using t

13 001) Pearson's correlation was found between bone age assessed from hand-wrist radiographs using Bjor

14 It seems that bone age assessment methods based on evaluating the morp

15 ogical progress in medicine and stomatology, bone age assessment methods need to be perfected in orde

16 o compare the performance of a deep-learning bone age assessment model based on hand radiographs with

17 Bone age assessment of bone age could also be made based

18 Search criteria: bone age assessment, CVM method.

19 s appears to be the most desirable method of bone age assessment.

20 y was to evaluate the correspondence between bone age assessments made from hand-wrist radiographs an

21 e matched for weight, body mass index (BMI), bone age, chronological age, Tanner breast stage, and so

22 The assessment of bone age comprises the basic element of orthodontic diag

23 Bone age assessment of bone age could also be made based on an analysis of a mo

24 t, composed of 200 examinations, the mean of bone age estimates from the clinical report and three ad

25 Results The mean difference between bone age estimates of the model and of the reviewers was

26 Adult height was measured when bone age exceeded 16 years in girls and 17 years in boys

27 The chronologic age, bone age, height, weight, body-surface area, and body-ma

28 Assessment of bone age in children with use of the Greulich and Pyle a

29 Low BMD persisted after correction for bone age in girls with Crohn's disease (lumbar spine, P

30 puberty, associated with an acceleration in bone-age maturation.

31 of the left hand revealed a notably advanced bone age of 15.5 years.

32 e children have reached adult height, with a bone age of at least 16 years in the boys and at least 1

33 Bone age of hand, wrist and cervical spine was assessed.

34 Bone age on hand-wrist radiographs was evaluated using t

35 for number of ossified centers (P < 0.008), bone age (P < 0.0001), and bone area (P < 0.003).

36 Bone age (P </= .05) was significantly overestimated in

37 We evaluated skeletal maturation (bone age), pubertal progression, serum testosterone leve

38 Height, weight, bone age, pubertal status, skinfold thickness, and arm c

39 anthropometric assessment, pubertal staging, bone age radiography, and BMD assessment by dual energy

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