1 Diaphyseal aging did not differ between Early and Late H
2 Diaphyseal aging is critical for the upper limbs, as hum
3 Adult
diaphyseal aging was accompanied by the disproportionate
4 Diaphyseal and epiphyseal morphometric measurements were
5 8; T1weighted: R(2) = 0.40) and caput-collum-
diaphyseal angle (SWMR: R(2) = 0.38; T1weighted: R(2) =
6 center-edge angle of Wiberg and caput-collum-
diaphyseal angle were measured on coronal SWMR MIP-image
7 BMI attenuated the associations, except with
diaphyseal BMC (P = 0.005) and strength (P = 0.01).
8 pogenic subset of stromal cells in postnatal
diaphyseal bone marrow, supporting the theory that the a
9 d differentiation into osteoblastic cells in
diaphyseal bone.
10 s that regulate osteogenesis within cortical
diaphyseal bone.
11 The centrum-collum-
diaphyseal,
center-edge (CE), three alpha angles, head-n
12 ificantly shorter and abnormally bent; their
diaphyseal chondrocytes had remained prehypertrophic Ihh
13 ng extrinsic erosion of thickened underlying
diaphyseal cortex and perpendicular periosteal reaction
14 ft levels, given the plasticity of mammalian
diaphyseal cortical bone, provides insights into the hab
15 icroarchitecture is more fragmented, and the
diaphyseal cross-sectional area is significantly reduced
16 To elucidate these shifts further,
diaphyseal cross-sectional morphology was analyzed by us
17 F-beta1), which show the typical progressive
diaphyseal dysplasia seen in the human disease, we found
18 Forty-three Lewis rats with 6 mm mid-
diaphyseal femoral defects received either BMP-2-transdu
19 istal metaphyseal flare (subtrochanteric and
diaphyseal femur fractures) and to assess atypical featu
20 rrence of fracture of the subtrochanteric or
diaphyseal femur was very rare, even among women who had
21 ified as occurring in the subtrochanteric or
diaphyseal femur, a combined rate of 2.3 per 10,000 pati
22 the relative hazards for subtrochanteric and
diaphyseal fractures for each study.
23 moral biomechanical performance, and femoral
diaphyseal geometry and mapped with R/qtl and QTL Cartog
24 or anatomy, or more recently in concert with
diaphyseal gracilization in Holocene humans.
25 MR imaging measurements of
diaphyseal length and US normative values were compared
26 The range of measurements of
diaphyseal length was larger than that of the reported U
27 Correlation coefficients were 0.897 for
diaphyseal length, 0.738 for epiphyseal length, and 0.80
28 More metaphyseal/
diaphyseal lesions were seen on the early scans than on
29 Using
diaphyseal long bone radial defects in a diabetic rabbit
30 cell derivatives preferentially populate the
diaphyseal marrow stroma with a dormant adipocyte-biased
31 antial bone was generated locally inside the
diaphyseal medulla.
32 d substantial cancellous bone locally in the
diaphyseal medulla.
33 Diaphyseal medullary stenosis with malignant fibrous his
34 Diaphyseal medullary stenosis with malignant fibrous his
35 -element rosette strain gauges bonded at the
diaphyseal midshaft of the MCIII and evaluating the stra
36 Diaphyseal osteoid osteomas demonstrate a lower ratio of
37 In long bones,
diaphyseal osteoid osteomas were significantly less mine
38 lesions on the early scans were metaphyseal/
diaphyseal,
pelvis (diffuse or focal), and spine.
39 lities on the delayed scans were metaphyseal/
diaphyseal,
pelvis (focal), and ribs.
40 l-sized segmental defects created in the mid-
diaphyseal region of the metatarsus were either left emp
41 In the endocortical
diaphyseal region, quantitative immunohistology demonstr
42 rom Goyet display short statures and reduced
diaphyseal robusticity of their long bones.
43 ous lesions of jawbones, bone fragility, and
diaphyseal sclerosis of tubular bones.
44 mmetry and an anteroposteriorly strengthened
diaphyseal shape.
45 We evaluated aging of
diaphyseal strength and cortical bone loss in a European
46 Diaphyseal strength remained unchanged through age in fe
47 were assessed by 3-point bending and femoral
diaphyseal structure was determined.