ライフサイエンスコーパス: metaphysis

1 rallel tracts in the physis and the adjacent metaphysis.

2 ographic findings of the spine and long bone metaphysis.

3 ned as a series of microfractures across the metaphysis.

4 mechanical loading reduced bone loss in the metaphysis.

5 rfaces, and in the diaphysis relative to the metaphysis.

6 h secondary ossification center and proximal metaphysis.

7 In tubular bones (70 anatomic sites), metaphysis (86%, 60 of 70) and epiphysis (67%, 47 of 70)

8 ncellous bone was preferentially lost in the metaphysis, a site that normally experiences low strain

9 ematopoietic to yellow marrow in the femoral metaphysis and atrophy of the femoral epiphyseal growth

10 animals in lumbar vertebra and distal femur metaphysis and epiphysis; significant differences were n

11 ate relative restriction of diffusion in the metaphysis and parallel orientation of tensors in the ph

12 reasing loading accentuated bone loss in the metaphysis and resulted in bone loss in the epiphysis.

13 C (P = 0.004) and strength (P = 0.01) at the metaphysis and with BMC (P = 0.0002), strength (P = 0.00

14 At the 4% (metaphysis) and 14% (diaphysis) sites of the tibia, bone

15 itecture of cortical bone, the growth plate, metaphysis, and marrow in fresh murine bones, probed usi

16 ar microstructure of the physis and adjacent metaphysis, and provides further insight into normal gro

17 w observed in the T1WS of the distal femoral metaphysis are not related with the age, weight and hemo

18 paB ligand (RANKL) within the proximal tibia metaphysis at 7 d after muscle paralysis (+113%, P<0.02)

19 t increase in trabecular bone at the femoral metaphysis (bone volume/total volume +117% versus Ctrl-A

20 skeletal response was assessed at the tibial metaphysis by measurements of bone mineral density (BMD)

21 en the secondary ossification center and the metaphysis corresponding histologically to (a) zone of p

22 rms by coalescence of thin trabeculae at the metaphysis (corticalization), but the factors that contr

23 e biodistribution of 153Sm in the epiphysis, metaphysis, diaphysis, and red marrow of the tibia was o

24 ayed phases were categorized into locations: metaphysis--diaphysis--epiphysis (MDE), pelvis, ribs, sp

25 xtending into the diaphysis for some length: metaphysis/diaphysis, metaphysis only, diaphysis only, e

26 ," (signal intensity of the proximal femoral metaphysis divided by signal intensity of the greater tr

27 MDE lesions included abnormalities in the metaphysis extending into the diaphysis for some length:

28 red bone marrow areas in the distal femoral metaphysis in MR images were examined by a radiologist.

29 on for pro-osteoclastogenic cytokines in the metaphysis indicated that, although the receptor activat

30 ies virus inoculated into the distal femoral metaphysis is identifiable in the sacral intermediolater

31 lar between sexes; (ii) the proximal femoral metaphysis is physically larger, with thicker trabeculae

32 n the anterior rim of the acetabulum and the metaphysis measured 20.4 mm on the affected right side a

33 In the metaphysis of distal femora from ovariectomized rats, an

34 trabecular bone architecture of the femoral metaphysis of Fgf2(+/+) and Fgf2(-/-) adult mice by micr

35 uces vascular endothelial cell senescence in metaphysis of long bone, and that inhibition of endothel

36 Osteosarcoma occurred more frequently in the metaphysis of long bones (62%) with a blastic appearance

37 They showed small epiphysis, slightly flared metaphysis of long bones and flattened vertebrae, charac

38 OCR stem cells are concentrated within the metaphysis of long bones not in the perisinusoidal space

39 rrays to analyze RNA from the proximal femur metaphysis of sham and ovariectomized vehicle-treated ra

40 s at secondary spongiosa of the femur and at metaphysis of the L4 vertebra confirmed that male transg

41 he medial and lateral portions of the distal metaphysis of the right femur, as well as in the proxima

42 the right femur, as well as in the proximal metaphysis of the tibia.

43 ndrocyte increases bone mass in the proximal metaphysis of tibiae through negative regulation of oste

44 localized increase of bone mass in proximal metaphysis of tibiae.

45 hysis for some length: metaphysis/diaphysis, metaphysis only, diaphysis only, epiphysis only, and the

46 occur with fixation of some cartilage in the metaphysis or epiphysis while growth continues.

47 d in greater contrast between the physis and metaphysis (P < .05).

48 ction by suppressing osteoclast formation in metaphysis, resulting in impaired endothelial cell rRNA

49 The proximal tibial metaphysis served as a common metastatic site in our stu

50 Conclusion DTI of the physis and metaphysis shows greater tract length and volumes in sub

51 condary ossification center and juxtaphyseal metaphysis), signal intensity and thickness of cartilagi

52 sidual red bone marrow in the distal femoral metaphysis than the female group (p=0.003).

53 (compared to baseline controls) in the femur metaphysis was associated with lower trabecular number,

54 Trabecular bone volume of the distal femoral metaphysis was determined by microCT.

55 Trabecular and cortical bone in the distal metaphysis was made osteoporotic by dexamethasone, but w

56 Micro-MR imaging of distal tibial metaphysis was performed within 2 weeks after renal tran

57 artilage, secondary ossification center, and metaphysis was qualitatively assessed by two observers a

58 ntrusions of growth plate cartilage into the metaphysis were seen to increase in depth over time.

59 ercutaneously inserted into the distal femur metaphysis with MR fluoroscopy (fast imaging with steady

60 dual red bone marrow areas of distal femoral metaphysis with the age, gender, weight and hemoglobin (