ライフサイエンスコーパス: mineralized bone

1 utant, no bone (nob), that does not form any mineralized bone.

2 This resulted in severe loss of mineralized bone.

3 The technique used freeze-dried mineralized bone allograft (FDBA), recombinant human pla

4 ooth extraction and ridge preservation using mineralized bone allograft does not provide a greater am

5 ction sites were debrided and grafted with a mineralized bone allograft that was covered with an ADM

6 the coronal portion of the DL group, a less mineralized bone area was observed compared to the IL gr

7 neration, assessed as areas of cartilage and mineralized bone, as functions of radial distance from t

8 otype, ultimately characterized by decreased mineralized bone, but no difference in steady-state HSC

9 ocyte maturation and the complete absence of mineralized bone, but they do not distinguish the separa

10 DL implants exhibited lower percentages of mineralized bone compared to IL implants in the coronal

11 rger bone nodules containing three-fold more mineralized bone compared with long-bone BMSCs.

12 Soaked mineralized bone contained measureable alendronate, but

13 , depend on tumor cell interactions with the mineralized bone extracellular matrix.

14 ridge width, height, and percentage of vital mineralized bone following treatment with a flapless ARP

15 Mineralized bone forms when collagen-containing osteoid

16 of osteopontin and contributed to transient mineralized bone hard callus formation after transplanta

17 Bone biopsies for mineralized bone histology were obtained at baseline and

18 However, replacement of these cells by mineralized bone is delayed in association with a marked

19 n, GAL-coated scaffolds were associated with mineralized bone-like tissue deposits, which reacted pos

20 e matrix (GDBM) by comparing with cancellous mineralized bone matrix (CMBM) and anorganic bovine bone

21 nally differentiated osteoblasts embedded in mineralized bone matrix but are connected with the BM.

22 ive BMPR-IB (caBMPR-IB) induced formation of mineralized bone matrix by 2T3 cells without addition of

23 The expression of TRPS1 modulates mineralized bone matrix formation in differentiating ost

24 at BMP signaling is blocked and BMP2-induced mineralized bone matrix formation was inhibited.

25 entiation-related gene expression and led to mineralized bone matrix formation.

26 BMP-2-induced osteoblast differentiation and mineralized bone matrix formation.

27 lds for in situ osteocytes embedded within a mineralized bone matrix under dynamic loading remains un

28 Osteocytes, cells ensconced within mineralized bone matrix, are the primary skeletal mechan

29 t osteocytes, the most abundant cells in the mineralized bone matrix, play a key role in sensing mech

30 ue in that majority of them induce excessive mineralized bone matrix, through undefined mechanisms, a

31 lly differentiated leukocytes that erode the mineralized bone matrix.

32 omputed tomography (muCT) was used to assess mineralized bone matrix.

33 bone cells responsible for the resorption of mineralized bone matrix.

34 Pacs1 or Arf4 formed more and larger ectopic mineralized bone nodules in vivo, which was attenuated b

35 injected bone, they lack the ability to form mineralized bone nodules when explanted to primary osteo

36 Within mineralized bone, osteocytes form dendritic processes th

37 IL implants showed a higher percentage of mineralized bone (p < 0.05) in the apical region (mean v

38 oned with a tungsten carbide knife to obtain mineralized bone sections for dynamic bone formation mea

39 as hypophosphatasia, characterized by poorly mineralized bones, spontaneous fractures, and elevated e

40 Delta mice exhibit normal osteoblast number, mineralized bone surface, and bone formation rate.

41 Our method utilizes a novel way to prepare mineralized bone that increases its compliance so that i

42 er-directs osteoblasts to deposit structural mineralized bone tissue and subsequently acquire the res

43 rized by elevated levels of PP(i) and poorly mineralized bones, which are rescued by deletion of nucl