ライフサイエンスコーパス: intramembranous ossification

1 osteogenesis in areas where repair occurs by intramembranous ossification.

2 ferential roles of TRPM7 in endochondral and intramembranous ossification.

3 ng ectopic cartilage formation and excessive intramembranous ossification.

4 plastic clavicles that result from defective intramembranous ossification.

5 macrocephaly, which affect endochondral and intramembranous ossification.

6 es of the mammalian skull vault form through intramembranous ossification.

7 teoblasts from mesenchymal cells in areas of intramembranous ossification.

8 of ciliary and golgin proteins required for intramembranous ossification.

9 n perichondrial tissues, including excessive intramembranous ossification all along the perichondrial

10 Interestingly, there was excessive intramembranous ossification along the perichondrium, ac

11 Interestingly, there was excessive intramembranous ossification along the perichondrium, ac

12 g cells exhibited a lack of endochondral and intramembranous ossification and a lack of mature osteob

13 e in mice in guarding the distinctiveness of intramembranous ossification and how loss of Gnas trigge

14 ossification of nonadipogenic cells, whereas intramembranous ossification and preosteoblast prolifera

15 l vault and craniofacial complex develop via intramembranous ossification, and are separated by fibro

16 formations that affect both endochondral and intramembranous ossification, and is the basis for sever

17 ) mice exhibited a delay in endochondral and intramembranous ossification as well as in chondrocyte d

18 erated endochondral ossification but delayed intramembranous ossification, as well as skeletal deform

19 ex of IFT20 and GMAP210 is essential for the intramembranous ossification during skull development.

20 e-differentiation of the digit tip occurs by intramembranous ossification forming a trabecular bone n

21 he mechanism of craniosynostosis, we studied intramembranous ossification in Axin2-null mice.

22 indings help us understand the mechanisms of intramembranous ossification in general, which occurs no

23 Likewise, intramembranous ossification in the skull is more develo

24 sses the formation of cartilage and promotes intramembranous ossification in the skull.

25 Premature closure of cranial sutures in intramembranous ossification is a feature of syndromes d

26 vere defects in skeletal development, though intramembranous ossification occurs to some extent.

27 of cranial sutures, caused by deficiency in intramembranous ossification, occurs at early postnatal

28 tilage and FGFR2 and FGFR3 have roles during intramembranous ossification of mandibular bones.

29 ibits parietal ossification, suggesting that intramembranous ossification of this mesodermal bone req

30 , and craniofacial bones derived from either intramembranous ossification or mesenchymal cells of the

31 on during normal growth and bone healing via intramembranous ossification proceeded normally in the a

32 mmalian skull, which forms predominantly via intramembranous ossification, requires precise pre- and

33 esenchyme in the mandibular primordium where intramembranous ossification takes place.

34 ranial connective tissue framework undergoes intramembranous ossification to form skull bones (calvar

35 e and body of the mandible, which develop by intramembranous ossification, was less affected by age a

36 Skeletal tissues develop either by intramembranous ossification, where bone is formed withi

37 e majority of the mandible is formed through intramembranous ossification whereas the proximal region

38 Intramembranous ossification, which consists of direct c

39 During the process of intramembranous ossification, which leads to the formati