ライフサイエンスコーパス: extraskeletal

1 ncy and heparin administration as a cause of extraskeletal 99mTc bone tracer accumulation.

2 There were no extraskeletal abnormalities and no relationship between

3 epiction, location, and characterization and extraskeletal abnormalities were evaluated.

4 conced in healthy murine enthesis, and other extraskeletal anchorage points including the aortic root

5 ollowed by chondrogenesis, osteogenesis, and extraskeletal bone accumulation.

6 cquired heterotopic ossification (HO) is the extraskeletal bone formation after trauma.

7 Pathologic extraskeletal bone formation, or heterotopic ossificatio

8 pamycin significantly decreased or inhibited extraskeletal bone formation.

9 (FOP) is a rare but devastating disorder of extraskeletal bone formation.

10 Extraskeletal bone forms through an endochondral process

11 sification (HO), defined as the formation of extraskeletal bone in muscle and soft tissues, is a dive

12 ic ossification, the pathologic formation of extraskeletal bone, occurs as a common complication of t

13 ising target to prevent and treat pathologic extraskeletal bone.

14 es the rare genetic disorder of heterotopic (extraskeletal) bone formation fibrodysplasia ossificans

15 Secondary hyperparathyroidism contributes to extraskeletal calcification and is associated with all-c

16 mic patients are prone to widespread ectopic extraskeletal calcification resulting from an imbalance

17 nisms are etiological agents of pathological extraskeletal calcification.

18 moral (0% to 12%; P=0.13) artery plaques and extraskeletal calcifications (34.4% to 65.6%; P=0.006) i

19 vitamin D deficiency is associated with many extraskeletal chronic disorders, including the autoimmun

20 Secondary hyperparathyroidism contributes to extraskeletal complications in chronic kidney disease.

21 at is essential for modeling of skeletal and extraskeletal connective tissues.

22 ntegrate therapies for both the skeletal and extraskeletal consequences with a view toward improving

23 ical setting and result in both skeletal and extraskeletal consequences.

24 oid CS is pathogenetically distinct from its extraskeletal counterpart.

25 (18)F-FDG PET/CT and whole-body MRI detected extraskeletal disease that may change the management of

26 develop hypocalcemia, rickets, and possibly extraskeletal disorders (e.g., type 1 diabetes).

27 ssiva, a disorder characterized by extensive extraskeletal endochondral bone formation, share a recur

28 rimary renal primitive neuroectodermal tumor/extraskeletal Ewing's sarcoma (PNET/EES) is a very rare

29 matopoietic abnormalities do not result from extraskeletal expression of endogenous collagen X or the

30 provided evidence for a role of vitamin D in extraskeletal health.

31 rimary tumor was bone in 57% of patients and extraskeletal in 43% of patients.

32 parathyroidism, are thought to contribute to extraskeletal (including vascular) calcification among p

33 The (18)F(-)/(18)F-FDG uptake in extraskeletal lesions showed no significant difference w

34 to-background ratio of (18)F(-)/(18)F-FDG in extraskeletal lesions showed no significant difference w

35 For extraskeletal lesions, (18)F-NaF/(18)F-FDG PET/CT and wh

36 Extraskeletal manifestations have not been reported in P

37 joints and spine but is also associated with extraskeletal manifestations such as uveitis, psoriasis,

38 haracterized by brittle bones, fractures and extraskeletal manifestations.

39 mas (STS) represent a heterogeneous group of extraskeletal mesenchymal tumors that affect individuals

40 fic antigen or radiological), baseline pain, extraskeletal metastases, and bisphosphonate use, were r

41 ny metastasis, even in the presence of other extraskeletal metastases, is not recommended.

42 uantity and quality, as well as disorders of extraskeletal mineralization (hyperphosphataemic familia

43 Molecular studies have established that extraskeletal myxoid chondrosarcoma is a unique entity d

44 A proportion of extraskeletal myxoid chondrosarcomas (EMC) have been sho

45 c and molecular genetic findings, except for extraskeletal myxoid chondrosarcomas.

46 molecular genetic changes are diagnostic of extraskeletal myxoid chondrosarcomas.

47 Notably, 2 cases of extraskeletal myxoid CS showed neither an EWS/CHN fusion

48 Extraskeletal myxoid CS thus represents yet another sarc

49 ent, suggesting genetic heterogeneity within extraskeletal myxoid CS.

50 , has been recognized in CS, specifically in extraskeletal myxoid CS.

51 en characterized in only a limited number of extraskeletal myxoid CSs and its presence in other types

52 he EWS/CHN gene fusion was present in 6 of 8 extraskeletal myxoid CSs and was not detected in any of

53 We studied 46 cases of CS (8 extraskeletal myxoid, 4 skeletal myxoid, 4 mesenchymal,

54 Extraskeletal new bone formation, as seen in myositis os

55 e or human FOP cells, and diminished in vivo extraskeletal ossification in Acvr1(Q207D), Sox2-Cre; Ac

56 nital skeletal malformations and progressive extraskeletal ossification, is the most severe form of h

57 cterized by altered skeletal development and extraskeletal ossification.

58 er of skeletal malformations and progressive extraskeletal ossification.

59 ormation, as seen in myositis ossificans and extraskeletal osteosarcoma, represents an exception wher

60 ydroxyvitamin D [25(OH)D] concentrations for extraskeletal outcomes are uncertain and could differ fr

61 The observed extraskeletal particles range in size between 0.2 and 1.

62 It remains unclear whether skeletal or extraskeletal problems will develop postnatally from exp

63 ites during development, suggesting possible extraskeletal roles for these proteins.

64 s to prevent or treat development of bone in extraskeletal sites.

65 es, were accessible only in BMSCs but not in extraskeletal stromal cells.

66 eletal health, and might also have a role in extraskeletal tissues.

67 adult mice increases bone formation without extraskeletal toxicities.

68 Mice bearing extraskeletal tumors show significantly elevated levels

69 There was, however, extraskeletal uptake of the 99mTc bone tracer in the ant