ライフサイエンスコーパス: myocardial regeneration

1 sample to develop new insights for achieving myocardial regeneration.

2 cover molecular mechanisms that will promote myocardial regeneration.

3 novel off-the-shelf microtissue product for myocardial regeneration.

4 d have been unthinkable only a few years ago-myocardial regeneration.

5 would represent the most powerful cells for myocardial regeneration.

6 ulate cardiomyocyte expansion in therapeutic myocardial regeneration.

7 rdium provides a path to realize sustainable myocardial regeneration.

8 ecovery was due to the cytokines rather than myocardial regeneration.

9 may provide a molecular strategy to promote myocardial regeneration.

10 cally to stimulate resident CPCs and promote myocardial regeneration.

11 protein appears to have no obvious effect on myocardial regeneration.

12 on combinatorial cell approaches to support myocardial regeneration.

13 Here we review efforts to induce myocardial regeneration.

14 from mechanisms that are distinct from true myocardial regeneration.

15 sses hold enormous potential for therapeutic myocardial regeneration.

16 he use of BM-derived cardiac progenitors for myocardial regeneration.

17 l non-coding RNAs called microRNAs (miRs) in myocardial regeneration.

18 is feasible, safe or can provide sufficient myocardial regeneration.

19 c growth factors has been shown to result in myocardial regeneration after acute myocardial infarctio

20 SF) and stem cell factor (SCF) could promote myocardial regeneration after coronary artery occlusion

21 tenins might be a useful strategy to promote myocardial regeneration after injury.

22 To achieve myocardial regeneration and foster development of effici

23 Transplanted hCDCs promoted greater myocardial regeneration and functional improvement in in

24 nd 6) explore the potential of stem cells in myocardial regeneration and repair in hearts damaged by

25 dings shed new light on our understanding of myocardial regeneration and suggest potential novel ther

26 duce pathological cardiac remodeling, induce myocardial regeneration, and improve ventricular functio

27 lial cell transplantation into the heart for myocardial regeneration, and induction of angiogenesis f

28 This beneficial effect, together with myocardial regeneration attenuated postinfarction dilate

29 The recruited cells contribute to myocardial regeneration both as a structural component o

30 recently shown to play an essential role in myocardial regeneration by regulating different processe

31 the lack of unequivocal evidence in favor of myocardial regeneration by the injection of BMCs in the

32 CSCs induced myocardial regeneration, decreasing infarct size by 29%.

33 Again, we found no evidence of myocardial regeneration from blood-borne partner-derived

34 kable effect cannot be readily attributed to myocardial regeneration from the donor cells.

35 Documentation of myocardial regeneration in acute stress has challenged t

36 Human cardiac stem cells (CSCs) promote myocardial regeneration in adult ischemic myocardium.

37 cardiac progenitor cells (hCPCs) may promote myocardial regeneration in adult ischemic myocardium.

38 evolving appreciation for the complexity of myocardial regeneration in the adult context.

39 ings define a mechanistic basis for enhanced myocardial regeneration in transgenic mice overexpressin

40 Myocardial regeneration in zebrafish involves the dediff

41 Myocardial regeneration induced increased survival and r

42 Biologic myocardial regeneration is a new and rapidly evolving ar

43 he mechanism of benefit is unclear, although myocardial regeneration is not a significant factor.

44 Myocardial regeneration is observed in amphibians, where

45 Myocardial regeneration is perhaps the most widely studi

46 rdiomyocyte cell-cycle activity and promotes myocardial regeneration, leading to improved function af

47 Importantly, the magnitude of myocardial regeneration obtained in this study is signif

48 ll-mediated regeneration to promote enhanced myocardial regeneration, persistence of donated cells, a

49 hanged since our survey of the landscape for myocardial regeneration powered by adult stem cells 4 ye

50 f cellular adoptive transfer for therapeutic myocardial regeneration, problems remain for donated cel

51 This approach of inducing endogenous myocardial regeneration provides proof-of-concept eviden

52 Because definitive myocardial regeneration remains undemonstrated, we propo

53 In seven acute infarcts, foci of spontaneous myocardial regeneration that did not involve cell fusion

54 rstand the role of fusion in stem cell-based myocardial regeneration, the present study was designed

55 Our study shows that myocardial regeneration through targeted peptides is pos

56 Myocardial regeneration via stem-cell mobilisation at th

57 Myocardial regeneration was detected in all treated infa

58 peutic strategy, the induction of endogenous myocardial regeneration was investigated by initiating c

59 ion of miR-133 levels after injury inhibited myocardial regeneration, while transgenic miR-133 deplet

60 Myocardial regeneration with stem-cell transplantation i