ライフサイエンスコーパス: vascular biology

1 ctrum, inciting MI with disparate underlying vascular biology.

2 ay have a role in lipoprotein metabolism and vascular biology.

3 ne system and the gut microbiome in bone and vascular biology.

4 eration, and can provide novel insights into vascular biology.

5 us applications and avenues for discovery in vascular biology.

6 f KARS1 and explored its functional roles in vascular biology.

7 in hemostasis, thrombosis, inflammation, and vascular biology.

8 lving mediators in immunity, thrombosis, and vascular biology.

9 esearch in endocrinology, ageing, matrix and vascular biology.

10 iological remodeling, in inflammation and in vascular biology.

11 eate status, platelets have diverse roles in vascular biology.

12 channels function as pivotal integrators in vascular biology.

13 as the endothelium, plays a complex role in vascular biology.

14 d the remarkable development of the field of vascular biology.

15 istability as a new explanatory framework in vascular biology.

16 nown about its involvement in hemostasis and vascular biology.

17 ial focus to its functions in thrombosis and vascular biology.

18 important role for this family of factors in vascular biology.

19 on the role of the various VEGF isoforms in vascular biology.

20 that must be considered by investigators of vascular biology.

21 ns for both EL and PPARs in inflammation and vascular biology.

22 eering, regenerative medicine, and tumor and vascular biology.

23 matrix (ECM) is critical for all aspects of vascular biology.

24 , however, is a major unanswered question in vascular biology.

25 tical roles in thrombosis, inflammation, and vascular biology.

26 is one of the least understood processes in vascular biology.

27 e product that may play an important role in vascular biology.

28 studies helped initiate the growth of modern vascular biology.

29 o a previously unrecognized role for LXRs in vascular biology.

30 has led to neglect of its potential role in vascular biology.

31 neral, has broader implications in oxidative vascular biology.

32 em, matrix deposition, female fertility, and vascular biology.

33 nd related molecules play important roles in vascular biology.

34 endothelial cells, a fundamental process in vascular biology.

35 al development and pathological processes in vascular biology.

36 xide anion (O(2)) plays an important role in vascular biology.

37 /kinin system and discusses its influence on vascular biology.

38 f coronary artery-specific investigations in vascular biology.

39 cies-specific differences in energy balance, vascular biology and adipose tissue physiology, especial

40 rovide important insights into understanding vascular biology and atherosclerosis.

41 onents of plasma lipoproteins that influence vascular biology and atherosclerotic disease pathophysio

42 A studies have advanced our understanding of vascular biology and atherosclerotic disease progression

43 lipoprotein metabolism and thereby influence vascular biology and atherosclerotic disease.

44 journals, Arteriosclerosis, Thrombosis, and Vascular Biology and Circulation, as of query in 2021.

45 genes on the sex chromosomes regulate aortic vascular biology and contribute to sexual dimorphism of

46 ndocytosis in NDP/FZD4 signalling and in CNS vascular biology and disease.

47 est that miR-10a may play important roles in vascular biology and have implications for the diagnosis

48 he JCI expands our understanding of PPARs in vascular biology and highlights the potential use of mul

49 cus on mitochondrial SEPs, and their role in vascular biology and immunometabolism.

50 elastography may become an important tool in vascular biology and in other fields concerned with unde

51 rging as an important regulatory molecule in vascular biology and is modulated by BMPs, 5-HT, and int

52 , initiating explosive growth in research in vascular biology and leading to major insights into angi

53 xt, we summarize the actions of serotonin in vascular biology and leukocyte recruitment.

54 Mouse lung ECs (MLECs) are widely used in vascular biology and lung cell biology studies such as p

55 l gene transfer may serve as a tool to study vascular biology and may have therapeutic potential.

56 These themes in pulmonary vascular biology and pathobiology involved: 1) pulmonary

57 le Topic Conference was held on the topic of Vascular Biology and Pathobiology of the Liver.

58 process image data and facilitate studies in vascular biology and pathology.

59 some and related protein quality control for vascular biology and pathology.

60 ecision the role of von Willebrand factor in vascular biology and pathology.

61 on scheme may find application in studies of vascular biology and receptor biophysics.

62 d pave the way for a broader use of iMPCs in vascular biology and regenerative medicine.

63 ective on how BMP-9 and ALK1 shape pulmonary vascular biology and suggest that targeting this axis co

64 nderstanding how autophagy can contribute to vascular biology and the emerging strategies to target t

65 lature useful for the study of 3-dimensional vascular biology and toward a range of vascular disorder

66 ing scientific discoveries from our field of vascular biology and transplantation.

67 re key signaling components for proteases in vascular biology and tumor progression.

68 s in the fields of epidemiology, prevention, vascular biology, and clinical cardiology should be conv

69 ew studies have described roles for CXCR7 in vascular biology, and the downstream mechanism of CXCR7

70 xide (NO) dramatically altered the course of vascular biology, as well as other biomedical discipline

71 ay have important implications for pulmonary vascular biology, as well as PAH-directed therapeutic de

72 We explored the relevance to vascular biology because S1P is a key cardiovascular sig

73 Here we discuss recent advances in vascular biology, biomaterials chemistry and 3D printing

74 vestigated the role of GSK3beta signaling in vascular biology by examining its function in endothelia

75 acid (LPA) receptors play important roles in vascular biology, development, and cancer.

76 now integrated very closely with the broader vascular biology discipline.

77 , cardiology, neurology, surgery, radiology, vascular biology, epidemiology, and health economics att

78 experts in the fields of cancer biology and vascular biology gathered at the William Guy Forbeck "Fo

79 A total of 62 vascular biology genes and 72 single-nucleotide polymorp

80 The field of vascular biology has been stimulated by the concept that

81 he role of the progesterone receptor (PR) in vascular biology has not been studied in vivo.

82 ograft systems that inaccurately model tumor vascular biology, has led to an undue emphasis on the ro

83 (+) cell frequency has wide implications for vascular biology in addition to stem cell transplantatio

84 ed to illuminate a mechanism that implicates vascular biology in eye disease.

85 current understanding of neuroprotection and vascular biology in general.

86 satility of the Biotag system for studies of vascular biology in genetically engineered mice, providi

87 s airway fibrosis highlight a novel role for vascular biology in OB pathogenesis.

88 l-molecule therapeutics directed at abnormal vascular biology in patients with sickle cell disease.

89 s are key regulators of different aspects of vascular biology, including the formation of new blood v

90 el throughout the body, and has key roles in vascular biology, including vascular permeability and in

91 One emerging area in vascular biology involves the RANKL/RANK/OPG system, mol

92 An important aspect of vascular biology is the identification of regulators of

93 A central question in vascular biology is the role of the endothelium in the i

94 ether CLIC4 has other physiological roles in vascular biology is uncertain.

95 ribed here illustrates how advances in basic vascular biology may transform therapy.

96 t also is an important signaling molecule in vascular biology, mediating several physiological functi

97 Further knowledge of the vascular biology of FcgammaR and their ligands will pote

98 thelial growth factor (VEGF) blockade on the vascular biology of human tumors are not known.

99 intrauterine environment by classifying the vascular biology of the maternal-placental interface in

100 bin play an important role in explaining the vascular biology of this free radical.

101 nto consideration, these new developments in vascular biology open important therapeutic avenues.

102 einstein and sponsored by the North American Vascular Biology Organization (NAVBO) brought 200 develo

103 Advances in pulmonary vascular biology over the past few decades have led to n

104 Advances in pulmonary vascular biology over the past few decades have signific

105 Identification of dysregulated vascular biology pathways in sickle vasculopathy has pro

106 From a vascular biology perspective, the processes of cellular

107 y questions regarding GATA-2 function in the vascular biology realm remain unanswered, we used ChIP s

108 e identified a novel physiological aspect of vascular biology related to the GIP receptor in humans.

109 ety of cellular functions, but their role in vascular biology remains unexplored.

110 Finally, in addition to vascular biology research, APN-null mice may be useful r

111 This novel bioassay has usefulness in vascular biology research, patient phenotyping, drug tes

112 an emerging area of interest in cellular and vascular biology research.

113 ic vascular cell signaling and then explored vascular biology specifically as it relates to liver cel

114 nd RXRs in energy balance, inflammation, and vascular biology stands separately from the clinical exp

115 dentifying ALK1 as a 'Goldilocks' pathway in vascular biology that requires a certain signaling ampli

116 ve been made in the understanding of in vivo vascular biology using OCT.

117 Perivascular adipose tissue (PVAT) regulates vascular biology via paracrine cross-talk signals.

118 uggest that, in other contexts, Reck impacts vascular biology via the vascular endothelial growth fac

119 The potential function of kallistatin in vascular biology was investigated by studying its role i

120 To define the role of GLUT1 in vascular biology, we established cultured vascular smoot

121 nature, concentrations, and possible role in vascular biology, we sought to characterize those specie

122 enjoyed lively discussions on developmental vascular biology while experiencing the natural beauty o

123 lopments concerning the role of integrins in vascular biology with a specific emphasis on integrin ac

124 st recent advances in the field of lymphatic vascular biology, with a focus on cardiovascular disease

125 ing-edge progress in translational pulmonary vascular biology, with a guide to the diagnosis of patie