ライフサイエンスコーパス: mechanical injury

1 Plants sometimes suffer mechanical injury.

2 , are induced in the vasculature after acute mechanical injury.

3 nduced arterial remodeling in the absence of mechanical injury.

4 y in mature skin unless in response to minor mechanical injury.

5 ture-induced rolling behavior, a response to mechanical injury.

6 e the microtubule lattice's vulnerability to mechanical injury.

7 tegrity, both in the presence and absence of mechanical injury.

8 sect infestation, manufacturing stresses and mechanical injury.

9 in and tested for protective effects against mechanical injury.

10 methyl JA (MeJA), necrotrophic infection or mechanical injury.

11 nction of Pmp22 is to protect the nerve from mechanical injury.

12 pon tissue loading and is released following mechanical injury.

13 ficantly regulated at least 2-fold following mechanical injury.

14 Explants were subjected to single-impact mechanical injury.

15 hondrocyte survival and cell death following mechanical injury.

16 (PTOA) across the knee joint in response to mechanical injury.

17 lved in the long-term response of neurons to mechanical injury.

18 genes is one way in which plants respond to mechanical injury.

19 timal hyperplasia and does not require frank mechanical injury.

20 lus region of the hippocampus within days of mechanical injury.

21 eurons from the effects of neurochemical and mechanical injury.

22 s basalis from the effects of excitotoxic or mechanical injury.

23 and reduces intimal expansion in response to mechanical injury.

24 rphological responses of individual axons to mechanical injury.

25 haviors, rendering axons more sensitive to a mechanical injury.

26 Disruption of the epithelial barrier by mechanical injury activates TGF-beta1, leading to LM-332

27 r of apoptotic cells over that accruing from mechanical injury alone.

28 se of kainate as an agonist, suggesting that mechanical injury alters AMPA receptor desensitization.

29 B1 released in vitro impairs OPC response to mechanical injury; an effect that is pharmacologically r

30 f iex-1 in vivo, we performed carotid artery mechanical injury and endothelial denudation in low-dens

31 sceptibility of hippocampal and DRG axons to mechanical injury and estimated the elasticity of live a

32 s, in addition to pathogens that induce PCD, mechanical injury and infiltration of leaves with 1 M su

33 car and fibrosis are often the end result of mechanical injury and inflammatory diseases.

34 bly occurs rapidly in response to an in vivo mechanical injury and precedes basal body polarization a

35 hanol inhibition of hepatocyte recovery from mechanical injury and that this impairment occurs indepe

36 hanges in the level of gene expression after mechanical injury are gene specific and time dependent.

37 o how cells protect themselves not only from mechanical injury but also from microbial toxins and por

38 Mechanical injury can also determine spinal cord degener

39 h bleaching phenols, overexposure to UV, and mechanical injury can lead to progressive loss of melano

40 BB integrity, however the mechanism by which mechanical injury can produce a [Ca2+]i increase in brai

41 to study these processes as both genetic and mechanical injury can redirect their fate during regener

42 l openings, such as stomata, hydathodes, and mechanical injuries caused by insect feeding, wind damag

43 Mechanical injury caused a significant loss of viable ch

44 eated explants, but not in control explants, mechanical injury caused an immediate reduction in cell

45 Our data suggest that after mechanical injury, chondrocytes distant from the site ma

46 matory corneal neovascularization induced by mechanical injury (debridement), and in vitro in corneal

47 PIEZO1-induced signaling drives chondrocyte mechanical injury due to high membrane tension, and this

48 following other forms of CNS damage, such as mechanical injury, excitotoxicity and viral infection.

49 g2576) mice and in brain tissue subjected to mechanical injury expressed vimentin, while those in com

50 Following intra-arterial mechanical injury, FGF2-deficient vessels undergo a norm

51 spasms were similar to vasospasms induced by mechanical injury followed by serotonin, and to those st

52 te matter may be more susceptible to initial mechanical injury forces and that anisotropic diffusion

53 In particular, mechanical injury from the procedure results in extensiv

54 Mechanical injury has been postulated as a risk factor f

55 Indeed, immediately following a mechanical injury, heregulin-alpha activates erbB2 in ce

56 Here, we found that thermal but not mechanical injury impairs sensory axon regeneration and

57 mice repopulated vascular lesions induced by mechanical injury in p27(+/+) recipients, in contrast to

58 , relatively little apoptosis is found after mechanical injury in vitro.

59 We conclude that mechanical injury in vivo and in vitro induces iNOS expr

60 Mechanical injury in vivo results in the expression of t

61 Cell surface biotinylation after mechanical injury indicates that proteolyzed NaChs remai

62 Mechanical injury induced cell death and loss of sGAG in

63 at activates larval nociceptors and mediates mechanical-injury-induced nociception.

64 Mechanical injury induces cell death in cartilage and tr

65 rized by a skin barrier defect aggravated by mechanical injury inflicted by scratching, a T(H)2 cell-

66 the mechanism of skin barrier recovery after mechanical injury inflicted by tape stripping.

67 ypothesis that alveolar instability causes a mechanical injury, initiating an inflammatory response t

68 ypothesis that alveolar instability causes a mechanical injury, initiating an inflammatory response w

69 and neuronal damage that follows the primary mechanical injury is an important cause of disability in

70 s for lung inflammation and remodeling after mechanical injury is discussed.

71 rate for the first time that ATP released by mechanical injury is one of the signals that triggers ER

72 g from chondrocyte death in the aftermath of mechanical injury is thought to contribute to posttrauma

73 Our findings indicate that mechanical injury leads to suppression of autophagy, pre

74 Following mechanical injury, lubricin messenger RNA (mRNA) levels

75 such as foods, chemicals, friction, thermal/mechanical injury, metals, spices, and oral care product

76 In response to femoral artery mechanical injury, mice with homozygous deletion of p21C

77 rological pathologies, such as autoimmunity, mechanical injury, neurodegeneration, and infection.

78 died (i) the recovery from large sarcolemmal mechanical injuries of the response to electric stimulat

79 We conclude that mechanical injury of brain endothelial cells induces a r

80 inclinical OA samples and was enhanced after mechanical injury of cartilage tissue.

81 aveolin-2 is up-regulated in response to the mechanical injury of differentiated PC12 cells; up-regul

82 The initial mechanical injury of neurons by traumatic brain injury t

83 We produced a chemical and mechanical injury of the cornea in rats by brief applica

84 igration of adventitial cells in response to mechanical injury of the rat carotid artery.

85 effector cells form the initial response to mechanical injury of the skin.

86 ivation of smooth muscle cells in vivo after mechanical injury of the vessel wall.

87 Here, the effects of mechanical injury on the voltage-dependent magnesium (Mg

88 The sensing of abiotic stress, mechanical injury or pathogen attack by a single plant t

89 phytoalexins in solanaceous plants following mechanical injury or pathogen infection.

90 In response to biological and mechanical injury, or in vitro culturing, vascular smoot

91 Our findings indicate that mechanical injury potentiates the catabolic effects of T

92 Our predictions explain how mechanical injury predisposes axons to exacerbated respo

93 Finally, efficient repair of colonic mechanical injuries requires villin severing of F-actin,

94 Mechanical injury rescued susceptibility, consistent wit

95 ions of 1.8 mM and 3.8 mM, respectively, but mechanical injury resulted in extensive calcification in

96 This 3D technique is useful for mechanical injury studies and as a drug screening tool,

97 ity under conditions of oxidative stress and mechanical injury, such as those experienced in cardiova

98 GsMTx4 reduced chondrocyte death after mechanical injury, suggesting a possible therapy for red

99 fish are based on invasive surgeries causing mechanical injuries that are limited in size.

100 uries to the brain and ensuing secondary non-mechanical injuries that are not limited to the brain.

101 In response to mechanical injury, there is an immediate induction of ne

102 Mechanical injuries to Arabidopsis roots did not produce

103 Unfavorable TBI outcomes result from primary mechanical injuries to the brain and ensuing secondary n

104 We thus propose that after repeated mechanical injuries to the brain, such as from direct bl

105 Our findings indicate that mechanical injury to adult human articular cartilage res

106 nges in and functions of autophagy following mechanical injury to cartilage.

107 Mechanical injury to connective tissue causes changes in

108 igh-intensity ultrasound platform to inflict mechanical injury to induced pluripotent stem cell (iPSC

109 We found that mechanical injury to mouse skin, which can be caused by

110 trong water wave stimulus for 2 hr displayed mechanical injury to neuromasts, including afferent neur

111 Mechanical injury to the adult mammalian spinal cord res

112 Mechanical injury to the adult mammalian spinal cord res

113 Here, we demonstrate that, upon mechanical injury to the adult pallium, axolotls can reg

114 utons into postsynaptic neurons occurs after mechanical injury to the brain.

115 eath after brain injury in vivo We show that mechanical injury to the larval zebrafish brain induces

116 Mechanical injury to the skin results in activation of t

117 ionic homeostasis in cortical cultures, and mechanical injury using an in vitro model of traumatic b

118 In addition, the susceptibility of cells to mechanical injury was not correlated with changes in cel

119 nn cell support for distressed neurons after mechanical injury, we have now asked: do Schwann cells a

120 ve in preventing neointimal thickening after mechanical injury when administered in the absence of an

121 articular cartilage explants 24 hours after mechanical injury with that of uninjured controls by mic

122 ce of MCP-1 in mouse brain after penetrating mechanical injury, with particular focus on early time p