ライフサイエンスコーパス: shear force

1 ith anoxia, aglycemia and loss of flow (i.e. shearing forces).

2 m of stimulating current and ground-reaction shear force.

3 m adhesive force that was 36% of the maximum shear force.

4 (both P = .003) directly as a result of the shear force.

5 red for NK cell migration and adhesion under shear force.

6 es of NCs are a nonmonotonic function of the shear force.

7 onment and pH as well as the introduction of shear forces.

8 the lost ability of diseased cells to resist shear forces.

9 he weak van der Waals interactions into high shear forces.

10 sist externally or internally generated high shear forces.

11 interactions to generate large adhesive and shear forces.

12 aring cells, particularly in the presence of shear forces.

13 und to be very sensitive to the flow-induced shear forces.

14 primary endothelial cells under physiologic shear forces.

15 red to HA but showed enhanced rolling at low shear forces.

16 t but could be selectively inhibited by high shear forces.

17 required to protect the repair from abnormal shear forces.

18 ell arrest in the presence of flow-dependent shear forces.

19 sions under conditions mimicking physiologic shear forces.

20 se in intracellular pressure and by external shear forces.

21 eric mechanisms and possibly by hydrodynamic shear forces.

22 ts, extracellular calcium, and fluid-imposed shear forces.

23 tivated platelets or endothelial cells under shear forces.

24 laining how SasG can withstand physiological shear forces.

25 lless C-cadherin did not adhere well at high shear forces.

26 nalling regulates endothelial sensitivity to shear forces.

27 resist detachment in response to increasing shear forces.

28 fness, coculture with endothelial cells, and shear forces.

29 e leukocyte rolling in the vasculature under shear forces.

30 a polymer subjected to otherwise destructive shear forces.

31 ty of skin and heart tissues by withstanding shear forces.

32 ence on shear by increasing binding at lower shear forces.

33 vesicles; division is then mediated by fluid shear forces.

34 aneously to GPIbalpha in solution under high shear forces.

35 ed when VWF is subject to elevated rheologic shear forces.

36 ex fluid flow with surface tension and large shearing forces.

37 maximally turned on by a threshold level of shear force (0.5 dyn/cm2 or higher) with a much slower a

38 gligible shear stress, under a local applied shear force (7.4 to 19 nN) using the AFM probe in contac

39 nt rates of fragmentation in the presence of shear forces, a difference that helps explain the observ

40 ss of the meniscus that may lead to abnormal shearing forces across the knee joint.

41 und integrin or selectin adhesion molecules, shear force acting on the bound adhesion molecules, and

42 ory of colloid stability and the EOF-induced shear forces acting on a bacterium.

43 at elevations of plasma catecholamines, high shear forces acting on the platelets in the stenosed lum

44 crystal tuning fork (32.768 kHz) for sensing shear force allowed simultaneous topographic, along with

45 Subsequently, high shear forces alone in the absence of VWF in suspension c

46 Increased fluid shear forces also resulted in the generation of a better

47 These results suggest that physiological shear forces alter neutrophil activation via FPR by redu

48 to water holding capacity, cooking yield and shear force among formulations.

49 dielectrophoresis force in conjunction with shear force and at an optimal sodium hydroxide concentra

50 viscosity might be associated with increased shear force and cleavage of multimers.

51 nstead, high coherence between medio-lateral shear force and T(z) at the same frequency range suggest

52 c confinement with airflow that can induce a shear force and temperature gradient on the sample.

53 of the microdevices, we are able to vary the shear force and the biochemistry during an experiment.

54 scle yield, muscle crude-fat content, muscle shear force and whiteness.

55 F, which proved to be vital for withstanding shear forces and for its adhesion to the vessel wall and

56 alves and is dependent upon both hemodynamic shear forces and klf2a expression.

57 , with bacterial adhesion being inhibited by shear forces and lacking a rolling mode of binding.

58 ncy prevails after the application of strong shear forces and mechanical damage.

59 dothelial cell surface so that it can resist shear forces and the mechanism of the regulation of the

60 aused by increased mechanical distending and shear forces and/or impaired adhesion to the GBM.

61 mpetition between gravitational and bending (shearing) forces and is exhibited for a range of densiti

62 matical model to generate velocity-dependent shear force, and an independent elastic model for adhesi

63 ween two different cell lines, the effect of shear force, and the recovery of captured cells.

64 The magnitude of the shear force, and thereby the corresponding activation of

65 during development mirrors the rise of fluid shear forces, and that endothelial loss of Klf2 results

66 Hemodynamic shear forces are intimately linked with cardiac developm

67 eassemble within seconds (self-healing) when shear forces are removed.

68 Modest shear forces are then sufficient to cause the thread-lik

69 through DNA hybridization, and hydrodynamic shear forces are used to discriminate between strongly a

70 seen between domains 16 and 17 is broken by shear force as revealed by steered molecular dynamics si

71 luding compressive force, tensile force, and shear force as well as indirect formats, remotely trigge

72 cells adhered more avidly to 7D VCAM-1 under shear force, as it induced cell spreading at lower conce

73 most mammalian cell lines cannot survive the shear forces associated with turbulent stopped-flow mixi

74 groups, of SAMs of thiolates on Au by using shear force-based scanning probe microscopy (SPM) combin

75 SAMs of thiolates or arylates on Au by using shear force-based scanning probe microscopy (SPM) combin

76 resonant oscillations due to the presence of shear forces between the probe and the sample surface en

77 The crosslinking is activated efficiently by shear forces both in solvated systems and in bulk materi

78 We previously demonstrated that shear force can activate LLC and that thiol-disulfide ex

79 Because the magnitude of this fluid shear force can be tuned externally (e.g., via the appli

80 he interplay between multivalent binding and shear force can reproduce the shear-enhanced binding phe

81 Recent work has shown that the same shear forces can be used to accelerate non-destructive r

82 ose, oxidative stress, and elevated vascular shear forces-coexist in patients with diabetes, creating

83 e flow cell configured to provide continuous shear forces comparable to those encountered in the huma

84 High shear force critically regulates platelet adhesion and t

85 h to CEC 1-5 and to resist detachment by low shear forces, demonstrating that tailless C-cadherin can

86 plasma, length is regulated by hydrodynamic shear force-dependent unfolding of the A2 domain, which

87 rces on homotypic cell doublets are tensile, shear forces dominate in heterotypic doublets with radiu

88 At even higher values of Ca, shear forces dominated and caused formation of droplets

89 The influence of counteracting shear forces, drag along the walls, and reinforcing flow

90 the EC monolayer and application of venular shear force during the assay.

91 ticojejunostomy, creation of compressive and shear forces during suture placement and knot tying may

92 ential mechanism for absorbing physiological shear forces encountered during urinary tract infections

93 -positioned adhesive protein FimH utilizes a shear force-enhanced, so-called catch-bond mechanism of

94 in vitro model in which CLL cells experience shear forces equivalent to those in capillary beds and a

95 cula) and provides inertial mass to generate shearing forces essential for the mechanoreceptors to se

96 efficiently to LRP1 but only when exposed to shear forces exceeding 2.5 dyne/cm(2), implying the exis

97 insulin, which cannot withstand the lateral shear forces exerted by the scanning probe in convention

98 lood into pLNs and BM, where relatively high shear forces exist in high endothelial venules and sinus

99 for the transmission to the cytoskeleton of shear forces experienced by adhering cells.

100 rp fiber-optic probe across the sample using shear force feedback.

101 made, such contacts are able to survive the shear forces felt by bacteria in liquid media.

102 Regardless of exposure to shear forces, flagellar class 3 transcription rose sharp

103 The shear force from the tip attached to a quartz tuning for

104 Shear forces generated by blood flow regulate hemodynami

105 s difference is rationalized on the basis of shear forces generated by the catalytically driven rotat

106 oil and recoil depending on the intensity of shear forces generated by urine flow.

107 ccurs over a broad pH range, is resistant to shear forces generated by vortexing, and is unaffected b

108 It could serve to transduce the shear forces generated in the integrated wall-membrane-c

109 support a model in which transmission of the shearing force generated by steric clash of the hairpin

110 Fluid shear forces have established roles in blood vascular de

111 that allows the complex to resist the large shear forces imposed by the bloodstream.

112 used to mimic the influence of physiological shear force in diverse situations such as leukocyte roll

113 the mechanical stimulation provided by fluid shear forces in 3D flow perfusion culture can indeed enh

114 Here we show that the viscous shear forces in nanoconfined water can be orders of magn

115 tening of thermal undulations in response to shear forces in solution.

116 Shear forces in the blood trigger a conformational trans

117 Rheological shear forces in the blood trigger von Willebrand factor

118 implications regarding the role of disturbed shear forces in the genesis of atherosclerosis.

119 might not normally be exposed to fluid flow shear forces in their native environment.

120 To test the relevance of these shear forces in vivo, flow was occluded at either the ca

121 shielding and its coupling to cleavage under shear-forces in flowing blood remain unknown.

122 We examined whether shear force, in the absence of GPVI ligand, was sufficie

123 here can be counteracted and overcome by the shear force induced by electroosmotic flow (EOF, i.e. th

124 One might expect that shearing forces induced by a nonuniform fluid flow would

125 obtained with cells that were not exposed to shear forces: internal FlgM levels remained constant whi

126 g that the requirement for minimum levels of shear force is not cell type specific.

127 Within this process the presence of fluidic shear forces is a key regulator of binding equilibrium a

128 Leukocyte exposure to hemodynamic shear forces is critical for physiological functions inc

129 Nonetheless, the role of shear forces is still poorly understood.

130 fection, under adverse conditions of dynamic shear forces, is primarily attributed to this biomechani

131 in the 3D porous scaffolds, increasing fluid shear forces led to increased mineral deposition, sugges

132 ures during LC purification and suggest that shear forces may be relevant for some applications of DN

133 ng a leukocyte adhesion in vitro assay under shear forces mimicking blood flow, we observed that redu

134 d clogging processes and are responsible for shear force modification in marine systems.

135 a more robust cytoskeleton able to withstand shear forces more effectively.

136 The mechanism of tuning fork-based shear-force near-field scanning optical microscopy is in

137 illustrate that TRPM7 is mechanosensitive to shear force of 1.2 Pa, which is much lower than 98 Pa pr

138 cilitating cell capture and arrest under the shear force of blood flow.

139 adhesion must be strong enough to resist the shear force of the blood flow.Borrelia burgdorferi sensu

140 ive strength to anchor neutrophils under the shear forces of blood flow and directional guidance for

141 ium with sufficient strength to overcome the shear forces of blood flow.

142 eous liquid crystal that is disrupted by the shear forces of bubbling, and we observed liquid-crystal

143 sistant than platelets are to the high fluid shear forces of the arterial vasculature.

144 Albeit this alignment is achieved by the shearing forces of syringe delivery, it is also dependen

145 The role of shear forces on earlier indicators of neutrophil activat

146 ivated normal T cells roll under physiologic shear forces on hyaluronate and require VCAM-1, but not

147 The effect of shear forces on the adherent cells was evaluated in a fl

148 e examined the impact of physiological fluid shear forces on the development of multicellular aggrega

149 The combined effect of fluid shear forces on the mineralized extracellular matrix pro

150 oop with the exit pore of the RNAP imposes a shearing force on the RNA in the downstream RNA:DNA hybr

151 Cells were eluted using either shear force or bubbles.

152 from evaporative concentration, followed by shear force or photochemically induced division.

153 ulate the tip-substrate distance, either the shear force or the SECM tip current was employed as the

154 ) and low-density lipoprotein as a result of shear forces or changes in the microenvironment may cont

155 e that lymphocytes integrate, conditional to shear forces, permissive apical chemokine deposits, and

156 n (nano-DESI) was developed by integrating a shear-force probe with the nano-DESI probe.

157 Shear forces promote DNA synthesis, polyploidization, an

158 tic activation when subjected to stirring or shear forces, providing a potential mechanism for physio

159 capillaries (1), was optimal at reduced flow shear forces (range: 0.77 to 2.79 dyne/cm2) (2), and pro

160 cerbate underlying hypertension and increase shear force-related red blood cell destruction.

161 N binding to tumor cells under physiological shear forces remain largely unknown.

162 endothelium was quantified by measuring the shear force required to separate individual cells from e

163 To summarize, we show that MK exposure to shear forces results in JNK activation, AP-1 up-regulati

164 ng controlled application of compression and shear forces results in the formation of transient holes

165 of Ler and is further enhanced by levels of shear force similar to peristaltic forces in the intesti

166 udden, jerking head movements generate fluid shear forces similar to retinal adhesion strength that l

167 eased similar to the increase observed under shear force, suggesting the same allosteric mechanism, a

168 heir tenderness evaluated by Warner-Bratzler shear force test.

169 e HA substrate and did not roll at any fluid shear force tested.

170 The energy gradient introduces a local shear force that accelerates filament intersubunit bond

171 lated in response to conditions of low fluid shear force that increase bacterial virulence and alter

172 roteins was seen under conditions of flow at shear forces that occur in post-capillary venules.

173 he use of the French press, which produces a shearing force that denudes mitochondria of their outer

174 ating the rheology of ceramic pastes and the shear forces they experience during printing.

175 t employs dielectrophoretic and hydrodynamic shear forces to overcome these thermodynamic limitations

176 measure the value of Lambda by applying high shear forces to supported lipid bilayers.

177 re designed and bulk-fabricated for applying shearing forces to biological tissues.

178 current electrohydrodynamic (ac-EHD)-induced shear forces, to enhance capture performance during prot

179 We hypothesized that shear forces transmitted through high-affinity LFA-1 fac

180 pairs are stable against thermal forces and shear forces up to 10 pN.

181 Conversely, shear force value and likeness scores of the control sam

182 Shear force values were also declined with the increase

183 The use of different elution shear forces was demonstrated to selectively elute one c

184 Warner-Bratzler shear force (WBSF) values and sensory scores by trained

185 It follows that a modest shearing force, well below that experienced by the red c

186 n primary collision lifetime was detected as shear forces were increased (for either surface coating)

187 , or B-cadherin, coaggregation occurred when shear forces were low or absent but could be selectively

188 Bacteria must withstand large mechanical shear forces when adhering to and colonizing hosts.

189 tube upon heating, highlighting the role of shear forces which bend the tube forming strained bonds

190 which reduce porosity, lead to higher fluid shear forces, which then decompose the deposits, filling

191 fore able to re-grow if broken by mechanical shearing forces, which are expected to occur frequently

192 w rate, simple flow characterization and low shear force, while well-organized needle array electrode

193 adherin remained attached to CEC 1-5 at high shear forces, while cells expressing the tailless C-cadh

194 echanical stability necessary to survive the shear forces within the microvasculature.