ライフサイエンスコーパス: biomechanical

1 single pilin-protein subunits, with a unique biomechanical ability to unwind and rewind.

2 es neural fold separation, demonstrating its biomechanical activity.

3 nal patterns that correlated with the unique biomechanical adaptations of the stomach, specifically p

4 es an important role for Dok-2 in regulating biomechanical adhesive function of discoid platelets.

5 Biomechanical analyses show that this mechanism regulate

6 ssessed by gene expression, biochemical, and biomechanical analyses.

7 No prior biomechanical analysis has determined regional variation

8 Further biomechanical analysis of the RDT is required to fully d

9 ment of these cues, along with computational biomechanical analysis, we demonstrate the interrelated

10 eveloped an ex vivo technique to analyze the biomechanical and acoustic consequences of single-muscle

11 ts have diverse shapes that reveal important biomechanical and bio-rheological characteristics, e.g.

12 In this review we discuss the discrete biomechanical and biochemical mechanisms that underlie t

13 The biomechanical and ecophysiological properties of plant s

14 ESC differentiation led to modulation of the biomechanical and gene expression profiles, with the res

15 o animal studies have shown that MWCNT cause biomechanical and genetic alterations in the lung tissue

16 The aim of this study was to investigate biomechanical and immunogenic properties of spider silk

17 adaptions in sprinting mechanics due to the biomechanical and morphological differences induced by R

18 The biomechanical and neural processes underlying such senso

19 To identify biomechanical and topographic changes of the cornea duri

20 Biomechanical and topographic corneal properties were me

21 Significant differences in corneal biomechanical and topographic parameters were found duri

22 The neural, biomechanical, and environmental origins of these tuned

23 Taken together, our findings reveal a biomechanical answer to an old hematologic question rega

24 candidate for medical, micromechanical, and biomechanical applications.

25 Here, we merge a biomechanical approach, the Metabolic Theory of Ecology

26 ons, demonstrating the value of quantitative biomechanical approaches when evaluating form/function r

27 ast-feeding, and thereby, exploration of the biomechanical aspects of breast-feeding.

28 We review biomechanical aspects of the slime, along with recent ef

29 d myofibril and isolated contractile protein biomechanical assays allow study of activation and relax

30 Biomechanical assessment revealed a high predisposition

31 subarachnoid haemorrhage; (4) the use in the biomechanical assessments of spinal disease.

32 ls, so that they can be accounted for before biomechanical attributes from these simulations are used

33 nterest, the following review summarizes the biomechanical basis of current treatment strategies whil

34 thinned wall BRS displayed a more favorable biomechanical behavior and strut healing profile compare

35 We compared the biomechanical behavior and vascular healing profile of a

36 We aimed to evaluate the biomechanical behavior and vascular healing profile of a

37 used to provide comprehensive insights into biomechanical behavior of cardiomyocytes carrying the la

38 We tested the hypothesis that altered biomechanical behavior of Schlemm's canal (SC) cells con

39 the corneoscleral shell (CSS) determine the biomechanical behavior of the eye, and are important in

40 The biomechanical behavior of tissues under mechanical stimu

41 gnals to characterize putative indicators of biomechanical behavior, and 37 waveform parameters were

42 gnals to characterize putative indicators of biomechanical behavior.

43 ikosaurus andrewsi) from these clades, their biomechanical behaviours are notably different and diffi

44 significantly lower estimated failure load (biomechanical bone strength) at the distal tibia and rad

45 Predictions of skull biomechanical capability based on virtual models constit

46 The biomechanical capability of S. melilutra jaws as related

47 This characteristic biomechanical cell cycle response likely serves as a fun

48 and the Corvis ST (CST) measured the corneal biomechanical changes before and after the procedures.

49 lopment progresses through a complex path of biomechanical changes leading first to cell growth and c

50 Evaluating the corneal biomechanical changes using the Ocular Response Analyzer

51 mine direction- and region-dependent tensile biomechanical characteristics and regional fibrillar arr

52 nables formation of thin muscle strips whose biomechanical characteristics are easily measured and ma

53 whole-cell multiscale model to quantify the biomechanical characteristics of the healthy and disease

54 ate changes in bone mass, microarchitecture, biomechanical competence, and remodeling with dual energ

55 ultifactorial, with genetic, biological, and biomechanical components.

56 Biomechanical computational models have potential progno

57 redicted, illusory displacement increased as biomechanical constraints and angular disparity decrease

58 disparity decreased, providing evidence that biomechanical constraints are processed in multisensory

59 ultisensory integration, and importantly, if biomechanical constraints encoded in the body schema inf

60 sound-size correspondences or anatomical and biomechanical constraints on voice modulation.

61 modulation by implicit knowledge of the body biomechanical constraints were previously considered as

62 We predicted that these biomechanical constraints would influence illusion effec

63 stem from a combination of developmental and biomechanical constraints.

64 me wrist rotations are more difficult due to biomechanical constraints.

65 ex contractility is key to understanding the biomechanical control of cell morphogenesis.

66 ior with which to elucidate the dynamics and biomechanical control of epithelial tissue morphogenesis

67 Futhermore, correlations to biomechanical corneal properties and positional changes

68 Thus, this study identifies biomechanical coupling of the entire region of active sp

69 t that bypasses the lesion, probably through biomechanical coupling, to partly recover unassisted hin

70 sment of fracture risk were compared between biomechanical CT analysis and dual-energy x-ray absorpti

71 Retrospective biomechanical CT analysis of CT colonography for colorec

72 ineral density T scores at the femoral neck, biomechanical CT analysis was highly correlated (R(2) =

73 Blinded to the DXA data, biomechanical CT analysis was retrospectively applied to

74 ion of patients at high risk for fracture by biomechanical CT analysis--those with osteoporosis or "f

75 r constituents and initiates biochemical and biomechanical cues that are required for physiological a

76 the environment by sensing and responding to biomechanical cues.

77 transport from the interstitium according to biomechanical cues.

78 This feature is well suited to meet the biomechanical demands imposed on flexor muscles during d

79 advances in the study of animal flight, the biomechanical determinants of maneuverability are poorly

80 dian persons, and this disparity may reflect biomechanical differences of the cornea.

81 ially and temporally analyze biochemical and biomechanical drivers of angiogenesis in murine corneal

82 es not address, despite providing a positive biomechanical effect in the stroma.

83 this fatal cardiomyopathy, and show that the biomechanical effects of mutant lamin extend beyond nucl

84 pport the idea of SC cell stiffness--and its biomechanical effects on pore formation--as a therapeuti

85 ther application of low frequency US induces biomechanical effects that increase the vascular permeab

86 in the role of each of these biochemical and biomechanical effects, the understanding of the mechanis

87 ic surface ablation could induce a premature biomechanical elastic response rather than a progressive

88 lanket is designed to simultaneously convert biomechanical energy and perceive body movement.

89 l woven structure is developed for effective biomechanical energy harvesting and active motion signal

90 Harvesting biomechanical energy is an important route for providing

91 Human biomechanical energy is characterized by fluctuating amp

92 ile electronics exploiting exclusively human biomechanical energy, which consists of a high-output tr

93 nection types may influence the peri-implant biomechanical environment of implants in different clini

94 ly exposed in vivo to a dynamically changing biomechanical environment, we hypothesized that exogenou

95 fects support magnetic resonance imaging and biomechanical evidence that adduction imposes strain on

96 We investigated how work-related biomechanical exposure and job strain in midlife separat

97 be focused on reducing job strain along with biomechanical exposure for possible prevention of MSDs i

98 Biomechanical factors play a critical role in the onset

99 gy for treating FTR, considering the several biomechanical factors that alter proper functionality of

100 sis was used to examine MR imaging features, biomechanical factors, and metal ion levels as predictor

101 hear forces, is primarily attributed to this biomechanical feature of ETEC fimbriae.

102 These biomechanical features are essential for flight control

103 support vector machine classifier that uses biomechanical features from the time domain and frequenc

104 biosynthesis agreed with the biochemical and biomechanical features of cuticles isolated from transge

105 lutionary adaptation of their structural and biomechanical features.

106 d system that involves positive and negative biomechanical feedback between MyoII advection and disso

107 ical and electrophysiological map revealed a biomechanical filter process that considerably sharpens

108 e result of active motion as well as passive biomechanical filtering occurring before any neural proc

109 Whether biomechanical force on the heart can induce exosome secr

110 er mass of the embryo, yet it is unknown how biomechanical forces allocate inner cells in vivo.

111 ation and provides an essential link between biomechanical forces and endothelial cell identity that

112 During development, biomechanical forces contour the body and provide shape

113 ding thoracic aorta is designed to withstand biomechanical forces from pulsatile blood.

114 These data provide one mechanism by which biomechanical forces induced by blood flow modulate hema

115 Yet, the role of biomechanical forces on Mk biology and platelet biogenes

116 d engineering of specific MSC shapes through biomechanical forces represents a novel mechanobiology c

117 ional model that predicts neural activation, biomechanical forces, intracellular metabolic perturbati

118 Biomechanical forces, such as fluid shear stress, govern

119 the ascending aorta in response to increased biomechanical forces, thus defining an additional molecu

120 rgeted excretion of ligands, submicron-scale biomechanical forcing, and mobilization of Mg, Fe, Al, a

121 st year of life using longitudinal MRI and a biomechanical framework.

122 d to elucidate function based on an explicit biomechanical framework.

123 ghts into normal brain development through a biomechanical framework.

124 nsduction experiments and characterizing the biomechanical function of patient-derived cardiomyoctyes

125 This work provides novel insights into the biomechanical function of the endothelial barrier and su

126 fibrocartilage mineralization and decreased biomechanical function.

127 plants can be strongly correlated with their biomechanical functions.

128 and those motor pools that have synergistic biomechanical functions.

129 rabicum is associated with several anatomic, biomechanical, gene expression, and physiological differ

130 6 months post-STEMI) and the volunteers, and biomechanical heart models were synthesized for each sub

131 This reduced tension modulates a biomechanical Hippo pathway, decreasing recruitment of A

132 reatic stellate cells (PSCs) can perturb the biomechanical homoeostasis of the tumour microenvironmen

133 Here, we show three-dimensional biomechanical images of single cells obtained with non-i

134 in of decellularized vessels, issues such as biomechanical incompatibility, immunogenicity risks and

135 and diseased lungs, and the biochemical and biomechanical influences exerted by pathological matrix.

136 More recently, biomechanical inputs into neural tube morphogenesis have

137 hat modification of collagen compromises its biomechanical integrity and affects CatK-mediated degrad

138 Biomechanical integrity of endodontically treated teeth

139 ferred a lasting impact on bone geometry and biomechanical integrity of offspring at 4 mo of age, the

140 ysis while simultaneously characterizing the biomechanical interaction between the invading sprouts a

141 ected by environmental variables both at the biomechanical level and via adaptive sensory responses t

142 We propose that the hard pericarp with this biomechanical mechanism contributed to the global distri

143 ium didymum controls germination solely by a biomechanical mechanism.

144 ere, we review these cellular, molecular and biomechanical mechanisms involved in neural tube closure

145 ment strategies while defining how different biomechanical mechanisms lead to reduced fracture resist

146 However, the biomechanical mechanisms supporting vascular interaction

147 ment regimes, we must also consider specific biomechanical mechanisms that define how these molecular

148 The molecular and biomechanical mechanisms underlying collective migration

149 thereby allowing for novel insights into the biomechanical mechanisms underlying OAE generation.

150 ng of the relationship between molecular and biomechanical mechanisms, clinicians will be better equi

151 ld provide beneficial information for future biomechanical-mediated therapeutics.

152 s hypothesis has been challenged recently on biomechanical, metabolic, and biocultural grounds, so th

153 vements are poorly characterized by existing biomechanical metrics.

154 sed on kidney-shaped stomata and developed a biomechanical model of a guard cell pair.

155 d light on this paradox, we have developed a biomechanical model of the intact airway, accounting for

156 With a biomechanical model of the marmoset monkey vocal apparat

157 al data to create a multilayer computational biomechanical model of the organism and accurately deriv

158 In this study we show how a biomechanical model of tumor growth can be initialized a

159 nd this asymmetric behavior, we have built a biomechanical model to probe the response of stress fibe

160 a computational framework that combines a 3D biomechanical model with parameter optimization, we demo

161 Displays and sensor-technologies as well as biomechanical modeling and object-recognition algorithms

162 Biomechanical modeling may complement plaque imaging for

163 A low-dimensional biomechanical modeling of the whale's U-fold (vocal fold

164 A biomechanical modeling of the whisker is developed, whic

165 antitative tracking of acoustic changes, and biomechanical modeling, we showed that vocalizations in

166 sion tensor imaging, myocardial tagging, and biomechanical modeling.

167 A combination of computational biomechanical models (Finite Element Analysis, Multibody

168 erformance measures against ten extant otter biomechanical models.

169 nts by accounting for an individual's unique biomechanical needs.

170 rticle, we describe a particular biochemical-biomechanical network based on the microtubule cytoskele

171 es of MRI contrast mechanisms resulting from biomechanical or biochemical modulation of the eye non-i

172 ance imaging (MRI) can reveal the effects of biomechanical or biochemical modulation on CSS.

173 ions were found between relative changes and biomechanical or histologic parameters.

174 l variations in RDT properties or associated biomechanical outcomes with regional variations in colla

175 , we critically lack quantification of basic biomechanical parameters describing the vocal organ, the

176 sed bone volume fraction by 35% and enhanced biomechanical parameters of bone plasticity.

177 ectively, thereby establishing the essential biomechanical parameters used for vocalization.

178 se fossil record and challenges in inferring biomechanical patterns from isolated and fragmentary bon

179 n naive B cells, suggesting that specialized biomechanical patterns in B cell synapses regulate T cel

180 re are significant differences in mandibular biomechanical performance due to food categories and/or

181 tally study the developmental mechanisms and biomechanical performance of a remarkably divergent limb

182 e is a strong association between mandibular biomechanical performance, mandibular form, food hardnes

183 ty-based numerical model constrained only by biomechanical principles.

184 of applied forces and cellular responses for biomechanical probing and stimulation of cells.

185 g oneself into two parts poses a challenging biomechanical problem.

186 ses often require surgery, which may lead to biomechanical problems and accelerated degeneration of t

187 excellent model system with which to analyze biomechanical processes during morphogenesis.

188 r whether this nanotopography influences the biomechanical properties (i.e. cytoskeletal stiffness) o

189 ain exhaustive information on active/passive biomechanical properties across various morphological ti

190 The relationship between biomechanical properties and biological activities in ao

191 Unfortunately, current methods to measure biomechanical properties are invasive and mostly limited

192 Biomechanical properties as assessed by three point bent

193 wly formed trabecular bone displayed similar biomechanical properties as the native bone, and the don

194 ssues of metazoan species with many of their biomechanical properties as well as sequestering growth

195 phy imaging system for characterizing tissue biomechanical properties at microscale level and its tra

196 ting of the decellularized arteries improved biomechanical properties by increasing its tensile stren

197 ith admixtures of clinical IVFs affects sRBC biomechanical properties by leveraging novel in vitro mi

198 Flavonoids dramatically altered the cuticle biomechanical properties by stiffening the elastic and v

199 Corneal biomechanical properties can be measured now in the clin

200 imentally affecting tissues' biophysical and biomechanical properties due to an accumulation of advan

201 capability of the miniature probe to map the biomechanical properties in phantom and human cadaver ca

202 qualitative and quantitative measurements of biomechanical properties is desired.

203 Furthermore, the biomechanical properties of both cartilage and bone are

204 g microrheology was used to characterize the biomechanical properties of cardiac myocytes and fibrobl

205 For the first time to our knowledge biomechanical properties of cartilage derived from human

206 Current measurements of the biomechanical properties of cells require physical conta

207 whereby antibody-mediated disruption of the biomechanical properties of CS20 fimbriae impedes sustai

208 ric proanthocyanidins (OPACs) to enhance the biomechanical properties of dentin involves collagen cro

209 ng of compounds and conditions affecting the biomechanical properties of EB.

210 extravasation by controlling actin dynamics, biomechanical properties of endothelia, and signaling pa

211 l model to characterise the influence of the biomechanical properties of individual cell walls on the

212 vides a powerful tool for the exploration of biomechanical properties of other cytoskeletal and multi

213 trin-actin membrane skeleton to optimize the biomechanical properties of red blood cells (RBCs).

214 microneedle performance do not consider the biomechanical properties of skin or that of the subcutan

215 king, in addition to anatomical information, biomechanical properties of soft tissues may provide add

216 Whereas the biomechanical properties of tendons have been studied ex

217 nt work, we review the potential role of the biomechanical properties of the cornea in different fiel

218 allows real-time and in-situ readout of the biomechanical properties of the engineered lung microtis

219 The biomechanical properties of the extracellular matrix (EC

220 tigate the morphological characteristics and biomechanical properties of the oblique popliteal ligame

221 erties and architecture directly control the biomechanical properties of the RBC membrane.

222 issue constructs with matrix composition and biomechanical properties that promote rapid tissue repai

223 heterogeneity and led some cells to exhibit biomechanical properties that were more extreme than tho

224 rization revealed viscoelasticity and stable biomechanical properties under cyclic stretch with >99%

225 In all conditions, a wide range of biomechanical properties was identified.

226 refully observed, analyzed and measured; its biomechanical properties were investigated.

227 The quality of bone produced and its biomechanical properties were significantly enhanced in

228 method of measuring and quantifying corneal biomechanical properties will be a subject of further st

229 nd SMILE substantially decreased the corneal biomechanical properties with greater reduction in the L

230 hind the alterations in vascular remodeling, biomechanical properties, and aneurysm formation describ

231 This is likely to be the result of altered biomechanical properties, rather than increased bone min

232 abetes, and ethnicity are related to corneal biomechanical properties.

233 from tethers and provide insight into their biomechanical properties.

234 luence of nanotopography on the tumor cells' biomechanical properties.

235 hanics to include interference of whole-cell biomechanical properties.

236 being applied to the analysis of the corneal biomechanical properties.

237 ors for building foraging webs of remarkable biomechanical properties.

238 onemal growth and signaling and has distinct biomechanical properties.

239 ength of osseointegration, as evidenced by a biomechanical push-in test, was significantly improved b

240 The Floating Skeleton concept suggests a biomechanical rationale for this newly observed phenomen

241 ed replication plan of key experiments from 'Biomechanical remodeling of the microenvironment by stro

242 The physiological and biomechanical requirements of flight at high altitude ha

243 Here we examine the biomechanical responses of the chosen representative mem

244 l simulations to probe the alteration of the biomechanical, rheological, and dynamic behavior of T2DM

245 ndings, we hypothesized that TXNIP acts as a biomechanical sensor that regulates Src kinase activity

246 The semicircular canals are biomechanical sensors responsible for detecting and enco

247 In this article, we dissect the biomechanical sequence caused by a controlled compressiv

248 The leaf epidermis is a biomechanical shell that influences the size and shape o

249 a privileged location for the regulation of biomechanical signaling.

250 esent a new approach and a set of associated biomechanical signatures that are based purely on measur

251 wallowing and speech movements, and provides biomechanical simulation results to supplement neurologi

252 histological and biochemical methods and by biomechanical stability tests.

253 that galectins could augment lubrication via biomechanical stabilization of the lubricin boundary lay

254 provide quantitative insights into different biomechanical states for mechanotransduction, including

255 A reliable tool for quantification of the biomechanical status of the cornea in conjunction with c

256 or sorting cells on a biophysical basis, the biomechanical stemness markers presented here may enable

257 dalotuzumab, highlighting the importance of biomechanical stimulation on ES-acquired drug resistance

258 Nevertheless, these systems often overlook biomechanical stimulation, another fundamental driver of

259 d cardiomyocytes and induced maturation with biomechanical stimulation.

260 er, beta-AR maturation can be accelerated by biomechanical stimulation.

261 ex non-linear processes relying on sustained biomechanical stimulation.

262 In response to biochemical and biomechanical stimuli, atherosclerotic lesion formation

263 However, the biomechanical strategies for different plant species to

264 creening tools that improve early diagnosis; biomechanical strategies that improve symptoms; mechanis

265 P3 MSC sheet-grafted femurs had the highest biomechanical strength in the three groups.

266 Finally, increased bone biomechanical strength of Col1a2(oim/+) offspring that h

267 Although the total biomechanical strength of lumbar vertebrae was reduced b

268 reases fracture callus volume, diameter, and biomechanical strength.

269 not exhibit a baseline phenotype, increased biomechanical stress due to pressure overload led to acc

270 bnormal stretch during respiration, and this biomechanical stress likely influences emphysema initiat

271 Underdeveloped left ventricle exerts biomechanical stress on the right ventricle that can pro

272 required for proper adaptation to increased biomechanical stress.

273 h develops cardiomyopathy and fibrosis after biomechanical stress.

274 deficient hearts confers resistance to acute biomechanical stress.

275 ttn mutants but either became susceptible to biomechanical stresses such as contraction or degenerate

276 Hydra is a powerful system for quantitative biomechanical studies of cell and tissue behaviors in vi

277 Biomechanical studies revealed that lysine acetylation s

278 ity metric expands the scope of quantitative biomechanical studies to include non-steady-state locomo

279 lts from neurophysiological, oculometric and biomechanical studies.

280 tanding form-function relationships in other biomechanical subsystems, wherein complex hierarchical o

281 ding the form-function relationship in other biomechanical subsystems.

282 patterns we describe offer insight into the biomechanical success of an ecologically important and w

283 ugar transport, photosynthetic function, and biomechanical support.

284 ency to the natural frequency of the passive biomechanical system (i.e., resonance tuning), muscle-te

285 passive natural frequency of the underlying biomechanical system yielded maximal forces and fraction

286 Collectively, it represents a prototypical biomechanical system, where the complex hierarchical arc

287 that these associations can be studied using biomechanical techniques rather than focusing solely on

288 Biomechanical testing (unconfined compression) and histo

289 Biomechanical testing confirmed that P3 MSC sheet-grafte

290 METHODS AND In vitro biomechanical testing showed no fractures in the AMA-BRS

291 tify aortic morphometry and composition, and biomechanical testing was performed to determine the str

292 In vitro biomechanical testing was performed under static and cyc

293 Biomechanical testing was utilized to evaluate matrix te

294 o probe the degree of molecular order during biomechanical testing, independently of the absolute ori

295 ebral bodies was determined from destructive biomechanical tests.

296 insect ear (Mecopoda elongata) to relate the biomechanical tonotopy along the hearing organ to the fr

297 yte membrane organization that underpin this biomechanical transformation.

298 ionary and ecologically significant contexts.Biomechanical understanding of animal gait and maneuvera

299 the LC strain relief (P > 0.05), suggesting biomechanical variability across subjects.

300 posure matrix may be useful for the study of biomechanical workplace risk factors when individual-lev