ライフサイエンスコーパス: biomechanical

1 Nonetheless, the biomechanical ability to comminute harder items, if requ

2 ulator of cardiac myosin, targets underlying biomechanical abnormalities in obstructive hypertrophic

3 The only refractive, topographic, or biomechanical abnormality associated with PPPCD was a si

4 es neural fold separation, demonstrating its biomechanical activity.

5 These findings reveal a biomechanical adaptation of melanoma cells to oncogenic

6 the hypothesis that the syrinx constitutes a biomechanical advantage for sound production over the la

7 bral arch, and spinous process, which causes biomechanical alterations around the isthmic region of L

8 Structural and biomechanical alterations of the cornea were screened.

9 Biomechanical alterations to the tumor microenvironment

10 The results of our biomechanical analyses (finite element analysis [FEA]) i

11 However, previous biomechanical analyses have not accounted for phylogenet

12 ete aerobic energy expenditure and performed biomechanical analyses, which included the use of ultras

13 tudies, with real-time drug-based assays and biomechanical analyses.

14 Biomechanical analysis and simulation modeling further s

15 No prior biomechanical analysis has determined regional variation

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

17 clinical features, topographic features, and biomechanical and aberrometric characteristics in pediat

18 The biomechanical and adaptive significance of variation in

19 ed "ghost tracks" comprise a rich archive of biomechanical and behavioral data that remains mostly un

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

21 acuity, corneal topography, aberrometry, and biomechanical and confocal microscopy findings.

22 The biomechanical and ecophysiological properties of plant s

23 posed MfBA is an effective tool to integrate biomechanical and electrophysiology metrics, synchronize

24 cular mechanisms in response to pro-survival biomechanical and growth factor signals from the fibroti

25 iferation and matrix synthesis downstream of biomechanical and growth factor signals.

26 Here, we explore the biomechanical and histologic consequences of aging in bl

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

28 s is difficult due to the often co-occurring biomechanical and neural deficits.

29 These hierarchies build upon biomechanical and neural dynamics across various timesca

30 if it is energetically optimal under certain biomechanical and neurological constraints of the locomo

31 In this way, we show the evidence that biomechanical and surface biochemical properties of cell

32 this idea has been challenged on anatomical, biomechanical and taphonomic grounds, and remains contro

33 To identify biomechanical and topographic changes of the cornea duri

34 Biomechanical and topographic corneal properties were me

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

36 candidate for medical, micromechanical, and biomechanical applications.

37 Importantly, by combining computational and biomechanical approaches, we show that reward leads to b

38 Biomechanical assessment revealed a high predisposition

39 the cornea with keratoconus progression and biomechanical asymmetry between the left and right eyes

40 rce to uncover links between the genetic and biomechanical bases of plant growth.

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

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

43 ticles that mimics functional properties and biomechanical behavior of cartilage.

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

45 The biomechanical capability of S. melilutra jaws as related

46 n the tumor stroma are major contributors to biomechanical changes (e., tumor stiffness) and correlat

47 Corneal biomechanical changes correlated well with stage of KC i

48 Biomechanical changes in the tumor microenvironment infl

49 However, measuring biomechanical changes in vivo with sufficient sensitivit

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

51 tumors is well characterized, while earlier biomechanical changes occurring during avascular tumor g

52 Here, we measured biomechanical changes that accompany skeletal muscle reg

53 gnals are integrated and transduced into the biomechanical changes that drive embryo growth remains p

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

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

56 the systematic changes in morphological and biomechanical characteristics of healthy human red blood

57 This is the first point-wise biomechanical characterization of such complex, heteroge

58 e measurement, we herein report a systematic biomechanical characterization of the MSD in its native,

59 Here, we use multivariate analysis of biomechanical characters, within a robust phylogenetic c

60 Biomechanical computational models have potential progno

61 aches to vocal development, where exploiting biomechanical consequences of changing material properti

62 Despite this, no studies have quantified the biomechanical consequences of flying in a cluster flock

63 a, to our knowledge, new structurally based biomechanical constitutive equation built on parameters

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

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

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

67 We predicted that these biomechanical constraints would influence illusion effec

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

69 The wood hemicelluloses exhibit distinct biomechanical contributions, with glucomannans increasin

70 and provides a genetic entry point into the biomechanical control of tree allometry.

71 Futhermore, correlations to biomechanical corneal properties and positional changes

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

73 al forces, and thus they mediate part of the biomechanical coupling that takes place between these ce

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

75 ample, contractility and blood flow generate biomechanical cues that influence patterns of cell behav

76 Biomechanical cues within tissue microenvironments are c

77 Because integrins respond to biomechanical cues, we used a gene editing approach to d

78 e homeostasis in response to biochemical and biomechanical cues-such as increased wall stress in hype

79 leading edge in response to biochemical and biomechanical cues.

80 transport from the interstitium according to biomechanical cues.

81 the environment by sensing and responding to biomechanical cues.

82 ys without alteration of external soluble or biomechanical cues.

83 vascular grafts under the right chemical and biomechanical cues.

84 Biaxial testing permits the acquisition of biomechanical data from two axes simultaneously, and thu

85 Here we gathered morphometric and biomechanical data on the presacral vertebrae of two ext

86 taneously record and process a wide range of biomechanical data to produce muscle stimulation which e

87 cardial force production represents an early biomechanical defect associated with sarcomeric cardiomy

88 Combined biochemical and biomechanical degradation is found near the free surface

89 , and also predisposes cartilage for further biomechanical degradation.

90 ing human evolution, the knee adapted to the biomechanical demands of bipedalism by altering chondroc

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

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

93 or a specific bifurcation, as their combined biomechanical effect may play an important role in stent

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

95 Thus, it is highly desirable to harvest biomechanical energies from human motion for self-powere

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

97 able medical electronic devices that harvest biomechanical energy from cardiac motion, respiratory mo

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

99 andidates to achieve this goal by converting biomechanical energy to electric energy.

100 iles according to their abilities to harvest biomechanical energy, body heat energy, biochemical ener

101 Herein, a biomechanical-energy-powered triboelectric nanogenerator

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

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

104 rols germination for which we provide direct biomechanical evidence.

105 play lower stress values, hence supporting a biomechanical explanation for the fusion as a functional

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

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

108 follow the direction of the flow, the first biomechanical factor capable of helminth guidance within

109 enomenon wherein a myriad of biochemical and biomechanical factors regulate myocardial growth through

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

111 for the development of unobtrusive, wearable biomechanical feedback systems and human-computer interf

112 ly sensitive technique to measure organismal biomechanical fitness and delivers an approach to screen

113 s with knee pain from osteoarthritis, use of biomechanical footwear compared with control footwear re

114 ain subscore improved from 4.3 to 1.3 in the biomechanical footwear group and from 4.0 to 2.6 in the

115 Three serious adverse events occurred in the biomechanical footwear group compared with 9 in the cont

116 Participants were randomized to biomechanical footwear involving shoes with individually

117 Individually calibrated biomechanical footwear therapy may improve pain and phys

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

119 n cells, however, MTs are exposed to various biomechanical forces that might impact on their orientat

120 viscoelastic add-on components in decreasing biomechanical forces within the brain during helmeted he

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

122 ghts into normal brain development through a biomechanical framework.

123 ve understanding of the relationship between biomechanical function and tissue organization in cardia

124 ations of muscles to be appropriate to their biomechanical function and to adapt to the environmental

125 Here we propose a novel biomechanical function for the PTS and model the talus a

126 r, and a loss of USL structural integrity or biomechanical function may induce pelvic organ prolapse

127 impaired extracellular matrix production and biomechanical function of aged tissues, with potential i

128 lar matrix (ECM) structure, composition, and biomechanical function of the furcation and the collar r

129 Pulmonary neutrophil infiltration, biomechanical function, and responses to influenza infec

130 orsal forearm, significant impairment of all biomechanical functions was identified, with complete fl

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

132 6 months post-STEMI) and the volunteers, and biomechanical heart models were synthesized for each sub

133 The impaired biomechanical, histological and molecular properties may

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

135 nergistic interactions between pathological, biomechanical, inflammatory, and lipid metabolic factors

136 The Brillouin data in vivo reveal increasing biomechanical inhomogeneity in the cornea with keratocon

137 More recently, biomechanical inputs into neural tube morphogenesis have

138 Biomechanical integrity of endodontically treated teeth

139 CM) proteins that support the structural and biomechanical integrity of many tissues.

140 roles of wood xylans and glucomannans in the biomechanical integrity of secondary cell walls in tensi

141 articular cartilage attributed to postnatal biomechanical loading.

142 ur in PTOA: tissue inflammation and abnormal biomechanical loading.

143 Recent in vitro biomechanical measurements found increased oligomer leve

144 te the relationship between conformation and biomechanical measures in 60 GSDs.

145 ophysiological impact of these treatments on biomechanical measures of shoulder stiffness and ultraso

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

147 ium didymum controls germination solely by a biomechanical mechanism.

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

149 reate complex cell surface topographies, but biomechanical mechanisms regulating their formation and

150 However, the biomechanical mechanisms supporting vascular interaction

151 cept mobile prey, and coordinated neural and biomechanical mechanisms that animals use to avoid impen

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

153 tral regulator of atherosclerosis that links biomechanical, metabolic, and inflammatory pathways inde

154 vements are poorly characterized by existing biomechanical metrics.

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

156 tomy that incorporates a biphasic, nonlinear biomechanical model of the brain.

157 With a biomechanical model of the marmoset monkey vocal apparat

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

159 A biomechanical model suggested that contraction reduces s

160 In addition, a novel computational biomechanical model was generated to simulate the nuclea

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

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

163 Biomechanical modeling may complement plaque imaging for

164 Biomechanical modeling suggested that this tuning differ

165 sing on important limitations of widely used biomechanical models, which underpin the urge to adopt t

166 with MR elastography and utilising nonlinear biomechanical models.

167 erformance measures against ten extant otter biomechanical models.

168 Biological or biomechanical modulation of these MSCs may be a new stra

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

170 the arterial lumen, a mechanism revealed by biomechanical observations and confirmed by computationa

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

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

173 hase of these muscles-which determines their biomechanical output [4-6]-arises via feedback from mech

174 In conclusion, several biomechanical parameters are affected by the GSD's slope

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

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

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

178 s for both the costs of reproduction and the biomechanical performance of flowers, particularly durin

179 To quantify the variation in talon shape and biomechanical performance within a phylogenetic framewor

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

181 s have comparable hemodynamics but differ in biomechanical performance, with the straight graft most

182 a from nonpatterned monolayers suggests that biomechanical perturbations far away from monolayer edge

183 te the contribution of collagen to the tumor biomechanical phenotype and to evaluate its sensitivity

184 appearance is the result of a combination of biomechanical, physiological and social influences.

185 The present study systematically integrates biomechanical principles with the anatomical and morphol

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

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

188 ushin investigates the structural biology of biomechanical processes in the cytoskeleton.

189 iving systems and is the foundation for many biomechanical processes.

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

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

192 ation preserves native left ventricular (LV) biomechanical properties after MI.

193 ed injury-induced loss of elastic fibers and biomechanical properties after parturition, and reduced

194 Si scaffolds is beneficial for enhancing the biomechanical properties and bone repair efficacy.

195 ve of this study was to quantify the biaxial biomechanical properties and histological composition of

196 elopment, wound healing, and pathology, cell biomechanical properties are increasingly recognized as

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

198 atal mice, regenerated LV muscle has similar biomechanical properties as native LV myocardium.

199 AFM) to quantitatively measure the change in biomechanical properties associated with ageing Caenorha

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

201 udy was to compare the postoperative corneal biomechanical properties between small incision lenticul

202 imilar to aging and compression, reduced the biomechanical properties by 45-70%, and reduced the tran

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

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

205 To evaluate corneal biomechanical properties by the Ocular Response Analyzer

206 old exhibiting (1) high tensile strength and biomechanical properties comparable to those of the nati

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

208 qualitative and quantitative measurements of biomechanical properties is desired.

209 ed to possess the appropriate biological and biomechanical properties necessary for the successful re

210 use of a digital tonometer to understand the biomechanical properties of epilepsy tissue and to guide

211 Thereby, the biomechanical properties of individual samples could be

212 we study a relation between the surface and biomechanical properties of melanoma cells, measured by

213 rate, in real-time, electrophysiological and biomechanical properties of rodent spinal sensorimotor n

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 ctor are parameters that reflect the dynamic biomechanical properties of the cornea and have been sho

218 Biomechanical properties of the cornea were investigated

219 Moreover, MCPs also reorganize the biomechanical properties of the ECM to accommodate metas

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

221 collagen 1/collagen 3 ratio compromising the biomechanical properties of the repaired skin.

222 hat Grhl2 plays a crucial role in regulating biomechanical properties of the surface ectoderm that ar

223 le much is understood about the adhesive and biomechanical properties of the threads of other hunters

224 Using this model, we then interrogated the biomechanical properties of the trabecular meshwork (TM)

225 ed to satisfy both the unique biological and biomechanical properties of these tissues.

226 The biomechanical properties of tissues are sensed and respo

227 Techniques capturing biomechanical properties of tissues on a nano-scale leve

228 Mounting evidence connects the biomechanical properties of tissues to the development o

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

230 nent of the extracellular matrix and provide biomechanical properties to connective tissues.

231 nterest in accurately characterising corneal biomechanical properties under intraocular pressure (IOP

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

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

234 structural IVD degeneration, but functional biomechanical properties were similar to sham.

235 esponse analyzer was used to measure corneal biomechanical properties, including corneal resistance f

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

237 features including cellular compositions and biomechanical properties, which were measured at the sin

238 y mediators, increased by LPS, altering also biomechanical properties.

239 r, driving increased collagen deposition and biomechanical properties.

240 astic networks that give cells' their unique biomechanical properties.

241 g in increased matrix deposition and altered biomechanical properties.

242 onemal growth and signaling and has distinct biomechanical properties.

243 a key role of noncellulosic polymers in the biomechanical regulation of cell morphogenesis.

244 plicate selected experiments from the paper 'Biomechanical remodeling of the microenvironment by stro

245 Biochemical and biomechanical resistance were significantly increased af

246 combined with tailored stiffness and tunable biomechanical response are key requirements for developi

247 multiphase mixture model that describes the biomechanical response of healthy brain tissue-in terms

248 SB for the treatment of RRD affects corneal biomechanical response, likely due to a less compliant s

249 me has only a minimal role in this conserved biomechanical response.

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

251 l responsive) or the collagen receptor DDR2 (biomechanical responsive) abrogated polarization of lead

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

253 that mitochondria have both biochemical and biomechanical roles in skeletal muscle and that mitochon

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

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

256 Pathological biomechanical signaling induces vascular anomalies inclu

257 This leads to biomechanical signaling involving VE-cadherin, triggerin

258 a privileged location for the regulation of biomechanical signaling.

259 works depends on the integration of multiple biomechanical signals by endothelial cells, the cells li

260 Biomechanical signals from the tissue microenvironment a

261 x and cell interior, sensing and transducing biomechanical signals into a cellular response.

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

263 Using biomechanical simulations and observational data from hu

264 Biomechanical simulations with equations for calculating

265 body and its ambient environment, including biomechanical, solar, thermal and biochemical energy, so

266 bridization chain reaction laddering at both biomechanical stability and stoichiometric congruency.

267 on for understanding flow-induced changes in biomechanical state and global conformation of macromole

268 troscopy adds clinical information about the biomechanical state of the cornea perpendicular to the s

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

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

271 In terms of preserving corneal biomechanical strength after surgeries, SMILE was superi

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

273 alve interstitial cells (VICs), which confer biomechanical strength to the cardiac valve leaflets.

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

275 n initial aberrant innate immune response to biomechanical stress or injury, with subsequent adaptive

276 gth, or to explain expression in cells under biomechanical stress.

277 deficient hearts confers resistance to acute biomechanical stress.

278 report the first phase-specific analysis of biomechanical, structural, and compositional changes see

279 a subset of side branches are inadequate for biomechanical studies as they may overestimate volumetri

280 pette aspiration has enabled a wide range of biomechanical studies in the field of cell mechanics.

281 pens future potential for more sophisticated biomechanical studies on the footprints of other extinct

282 rs) in interregional cortical thickness, and biomechanical studies predict an influence of cortical t

283 ed between some herbivorous dinosaur clades, biomechanical studies resolve significant differences be

284 y physiology can improve overall fidelity of biomechanical studies to compute hemodynamic risk-factor

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

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

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

288 We combined innovative biomechanical techniques, tissue ablation, microscopy, t

289 ineages through biochemical, biological, and biomechanical techniques.

290 Biomechanical testing (unconfined compression) and histo

291 using a combination of immunohistochemistry, biomechanical testing and structural imaging.

292 Biomechanical testing confirmed that P3 MSC sheet-grafte

293 ive day 15) for histological examination and biomechanical testing of scar tissue.

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

295 In Set 3, biomechanical testing was performed in the eye pairs (tr

296 ologic IVD height, histological grading, and biomechanical testing.

297 demonstrates the importance of anisotropy on biomechanical tissue strength to guide future cartilage

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

299 model-based approach also estimated several biomechanical variables in a full feed-forward manner th

300 We detected locations of biomechanical weathering, secondary mineral precipitatio