ライフサイエンスコーパス: inspiration

1 uidics", with emphasis on the thought of bio-inspiration.

2 a maximum deflection following the onset of inspiration.

3 upward toward the head in response to forced inspiration.

4 urons of the preBotzinger complex that paces inspiration.

5 excitation actually generates fast modes of inspiration.

6 trinsically linked to the generation of post-inspiration.

7 y increasing sigh frequency and the depth of inspiration.

8 nger complex network (preBotC) that controls inspiration.

9 of nonaerated tissue between expiration and inspiration.

10 otostimulation delayed the onset of the next inspiration.

11 ot forced to rerecruit during the subsequent inspiration.

12 ibition shortened the latency until the next inspiration.

13 cans were acquired at end expiration and end inspiration.

14 plug propagates through the tree from forced inspiration.

15 served significant CSF flow exclusively with inspiration.

16 onal systems, has long looked to biology for inspiration.

17 ng maximum sensitivity of the device or full inspiration.

18 diaphragm was the only muscle active during inspiration.

19 ateral portions of the lower rib cage during inspiration.

20 alyzed off-line, at three time points during inspiration.

21 Pmusc/Eadi index decreased during the inspiration.

22 ic cardioinhibitory neurons in the NA during inspiration.

23 rhythm, indicating strong coupling of AE to inspiration.

24 creasingly cross disciplinary boundaries for inspiration.

25 stood, is discussed as a potential source of inspiration.

26 the central respiratory network to terminate inspiration.

27 ght ventricle in both end-expiration and end-inspiration.

28 tions equivalent to tidal breathing and deep inspirations.

29 resetting of the whisk cycle at the onset of inspiration [15, 16, 18], reveal that the onset of each

30 ported as percentage of total frame area) at inspiration (39.9%-42.2%) and expiration (35.9%-38.7%) s

31 (50%-75%) resulted in alveolar occupancy at inspiration (46.7%-47.9%) and expiration (40.2%-46.6%) s

32 38.7%) similar to that in the control group (inspiration 53.3%; expiration 50.3%; P > .01).

33 Abolition of post-inspiration, achieved by inhibition of the pontine Kolli

34 lowing ingestion and up to 21 days following inspiration across the gill, with uptake significantly h

35 us maenas) can take up microplastics through inspiration across the gills as well as ingestion of pre

36 rized gas breaths to the subject; after each inspiration, an image was acquired during a short breath

37 Central post-I activity terminates inspiration and activates laryngeal motoneurons.

38 rogressing to apnea, i.e., cessation of both inspiration and active expiration.

39 oxygen partial pressure can increase during inspiration and decrease during expiration in the presen

40 Notably, oscillatory power peaked during inspiration and dissipated when breathing was diverted f

41 Results Left and right lung volumes at end inspiration and end expiration increased substantially a

42 Alveolar perimeters were measured at peak inspiration and end expiration using digital image analy

43 monary dysplasia were reconstructed into end-inspiration and end-expiration images.

44 ) demonstrated dynamic heterogeneity between inspiration and expiration (P < .01 for both) with a gre

45 Dynamic alveolar homogeneity between inspiration and expiration occurred with higher PEEP (16

46 g computed tomography (CT) scans acquired at inspiration and expiration of 194 individuals with COPD

47 onal variables extracted from the respective inspiration and expiration scans of 248 asthmatic patien

48 it is widely thought that inhibition between inspiration and expiration simply prevents activity in t

49 We show how selective control of inspiration and expiration times can be achieved in a ne

50 uences of the lungs were acquired after full inspiration and expiration with a 3.0-T unit.

51 nal residual capacity plus 1 L), CT (at full inspiration and expiration), and spirometry or plethysmo

52 The mean lung parenchyma density values on inspiration and expiration, visual HRCT scores, and pulm

53 as bullvalene have been a valuable source of inspiration and fundamental insight into the nature of c

54 rnal mortality between 2000 and 2010 provide inspiration and guidance on how to accomplish the accele

55 ries with accelerated progress, that provide inspiration and guidance on how to increase the use of f

56 mediators of the opioid-induced loss of post-inspiration and induction of apneusis.

57 etal-halide chains and may therefore provide inspiration and new design strategies for the synthesis

58 was calculated from acquired data in normal inspiration and normal expiration.

59 Despite their biological inspiration and performance achievements, these systems

60 (IRt) neurons are rhythmically active during inspiration and project to the hypoglossal (XII) nucleus

61 d respiratory systems, with implications for inspiration and sighs throughout life, and the ability t

62 : the preBotzinger Complex (preBotC) driving inspiration and the lateral parafacial region (pFL) driv

63 rea (KF) drives post-inspiration, suppresses inspiration, and can reset the respiratory oscillator ph

64 diaphragm was the only muscle active during inspiration, and the displacements of the lower ribs alo

65 tificial nose-active sniffing and continuous inspiration-and demonstrated an increase in odorant dete

66 re-Botzinger Complex (preBotC), which drives inspiration; and the lateral parafacial region (pFRG), w

67 showed efferent activity that peaked in post-inspiration, approximately 0.5 s before the cyclic minim

68 ons corresponding to rhythmic expiration and inspiration are modulated by slow periodic oscillations.

69 as well as why, in people with asthma, deep inspirations are less effective in reversing bronchocons

70 The present results unambiguously identify inspiration as the most important driving force for CSF

71 In spite of many inspirations being available in biology, there are virtu

72 pare the accuracy of a single 20-second deep-inspiration breath hold (DIBH) in fluorodeoxyglucose (FD

73 d excitatory post-synaptic potentials during inspiration, but also have spontaneous firing in the abs

74 Inspiration by a biological sense of taste has become a

75 nal output from this region is reset at each inspiration by direct input from the pre-Botzinger compl

76 ve their design, and to reduce overall cost, inspiration can be derived from nature on multiple level

77 Inspiration can be derived from nature, which is full of

78 he was a superb undergraduate teacher whose inspiration changed the career paths of many students.

79 cent collapse of the inferior vena cava with inspiration (collapsibility index) by ultrasound.

80 d peak flow in the inferior vena cava in end inspiration compared with end expiration, and the opposi

81 The role of breathing and deep inspirations (DI) in modulating airway hyperresponsivene

82 onstriction in humans in the absence of deep inspirations (DIs).

83 tracking, such as the depth, expiration and inspiration distribution, correlated (p < 0.05, correlat

84 in robust apneusis (lengthened low amplitude inspiration due to loss of post-inspiratory drive) that

85 tory cycles consisted of a deep standardized inspiration followed by passive exhalation.

86 traction methods for membrane proteins as an inspiration for a food-grade alternative process.

87 ith remarkable properties therefore provides inspiration for a novel approach to the design and synth

88 electrolytes, and additives can serve as an inspiration for achieving practically scalable reductive

89 chieved by foraging insects and may serve as inspiration for agent-based machine learning.

90 Evolution has provided a source of inspiration for algorithm designers since the birth of c

91 science over the decades and should serve as inspiration for all surgeons and surgical investigators.

92 n organometallic Lewis base, may provide new inspiration for biomimetic H2 activation.

93 levance either as direct components or as an inspiration for biomimetic materials.

94 ality or crystallographic texture, providing inspiration for biomimetic replication strategies for sy

95 o their chemical complexity, are a source of inspiration for chemists in the field of total synthesis

96 Such natural machines are a great source of inspiration for creation of their synthetic analogues.

97 how natural products continue to provide the inspiration for critical advances in chemical synthesis.

98 des have traditionally been a rich source of inspiration for design of potent histone deacetylase (HD

99 microscopic cellular structure) offer unique inspiration for designing and manufacturing advanced bio

100 -adapted properties that provide a source of inspiration for designing new materials to meet the requ

101 lticomponent reactions are still a source of inspiration for discovering novel combinations of three

102 ovides an avenue for ongoing work as well as inspiration for expansion of the resource-rational appro

103 her with mechanistic insights should provide inspiration for expansion to other anionic metal salts a

104 Biology is an abundant source of inspiration for functional materials and systems that mi

105 es for targeted cancer therapies and provide inspiration for further advances in total synthesis and

106 he new science of the mind might serve as an inspiration for further exploration.

107 anocatalytic umpolung and should serve as an inspiration for further progress in this field.

108 of mechanisms of allostery and serves as an inspiration for future design of synthetic protein switc

109 -controlled chemodivergence, aims to provide inspiration for future discoveries in the field and to c

110 t ghrelin action on feeding behavior, and as inspiration for future studies to provide an even-more-d

111 In addition, our study provides inspiration for low-energy routes to novel synthetic pol

112 mineralization, which serves as an important inspiration for materials chemists in the quest for new

113 Nature is a constant source of inspiration for materials scientists, fueling the dream

114 Inspiration for molecular design and construction can be

115 e ocean and their intricate morphology is an inspiration for nanoengineering.

116 thods for chemical synthesis and provides an inspiration for new reaction development.

117 Many enzymes--often the inspiration for new synthetic transformations--are capab

118 enesis and cartilage repair and may serve as inspiration for novel cell-based therapies for skeletal

119 for more than half a century as a source of inspiration for perception and control.

120 ropical fruit Margaritaria nobilis serves as inspiration for photonic fibers with mechanically tunabl

121 d or sloppy science, they should serve as an inspiration for pioneering research not just to develop

122 hor welcomes these findings as a much needed inspiration for reflections on the current state of psyc

123 urce of behavioural data, which can serve as inspiration for RL tasks and curricula.

124 s to maintain flight control, as well as bio-inspiration for simple yet effective control strategies

125 This makes them a great source of inspiration for soft robotics.

126 n the development of techniques and provided inspiration for starting my own laboratory at Purdue Uni

127 The capture of biotin by streptavidin is an inspiration for supramolecular chemistry and a central t

128 natural photosynthetic pathways can provide inspiration for sustainable fuel production and insights

129 metal-organic capsules, for example offering inspiration for tackling metals exhibiting high valence

130 The mussel byssus has long been a source of inspiration for the adhesion community.

131 hells, and marine bioadhesives are providing inspiration for the assembly of synthetic molecules into

132 of order and provides an important source of inspiration for the creation of synthetic functional mat

133 These structures provide inspiration for the de novo design of biomimetic assembl

134 ructural composites found in biology provide inspiration for the design of advanced synthetic materia

135 onventional views of mate choice, and offers inspiration for the design of miniature, multifrequency,

136 f molecular systems for CO2 reduction and an inspiration for the design of related non-polypyridyl ca

137 This attachment mechanism may also provide inspiration for the design of robotic grippers.

138 xt, nature can serve not only as a source of inspiration for the design of such novel optical structu

139 ve site of hydrogenases has been a source of inspiration for the development of molecular catalysts.

140 and with high energy efficiencies, providing inspiration for the development of molecular catalysts.

141 Nature is a great source of inspiration for the development of solutions for biomedi

142 scaffolds of the akuammilines have provided inspiration for the discovery and implementation of inno

143 cycle and, more specifically, rhythmic nasal inspiration for the entrainment of slow oscillations in

144 Cockroach exoskeletons provided biological inspiration for the manufacture of an origami-style, sof

145 he truck-based transport system provides the inspiration for the next generation of intricate nanodev

146 f appendage evolution and provide biological inspiration for the next generation of manoeuvrable sear

147 ons in conductive MOFs and provide potential inspiration for the synthesis of other two-dimensional m

148 s a foundation for exploring MT chemistry as inspiration for therapeutic approaches.

149 While the inspiration for this model came from malaria parasites,

150 ed natural functional monomers, provided the inspiration for this work.

151 an ever-expanding world of medicines and an inspiration for those involved in pharmaceutical R&D.

152 inue to be our most rewarding source of, and inspiration for, new medicines.

153 ials in electronic devices and will serve as inspirations for smart designs in flexible electronics.

154 This work should provide new inspirations for the design of innovative adaptative mat

155 Islamic glassmaking in Spain evidently drew inspiration from adjacent high-temperature technologies.

156 These material developments draw inspiration from advanced energy management found in nat

157 Drawing inspiration from advances in paleogenomics, we have appl

158 Drawing inspiration from biological O(2) carriers, we demonstrat

159 By drawing inspiration from biological signaling dynamics, we show

160 Here, by taking inspiration from claws and scales found in nature, we sh

161 This setup takes inspiration from desorption electrospray ionization (DES

162 ation tool for limbed soft robots that draws inspiration from discrete differential geometry based si

163 growing chemical research that takes direct inspiration from diverse covalent bonds existing between

164 ered from first principles, including taking inspiration from enzymatic systems, and gaps in fundamen

165 Here, the authors derive inspiration from fish scales to create mutable surfaces

166 Drawing inspiration from general circuit theory and magnetic bub

167 and running in a new country, a mother gets inspiration from her young daughter.

168 Artificial intelligence algorithms seek inspiration from human cognitive systems in areas where

169 Here, by taking inspiration from kirigami-the Japanese art of paper cutt

170 In this Review, we draw inspiration from living cells to argue that it is now ti

171 of artificial molecular machines often takes inspiration from macroscopic machines.

172 odern approaches to drug delivery have taken inspiration from natural activatable materials like zymo

173 food chains into human food systems, drawing inspiration from natural ecosystems, the history of sing

174 Meanwhile, protein knockdown tools that draw inspiration from natural regulatory mechanisms and facil

175 Inspiration from natural structures exhibiting anisotrop

176 We borrow inspiration from natural systems which use SR to detect

177 The field of bionanotechnology draws inspiration from nature by utilizing biomolecular buildi

178 Here, we took inspiration from Nature to optimize materials surface to

179 To overcome this challenge, we took inspiration from nature's ability to temporally control

180 Inspiration from Nature's methylating agent, S-adenosylm

181 With inspiration from nature, artificial composite materials

182 Taking inspiration from nature, researchers have recently devot

183 Taking inspiration from nature, we developed a DNA-RNA nanotube

184 gh rational design, optimization, and taking inspiration from nature.

185 Thus, inspiration from neural network formation suggests effec

186 Drawing inspiration from open-source prototyping systems, like t

187 Taking inspiration from patterns observed in nature and from so

188 and rigid macrocycles that have drawn their inspiration from Pedersen's ground-breaking discovery of

189 to take advantage of these features, drawing inspiration from pioneering research in molecular recogn

190 igh-value ion-conducting vitrimers that take inspiration from poly(ionic liquid)s.

191 However, taking inspiration from quantum (e.g., parity-time) symmetries

192 Herein, we draw inspiration from self-assembled structures found in ceph

193 By drawing inspiration from systems neuroscience, we introduce a pr

194 Neuromorphic computing draws inspiration from the brain to provide computing technolo

195 By taking inspiration from the catalytic properties of single-atom

196 Taking inspiration from the crystal structures of diamine-appen

197 ting design of the space blanket and drawing inspiration from the dynamic color-changing ability of s

198 In this work, we draw inspiration from the fields of metallurgy and blacksmith

199 heals faster than nonhairy skin, we took bio-inspiration from the follicle and hypothesized that foll

200 We take inspiration from the in vitro chromatin reconstitution p

201 tivity test was carried out in line with our inspiration from the mammalian innate immune response.

202 Taking inspiration from the natural healing process, a wide var

203 bind to the colchicine site draws structural inspiration from the natural products colchicine and com

204 particular at more recent examples that take inspiration from the natural systems.

205 Taking inspiration from the olfactory system of insects, we con

206 ill in its infancy, this nascent field draws inspiration from the remarkable activity and tremendous

207 expected of behavior-related GRNs by drawing inspiration from the rich literature on GRNs related to

208 Here, by drawing inspiration from the structures and functionalities of a

209 To test this hypothesis, we drew inspiration from the tongue and engineered contractile h

210 You should also start to consider and draw inspiration from the way in which phenomenology has been

211 Drawing inspiration from the ways that cells communicate in the

212 e field of artificial molecular motors takes inspiration from these tiny but powerful machines.

213 Taking inspiration from this behaviour to realize high-density,

214 Taking inspiration from this biological strategy is a promising

215 Taking inspiration from Venus kinase receptors (VKRs), an atypi

216 Using novel real-time MRI, forced inspiration has been identified recently as a main drivi

217 ion (LES pressure) and at the peak of forced inspiration (hiatal contraction).

218 ly and thus can serve as a further source of inspiration how to exploit nonclassical crystallization

219 an lung density at end expiration (E) to end inspiration (I) was calculated in lung regions with norm

220 ory phases: (1) from late expiration (E2) to inspiration (I), (2) from I to post-inspiration (PI), an

221 to the ongoing respiratory motor pattern of inspiration (I), post-inspiration (PI) and late-expirati

222 ties of natural products have often provided inspiration in drug discovery.

223 Finding inspiration in living organisms to create bioinspired ma

224 eural network that paces robust, yet labile, inspiration in mammals.

225 eaction processes are increasingly providing inspiration in synthetic chemistry.

226 Nature is a valuable source of inspiration in the design of catalysts, and various appr

227 Normalized blood volume decreased in inspiration in the nondependent region (29 uL/g [12-46 u

228 and blood volume matching is reduced during inspiration in the setting of minimal tidal recruitment/

229 d bimetallic enzymes can be a huge source of inspiration in this field.

230 uses respiratory swings (obliteration during inspiration) in right ventricular filling and pulmonary

231 toinhibition in Arch-transfected mice during inspiration increased tidal volume without altering insp

232 ommunicating cerebral fluid systems in which inspiration-induced downward flow of venous blood due to

233 nferior vena cava during a deep standardized inspiration is a simple, noninvasive bedside predictor o

234 Here, inspiration is drawn from epitaxial growth strategies in

235 Inspiration is generated by the pre-Botzinger complex of

236 Inspiration is increasingly being taken from the natural

237 ssure (in contrast to the normal fall during inspiration), Kussmaul sign, has been described in conge

238 h CT attenuation values less than -950 HU at inspiration (%LAA-950insp) and less than -910 HU at expi

239 em has been used relentlessly as a source of inspiration, less work has been done in reverse, where s

240 0.05, t-test) between end-expiration and end-inspiration measurements of the cardiac function in volu

241 abnormal adduction of the vocal cords during inspiration, mimics the symptoms of asthma and leads to

242 post-inspiratory neurons and thereby release inspiration neurons to increase their activity.

243 oblique at 45 degrees or 30 degrees angle on inspiration, oblique at 45 degrees or 30 degrees angle o

244 abilities that require the newer sources and inspiration of new methods that can be performed at exis

245 hereby extending the "aerodynamic reach" for inspiration of otherwise inaccessible odors.

246 inhalers (DPI) aerosolize agents by means of inspiration of patients themselves, inspiratory resistan

247 e perturbation spread modeling and giving an inspiration of the implementation of the deep neural net

248 dics using a thermometer, which brings fresh inspirations on the development of simple, low-cost, and

249 munity: If you are looking for philosophical inspiration or methodological guidance, do not look to p

250 hat they are not required for termination of inspiration or recruitment of post-I activity during hyp

251 arching possibility is that the preBotzinger inspiration oscillator, which paces whisking, can select

252 ncrease at end expiration (P = .001) and end inspiration (P = .002), respectively.

253 We tested the hypothesis that following inspirations performed at equal absolute intensities, fe

254 ioid receptors in the KF eliminated the post-inspiration phase of the respiratory cycle.

255 atory motor pattern of inspiration (I), post-inspiration (PI) and late-expiration (E2).

256 (E2) to inspiration (I), (2) from I to post-inspiration (PI), and (3) from PI to E2.

257 In the normal lung, breathing and deep inspirations potently antagonize bronchoconstriction, bu

258 ena cava recorded during a deep standardized inspiration predicts fluid responsiveness in nonintubate

259 Inspiration-related changes in normalized gas volume and

260 In this group, inspiration-related increase in normalized gas volume wa

261 file of the EGJ at end-expiration and forced inspiration revealed marked differences between the grou

262 pontine Kolliker-Fuse area (KF) drives post-inspiration, suppresses inspiration, and can reset the r

263 position at end-expiration (Tdi,ee) and peak-inspiration (Tdi,ei) with ultrasonography.

264 thickening fraction of the diaphragm during inspiration (TFdi,max) was calculated using the followin

265 as there is an increase in heart rate during inspiration that occurs via inhibition of premotor paras

266 framework in which three distinct phases of inspiration, the burst phase, refractory phase, and perc

267 At inspiration, the distribution of the alveolar area of th

268 HD patients showed lower end-inspiration thickness of the diaphragm at total lung cap

269 itatory glutamatergic synaptic inputs during inspiration, this excitatory neurotransmission was not a

270 peak inspiratory flow, leading to decreased inspiration times and breathing frequency.

271 istry-driven processes found in nature as an inspiration to design biomaterials as promising diagnost

272 ntists have more recently looked to them for inspiration to develop new "biologically inspired" adapt

273 duction in minor axis tracheal diameter from inspiration to end-expiration.

274 Marine organisms trigger inspiration to expand the paradigm of untethered soft ro

275 Images were registered from inspiration to expiration by using an elastic registrati

276 se for the use of silk, yet serve as a broad inspiration to further develop biological foundries for

277 Von Baer's ideas have been both a source of inspiration to generations of biologists and a target of

278 h wet and computational, in order to provide inspiration to our chemists, suggest next steps in their

279 wer differentials exist, can scientists find inspiration to persevere anyway?

280 Natural systems have been an inspiration to synthetic supramolecular chemistry.

281 molecular machines are a constant source of inspiration to the chemist.

282 ng synthesis tools in tandem with biological inspiration to understand and improve nucleic acid deliv

283 This makes them an exhaustless source of inspiration toward the development of more efficient, se

284 l products (NPs) are a significant source of inspiration towards the discovery of new bioactive compo

285 inferior vena cava under a deep standardized inspiration using transthoracic echocardiography.

286 lated by subtracting end-expiration from end-inspiration volumes in total lung, noncystic lung, total

287 ng, and registration-based lung deformation (inspiration vs expiration).

288 ent/Vt reaching dependent lung regions along inspiration (VtHit).

289 ement toward the brain in response to forced inspiration was seen in all subjects at the aqueduct, in

290 Building on this inspiration, we describe a generalizable gram-scale meth

291 With this inspiration, we have developed a DNA-based reagent platf

292 ing, high CSF flow was elicited during every inspiration, whereas breath holding suppressed it.

293 targeting the preBotC prematurely terminated inspiration, whereas expiratory-phase photostimulation d

294 e of the superior vena cava decreased during inspiration, whereas the transmural pressure of the righ

295 derwent a diagnostic CT of the chest in deep inspiration, which also served as a standard of referenc

296 h to synchronize electrical stimulation with inspiration while maintaining work of breathing within d

297 n PAH patients during expiration compared to inspiration, while the wave speed remained unchanged thr

298 Silica dispersal, detected by co-inspiration with India ink and polarized light microscop

299 significant differences in responses to deep inspiration, with or without superimposed tidal breathin

300 is study that increase their activity during inspiration would support respiratory rhythm generation