ライフサイエンスコーパス: pressure

1 including stretch, shear stress, and osmotic pressure.

2 neurons and was sufficient to increase blood pressure.

3 stems with a stenotic section under constant pressure.

4 l adaptations are related to very high blood pressure.

5 cal" response to the positive end-expiratory pressure.

6 role in protrusions driven by intracellular pressure.

7 increased in nonlinear fashion with applied pressure.

8 ics as baseline plateau pressure and driving pressure.

9 and devices that aim to decrease intraocular pressure.

10 st concentrations, and zeroth order in CO(2) pressure.

11 t responded most strongly to increasing fuel pressure.

12 onditions of high or low temperature or high pressure.

13 alt diet did not achieve reductions of blood pressure.

14 t elevations in resting heart rate and blood pressure.

15 een used as a method to study solids at high pressure.

16 O(2)/H(2) feeds at 170 degrees C and 1-8 bar pressure.

17 lly limited tissue volume due to portal vein pressure.

18 n response to strong environmental selection pressure.

19 ickly adapt in the face of extreme selective pressures.

20 ot significantly change heart rates or blood pressures.

21 O formation is affected by the CO(2) partial pressure (0.1-0.5 bar) and the proton concentration (1-0

22 ceiving supplemental oxygen without positive pressure; 11.5% receiving noninvasive ventilation or nas

23 At high confining pressures (30 MPa), permeability changes were more sensi

24 pressure group (median duration of negative pressure, 4 days) and 802 in the standard dressing group

25 rlipressin decreased mean pulmonary arterial pressure (-6.5 +/- 1.8 mm Hg; p = 0.005) and tended to d

26 0 Hb(-1) ; P = 0.01) and diastolic operating pressure (82 +/- 8 to 80 +/- 8 mmHg; P < 0.001) compared

27 ressures, toward normal levels of right-side pressure (about 20 mmHg) measured by RHC.

28 methods identify the optimal arterial blood pressure (ABPopt) and lower limit of autoregulation (LLA

29 The mechanisms of pressure adaptation are also important in food safety, w

30 pproach, we first evaluate the environmental pressures affecting invertebrate communities in two ecor

31 We present how chamber background pressure affects energetic proton acceleration from an u

32 are prioritized based on apparent selection pressure against mutations that disrupt miRNA binding.

33 for each time-weighted-average-mean arterial pressure and cumulative-time-below mean arterial pressur

34 ibration characteristics as baseline plateau pressure and driving pressure.

35 teracting environmental effects of predation pressure and food availability.

36 trol circuits and mediate increases in blood pressure and heart rate induced by falls in brain perfus

37 ols in human subjects led to increased blood pressure and heart rate, similar to traditional cigarett

38 ell below the lithostatic load, create under-pressure and initiate a caldera collapse, despite only m

39 health outcomes, including changes in blood pressure and lung function.

40 sensitive to decreases in cerebral perfusion pressure and may function as intracranial baroreceptors,

41 all higher quality but the lack of predation pressure and resource restrictions mask this effect in l

42 o methyl bisulfate (CH(3)OSO(3)H) at ambient pressure and room temperature with a molecular catalyst

43 dsorption of the cosolvent MeOH changes with pressure and temperature and how this affects the retent

44 valving behavior, that is, cyclic changes in pressure and unsteady fluid migration along faults.

45 ate the relationship between premorbid blood pressure and vasopressor duration for patients with shoc

46 mic and social systems can adapt to existing pressures and shift towards ocean stewardship through in

47 2% of world energy production), and the high pressures and temperatures make NH(3) production facilit

48 significant differences in body size, blood pressure, and baseline pulmonary capillary wedge pressur

49 , cerebral perfusion pressure, mean arterial pressure, and jugular venous bulb oxygen saturation.

50 and function, audition, regulation of blood pressure, and renal function.

51 its multimodal detection of strain, flexion, pressure, and temperature.

52 een the CIP and SIP becomes smoother at high pressure, and the relative stability of the two configur

53 ration and FUS sonication (T(lag1)), the FUS pressure, and the time for sacrificing the mice post-FUS

54 ribe changes in cardiac index, mean arterial pressure, and their relationship to other indices of car

55 pressures, intrinsic positive end-expiratory pressure, and use of vasopressors.

56 en the uncertainties of the photon radiation pressure applied to the object and of the photon number

57 s for patients with premorbid low/high blood pressure are unknown.Objectives: To investigate the rela

58 Intracardiac pressures are elevated in the early post-HT period and d

59 this change in lifetime to calculate steric pressure as a function of membrane coverage by ENTH, val

60 Kilauea Volcano's subsurface increased pore pressure at depths of 1 to 3 kilometres by 0.1 to 1 kilo

61 Keeping the acoustic pressure at levels where no such sign of microbubble des

62 An impaired decline in blood pressure at rest is typical in people with diabetes, ref

63 Here, we apply a high-resolution, pressure-based approach to describe how two fishes, blue

64 Intraocular pressure before SLT was 21.9+/-5.2 mmHg while taking 2.0

65 sure, and baseline pulmonary capillary wedge pressure between groups (eg, pulmonary capillary wedge p

66 unilaterally severely increased intraocular pressure, bilateral dense pigment deposition of the post

67 terial stiffness and neural control of blood pressure (BP) among older adults.

68 d (GABA) influences daytime ambulatory blood pressure (BP) and other cardiometabolic risk factors.

69 esponsible for maintenance of arterial blood pressure (BP) during haemorrhage in humans.

70 High blood pressure (BP) is a risk factor for cardiovascular morbid

71 Blood pressure (BP) management is a crucial part of critical c

72 Blood pressure (BP) was measured with an automatic BP monitor.

73 servoir storage integrity through pore fluid pressure build-up.

74 association between lifetime systolic blood pressure burden and midlife cognitive function was accou

75 m more prone to coral collapse under fishing pressure but also more prone to recovery as fishing is r

76 lly described as naturalistic (e.g. touch or pressure), but were often paresthesias.

77 ystolic and diastolic central (aortic) blood pressure by 4 mm Hg (95% CI: 2.8 to 5.5 mm Hg) and 3 mm

78 High pressure can drastically alter chemical bonding and prod

79 ring with brain oxygen tension, intracranial pressure, cerebral perfusion pressure, mean arterial pre

80 can glycosaminoglycans that provide swelling pressures, compressive stiffness and hydration to the ti

81 l mass spectra as APCI involving atmospheric pressure conditions, the presence of many different chem

82 Similarly, a strategy of intensive blood pressure control did not result in a significant change

83 ly treatment for SCI for all cases was blood pressure control.

84 ply causal discovery algorithms to sea level pressure data from a large set of climate model simulati

85 ing blood glucose, HbA1c and diastolic blood pressure (DBP), and positively correlated with age, know

86 on by CO(2) and, as hypothesized here, vapor-pressure deficit.

87 linical features, tidal change in esophageal pressure (DeltaPes), tidal change in dynamic transpulmon

88 Pes), tidal change in dynamic transpulmonary pressure (DeltaPl), expiratory Vt, and respiratory rate

89 we collected, laboratory test results, blood pressure, demographic, cognitive, motor, olfactory and a

90 cting 90-day mortality, baseline mean airway pressure demonstrated similar discriminative ability (ad

91 We report experimental results showing the pressure dependence of the superconducting transition te

92 lcium homeostasis, cytoskeletal dynamics and pressure-dependent outflow suggests potential for a nove

93 nd therapy, with application of the negative pressure device immediately after repair of the surgical

94 least 3 coexistent morbidities of high blood pressure, diabetes mellitus, osteoporosis, non-AIDS canc

95 M) as the feed water at an applied hydraulic pressure difference of 9.66 bar.

96 earthquake models assume a fixed pore fluid pressure distribution, geologists have documented fault

97 iventricular pressure-volume loops, invasive pressures, diuretic output, respiratory variables, and b

98 noparticle suspensions, however, may prevent pressure-driven flow, a mechanism essential to stereolit

99 were carried out with pure CO(2) in a sealed pressure drop apparatus.

100 tometer for mesopic conditions), intraocular pressure, endothelial cell density (ECD) and patient imp

101 remained cytosolic in the absence of immune pressure, eventually resulting in macrophage death.

102 Our high-pressure experiments reveal continuous strengthening in

103 ndent of changes in end-tidal PCO2 and blood pressure External carotid artery blood flow increased by

104 ity are two of the most prevalent and severe pressures faced by coral reefs.

105 tokes equations, extracting the velocity and pressure fields directly from the images is challenging.

106 n was investigated by filling cystometry and pressure flow studies in 16 male and 22 female rhesus ma

107 food safety, with the increasing use of high-pressure food processing.

108 rough the skull is necessary as the range of pressure for efficient and safe BBB opening is very narr

109 onservation, highlighting a strong selective pressure for functionality.

110 o-proton conversion efficiency at background pressures [Formula: see text], wherein the overall energ

111 rimarily regulated by their relative partial pressures, [Formula: see text]/[Formula: see text] Pyrit

112 ed with cryogenic sample handling and a high-pressure freezing protocol compatible with mass spectrom

113 57.7)Se(39.5) is determined as a function of pressure from ambient to 24 GPa using Monte-Carlo simula

114 Mean systolic blood pressure from baseline to 12 months decreased from 151 m

115 We modified the QVOA to reflect pressure from low concentrations of autologous antibodie

116 Southern Ocean ecosystems are under pressure from resource exploitation and climate change(1

117 social organisms, this may include selective pressure from the social environment.

118 is and bacterial growth is slow and pathogen pressure from this cool-adapted fungus is high.

119 ed 20 ul/kg/min, signs of injury occurred at pressures from 0.39 to 0.56 MPa.

120 A) system to the liquid sampling-atmospheric pressure glow discharge (LS-APGD) microplasma for combin

121 f physicians' attempts to assess intraocular pressure goes back many centuries.

122 +/-9.6 mm Hg) and the invasive peak systolic pressure gradient (34+/-12 to 11+/-9 mm Hg).

123 ase in both the noninvasive arm-to-leg blood pressure gradient (41.2+/-18.7 to 5.6+/-9.6 mm Hg) and t

124 olymeric shell, the shell thickness, and the pressure gradient across the shell.

125 TAVI patients had invasive pressure gradient assessments.

126 owever, Doppler yielded significantly higher pressure gradient compared to invasive assessment (61 +/

127 optic disc elevation to detect intracranial pressure greater than 22 mm Hg was 0.84 (0.76-0.90).

128 othesized that an increase in central venous pressure greater than or equal to 5 cm H2O (i.e., 4 mm H

129 d for vasopressors to maintain mean arterial pressure greater than or equal to 65 mm Hg and signs of

130 9%) completed the study: 806 in the negative pressure group (median duration of negative pressure, 4

131 Layered Cu-Cl perovskites require pressures >50 GPa to show a conductivity of 10(-4) S cm(

132 500 versus <150 mg/g), higher systolic blood pressure (>=140 versus 120 to <130 mmHg), diabetes (vers

133 oval), low air resistance (<0.09% atmosphere pressure), high transparency (>82%), and remarkable biop

134 of dementia patients have idiopathic normal pressure hydrocephalus (iNPH), an expansion of the cereb

135 inversely with the FUS pressure, with higher pressures (i.e., 0.3-MPa and 0.4-MPa FUS) consistently i

136 infrared spectroscopy (NIRS) or intracranial pressure (ICP) decreases index variability compared to t

137 The selective pressure imposed by extrinsic death signals and stressor

138 icult to forecast the final eruption volume; pressure in a magma body may drop well below the lithost

139 tres by 0.1 to 1 kilopascals, to its highest pressure in almost 50 years.

140 ch was attributed to the release of internal pressure in bulk samples that disintegrated into powder

141 s in sympathetic vasomotor outflow and blood pressure in healthy humans.

142 ty with therapeutic reduction of intraocular pressure in murine glaucoma models.

143 is of the ISAACC (Continuous Positive Airway Pressure in Patients with ACS and OSA) study, including

144 Increased hydrodynamic pressure in retracting cell projections normally returns

145 This suggests that surface pressure in the Neoarchean may need to have been lower-c

146 transcranial Doppler sonography and arterial pressure in the radial artery was obtained by tonometry,

147 may assist clinicians in establishing target pressures in clinical practice.

148 to evaluate support for different selective pressures in driving the evolution of glucocorticoid reg

149 ausal mechanism for induced seismicity: pore pressure increase and earthquake interactions lead to fa

150 ed valent, with a peak in specific heat, and pressure induced magnetic phase transitions), we present

151 Herein, we show that pressure-induced bathochromic shifts in both fluorescenc

152 ly in contact with electrodes that exhibit a pressure-induced reduction in electrical conductivity-an

153 Pressure injuries are one of the most frequently occurri

154 ted into the ionization region of an ambient pressure inlet mass spectrometer.

155 micro-CT imaging, revealed a higher negative pressure inside the airway of Dp16 mice compared to wild

156 behavior, and (4) the direct measurement of pressure inside the saturator to accurately account for

157 ly improved at 24 hours, as were peak airway pressures, intrinsic positive end-expiratory pressure, a

158 harged test ions (m/z 124-1131), the ambient pressure ion funnel (APIF) is demonstrated to improve io

159 Atmospheric pressure ionization methods confer a number of advantage

160 ilure of the AADI was defined as intraocular pressure (IOP) >18 mm Hg or not reduced by 30% below bas

161 Outcome measures included intraocular pressure (IOP) and number of antiglaucoma medications af

162 ic sensor that measures habitual intraocular pressure (IOP) at any given time and promises to revolut

163 ation has been linked to lowered intraocular pressure (IOP) in patients with glaucoma, ocular hyperte

164 ted visual field (VF) testing on intraocular pressure (IOP) in patients with ocular hypertension (OHT

165 Postoperative intraocular pressure (IOP) less than or equal to 24 mm Hg with or wi

166 Intraocular pressure (IOP) readings were obtained by Goldmann applan

167 Icare(R) HOME allows intraocular pressure (IOP) sampling by the patient.

168 Intraocular pressure (IOP) was lowered surgically in 2 infants and m

169 an ocular tissue that maintains intraocular pressure (IOP) within a physiologic range.

170 -corrected visual acuity (BCVA), intraocular pressure (IOP), clinical presentation, eye culture resul

171 ts of postinjection elevation of intraocular pressure (IOP), injection frequency, and number of injec

172 es were similar in terms of mean intraocular pressure (IOP), the proportion of eyes meeting target IO

173 The resulting elevation in intraperitoneal pressure (IPP), from normal values of 5 mmHg to as high

174 Mean arterial pressure is critically important in patients with cirrho

175 Enormous internal turgor pressure is directed onto a penetration peg emerging fro

176 heese consumption and average systolic blood pressure, largely disregarding the impact of a healthy l

177 uncontrolled blood pressure (systolic blood pressure level >140 mm Hg or diastolic blood pressure le

178 pressure level >140 mm Hg or diastolic blood pressure level >90 mm Hg), uncontrolled diabetes (hemogl

179 chanism responsible for this change in sound pressure level and velocity remains elusive.

180 for MHPs have so far been restricted to high pressures, limiting detailed studies and applications.

181 perturbation, including heat, force, osmotic pressure, lipid shortage, and starvation.

182 the first time to extract whereas Ultra High pressure liquid chromatography (UHPLC-DAD) was used to q

183 was found that on a low dispersion ultrahigh-pressure liquid chromatography instrument, columns betwe

184 ynamic light scattering (DLS) and ultra high pressure liquid chromatography-mass spectrometry (UHPLC-

185 aged 80 years and older, had systolic blood pressure lower than 150 mm Hg, and were receiving at lea

186 nalysis of randomized clinical trials, blood pressure lowering with antihypertensive agents compared

187 tension was defined as prescription of blood pressure-lowering drugs as obtained from the national dr

188 ovided proof-of-principle data for its blood pressure-lowering efficacy.

189 demonstrate that reducing pulmonary arterial pressure lowers basal MSNA in healthy humans.

190 etween groups (eg, pulmonary capillary wedge pressure: LVH, 13.4+/-2.7 versus control, 11.7+/-1.7 mm

191 The measured mean arterial pressure (MAP) exhibited measurable deviation from basel

192 s often expressed by the mean arterial blood pressure (MAP)-cerebral blood flow (CBF) relationship, w

193 ttentional constraints and how environmental pressures may exploit these limitations.

194 n, intracranial pressure, cerebral perfusion pressure, mean arterial pressure, and jugular venous bul

195 The main limitation was use of blood pressure measurement on a single occasion to diagnose hy

196 nsplant (HT) patients, expected intracardiac pressure measurements in patients free of significant co

197 d avoids the deleterious effects of positive-pressure mechanical ventilation in this patient populati

198 Using ex vivo pressure myography, we found that loss of this critical

199 with oxygenated Steen solution at a constant pressure of 30 mm Hg and 10 degrees C.

200 2) BDS or yXe@p-G(2) BDS (y,z=variable) when pressure of CO(2) or Xe, respectively, is applied.

201 y are then evaporated due to the lower vapor pressure of ice compared with water, resulting in a fros

202 atic cancer was found to be higher under the pressure of mutation compared with others based on poole

203 The growth pressure of the nitrogen feed gas was varied while the g

204 IIH is a condition of raised intracranial pressure of unknown cause, usually observed in young, ob

205 ng tumor progression and under the selective pressures of immune surveillance, remain unknown.

206 sient responses at low forces of ~220 nN and pressures of ~5.6 kPa and sustained responses at higher

207 ed responses at higher forces of ~360 nN and pressures of ~9.2 kPa.

208 urinamensis), which may be exerting top-down pressure on C. abbreviata populations.

209 y and continually intensifying anthropogenic pressures on aquatic wildlife habitats.

210 and European populations differ in selective pressures on clones long before the development of clini

211 s a blueprint for investigating evolutionary pressures on complex traits.

212 Pullers reduce central venous pressures or renal venous pressures to increase renal pe

213 itude, electrical activity of the diaphragm, pressure output of the diaphragm, and Vt decreased and t

214 ilure (HF) are apparent using a trans-aortic pressure overload (TAC) model.

215 that drive atrial remodeling during cardiac pressure overload are poorly defined.

216 V1 is downregulated in the LA during cardiac pressure overload, contributing to both electrical and s

217 nts concentric cardiac remodeling induced by pressure overload, while inhibition of PP2A signaling pr

218 icant mediator of cardiac protection against pressure overload-induced pathological cardiac hypertrop

219 ed by VCP under the cardiac stress caused by pressure overload.

220 xygen tension gradient to cerebral perfusion pressure (p = 0.004) when comparing normoxia to hypoxia.

221 (pO(2)), and a lower carbon dioxide partial pressure (pCO(2)).

222 lation can use lower positive end-expiratory pressure (PEEP) in critically ill patients without acute

223 n resulting from an elevated intraglomerular pressure (Pglom) is an important cause of CKD, but there

224 ionization (ESI)(+), ESI(-), and atmospheric pressure photoionization (APPI)(+)) to characterize the

225 ow a more stable pH, a higher oxygen partial pressure (pO(2)), and a lower carbon dioxide partial pre

226 rders of magnitude larger than the radiation pressure produced by the photon flux interacting with th

227 The 3D-pressure profile of the EGJ at end-expiration and forced

228 igated differences in the 3-dimensional (3D) pressure profile of the LES and hiatal contraction betwe

229 y of literature showing that phage selective pressure promotes mutations in bacteria that allow them

230 Systolic and diastolic blood pressures provide information about cardiovascular disea

231 The High Pressure Quenched glasses have a distinct structure and

232 2) inhibitors have been shown to lower blood pressure, reduce weight, have salutary effects on left v

233 analyses revealed that the sonoselective low-pressure regimen does not up-regulate inflammatory or im

234 They play an important role in blood pressure regulation and reducing the risk of heart failu

235 endothelial AKAP150-TRPV4 signaling in blood pressure regulation under normal and obese conditions.

236 ascular responsiveness contributing to blood pressure regulation.

237 litate physiological function, such as blood pressure regulation.

238 efined by the slope of increase in pulmonary pressure relative to cardiac output with exercise >3 mm

239 In 'leucon' sponges with relatively high-pressure resistance due to a complex and narrow canal sy

240 valence and correlates of abnormal pulmonary pressure, resistance, and compliance and their associati

241 rdiac index-responsiveness and mean arterial pressure-responsiveness rates were 33% and 56%, respecti

242 crease of partial molar volume change with a pressure rise was established.

243 ber of binding sites remained unchanged with pressure rise while an increase for large oligonucleotid

244 By analogy with the classical central venous pressure rules to assess a fluid challenge, we hypothesi

245 Intraocular pressure-sensitive retinal ganglion cell degeneration is

246 When the device is connected to an inline pressure sensor a clotting time analysis is applied, all

247 n 12 months evaluated patients undergoing PA pressure sensor implantation between September 1, 2014,

248 [B(3) C(3) ](3-) exhibits markedly improved pressure stability and is a semiconductor with an indire

249 usters, and demonstrates the utility of high pressure studies in nanochemistry.

250 RVLM increases sympathetic outflow and blood pressure substantially, providing a mechanism by which t

251 for organisms evolving under weak selective pressures, such as animals and plants.

252 r different fluids and is affected by system pressure, surface roughness, and liquid wettability.

253 Prevalence of uncontrolled blood pressure (systolic blood pressure level >140 mm Hg or di

254 ence suggested potential harm with low blood pressure targets in patients with peripheral artery dise

255 Outfall Calculator (TAMOC), which models the pressure-, temperature-, and composition-dependent inter

256 able to the MOR agonist oxycodone in the paw pressure test in mice.

257 are workers (HCWs) grows even as the extreme pressures they face cause declining availability.

258 sure and cumulative-time-below mean arterial pressure threshold (55, 60, 65, 70, and 75 mm Hg) for IC

259 tissue in the eye that regulates intraocular pressure through the control of aqueous humour drainage.

260 th measures of drive and with the esophageal pressure-time product (within-subjects R(2) = 0.8).

261 ion and validation datasets using esophageal pressure-time product as the reference standard.Measurem

262 Mideast and Southeast Greenland may be under pressure to abandon their traditional habitats due to oc

263 rauma, together with positive end-expiratory pressure to increase the fraction of open lung and reduc

264 PL enhancement by 12 fold is achieved using pressure to modulate the structure of a recently develop

265 We present evidence suggesting pressure to reduce reflected bioluminescence led to the

266 Although perceived social pressure to visit nature was associated with higher visi

267 uce central venous pressures or renal venous pressures to increase renal perfusion.

268 on the environment, creating novel selective pressures to which organisms must adapt.

269 n, cutaneous thermal stimulation, and vulvar pressure) to establish and validate generalizable pain r

270 of right ventricular and pulmonary arterial pressures, toward normal levels of right-side pressure (

271 ity of extraocular (EO) and intraocular (IO) pressure transducers, using different IOP sampling rates

272 Pressure ulcers (PUs) frequently occur in individuals wi

273 he cumulative incidence of hospital-acquired pressure ulcers in neonates was 9.8% (95% CI: 2.9%-19.8%

274 stered Tweetable abstract: Hospital-acquired pressure ulcers occur frequently in pediatric population

275 dy tumors and thus support altered selection pressures upon WGD.

276 Intraocular pressure values were calculated from the deep learning-p

277 Cells in vascular walls are exposed to blood pressure variability (BPV)-induced cycle-by-cycle fluctu

278 The association of home noninvasive positive pressure ventilation (NIPPV) with outcomes in chronic ob

279 -flow nasal cannula and noninvasive positive-pressure ventilation is a concern for healthcare workers

280 ed to intensive care, 26.4% had new positive-pressure ventilation, and 19.7% received vasopressors.

281 h-flow nasal cannula or noninvasive positive-pressure ventilation.

282 Pressure-volume analysis of the right ventricle, during

283 mbolism and after each dose by biventricular pressure-volume loops, invasive pressures, diuretic outp

284 monitoring echocardiography and intracardiac pressure-volume relationships and myocardial structural

285 complexity for a given material in the wide pressure-volume-temperature domain even if its typical f

286 ol used as an example, we identify different pressure-volume-temperature ranges within which molecula

287 wed for perfusion and enabled replication of pressure/volume relationships fundamental to the study o

288 Mean change in systolic blood pressure was 3.4 mm Hg (95% CI, 1.1 to 5.8 mm Hg) higher

289 Her venous pressure was elevated, but the liver was not enlarged, a

290 r disease (CVD) but are only extremes of the pressure waveform during the cardiac cycle.

291 Using a high-resolution assessment of human pressure, we show that while ~40% of the terrestrial pla

292 bulb oxygen tension, and cerebral perfusion pressure were 29 mm Hg (SD, 9), 45 mm Hg (SD, 9), and 80

293 edicting elevated pulmonary artery occlusion pressure were both 74%.

294 e, blood lipids, glucose, insulin, and blood pressure were measured.

295 arranged Ph-like ALL following selective TKI pressure, which occurs in the absence of genetic mutatio

296 , and negatively correlated with atmospheric pressure, while the correlation pattern was opposite at

297 al selectivity varied inversely with the FUS pressure, with higher pressures (i.e., 0.3-MPa and 0.4-M

298 atching correlates with estimates of harvest pressure, with plants being more cryptic in heavily coll

299 gned to either undergo prophylactic negative pressure wound therapy, with application of the negative

300 Ambient-pressure x-ray photoelectron spectroscopy showed that wa