ライフサイエンスコーパス: PVC

1 PVC delivery elicited a greater neuronal response than a

2 PVC frequency was quantified using Holter studies, and L

3 PVC gels were prepared with varying plasticizer (dibutyl

4 PVC has a high Cl-content of 52-53% and a high heating v

5 PVC has sometimes been avoided due to increased noise se

6 PVC has the potential to substantially improve the accur

7 PVCs are commonly asymptomatic but can also result in pa

8 PVCs occur at relatively fixed CI from the preceding nor

9 PVCs with longer coupling intervals demonstrate more pro

10 r cysts (odds ratio [OR], 3.96; P < 0.0001), PVCs (OR, 1.45, P = 0.007), LMHs (OR, 10.62; P < 0.001),

11 in 6 patients (ventricular tachycardia, n=1; PVC, n=5).

12 luded those with frequent (defined as >/=100 PVC/24 hours) symptomatic PVCs.

13 nt scale-Dark Skin versus the Short-Form-12, PVC Metra, Body Image States Scale, and Daily Life Quali

14 of the VIPs-FS and VIPs-DS versus the SF-12, PVC Metra, BISS and DLQI assessment tools.Journal of Inv

15 Although 20 patients with >13% PVC and SSA had class I indication for cardioverter defi

16 n 12 patients (ventricular tachycardia, n=2; PVC, n=10) and right ventricular ablation was performed

17 153 [66%] native valves) comprised 58 (25%) PVC results and 173 (75%) negative valve culture results

18 s (34.1%), VMT (1.6%), macular cysts (5.6%), PVCs (20.0%), LMHs (3.6%), and FTMHs (0.4%) was estimate

19 ate plasticizer exposures associated with 72 PVC-containing articles using a high-throughput model.

20 - 0.7, BaCl2: 1.0 +/- 0.7, Caff: 1.3 +/- 0.8 PVCs/injection, P not significant).

21 a significant increase in PVCs (2.3 +/- 2.8 PVCs/injection, P < 0.05 vs. CTL, BaCl2, Caff).

22 ed successful ablation was defined as >/=80% PVC burden reduction during follow-up.

23 ce of PVC-related BSIs was 0.18% among 85063 PVCs.

24 sh a pH-sensitive fluid gate potential and a PVC membrane REFET to enable pH detection of loop mediat

25 tes (potassium, sodium, and calcium ions), a PVC-based ion-selective membrane is added to separate th

26 atic charge generated by gentle rubbing of a PVC eraser on the membrane surface.

27 ive sensor was prepared by modification of a PVC membrane with modified nano-clinoptilolite particles

28 ritical to the diagnosis and evaluation of a PVC.

29 However, in LQTS type 1 (LQT1), once a PVC occurred, it always immediately led to an episode of

30 ve to perchlorate ion was constructed with a PVC membrane containing 12mmol/kg of the polyamine bisna

31 is, nanoparticles were incorporated within a PVC matrix which was then used to prepare an ion-selecti

32 The microstructures of ACNTs and ACNT/PVC composites were characterized using transmission ele

33 (R) value of a lanthanum nitrate doped ACNT/PVC composite was -25.02 dB at 14.44 GHz, and the freque

34 In addition, PVC decreases with rougher pore surfaces and smaller ini

35 For all PVC methods, large differences in accuracy were seen amo

36 The relationship among PVC frequency, incident CHF, and mortality in the genera

37 uctures, suggesting AtCHX17 trafficked among PVC, vacuole and PM.

38 he importance of catecholamine challenge and PVC mapping, which can in turn facilitate ablation of th

39 findings support a link between fatigue and PVC-induced increased ventricular wall stress, despite p

40 Conclusion: A smoothing filter and PVC had a significant effect on measured PSMA activity i

41 on of SPECT/CT reconstruction parameters and PVC methods.

42 greater risk than products made from PET and PVC of concentrating these hazardous chemicals onto frag

43 bed greater concentrations than PP, PET, and PVC, similar to HDPE and LDPE.

44 he relationship between initial porosity and PVC is not monotonic.

45 g-coupled rather than short-coupled PVCs and PVCs at 375 ms compared with rapid ventricular pacing at

46 but the atropine-insensitive tachycardia and PVCs were abolished by the beta(1) -adrenoceptor antagon

47 wever, our results indicate that appropriate PVC may enhance the brain network structure analysis for

48 methods and resolution modeling (applied as PVC) were used in combination with several common VOI me

49 Ambulatory monitoring is required to assess PVC frequency.

50 Four image-based PVC methods and resolution modeling (applied as PVC) wer

51 Additionally, the image-based PVC methods were observed to have variable sensitivity t

52 and to a larger extent for some image-based PVC methods.

53 Baseline PVC burden was 23+/-13%, median NT-proBNP 92 pg/mL (Q1-Q

54 t failure parameters was related to baseline PVC burden and persistence of ablation success.

55 VT morphology was identical to the baseline PVCs in all the VTs induced during high-dose isoproteren

56 hat, there is a negative correlation between PVC and initial porosity, if all other parameters are fi

57 olars suggest a negative correlation between PVC and initial porosity, while others suggest a positiv

58 01), whereas no difference was found between PVC locations.

59 report a high degree of association between PVCs at baseline and the VTs induced during catecholamin

60 Bigeminal PVCs (200 ms coupling) were applied for 12 weeks to indu

61 n by dual-chamber devices, but unaffected by PVC counts or programming.

62 tricular contraction-induced cardiomyopathy (PVC-CM) remain unknown.

63 Short-term peripheral venous catheters (PVCs) are commonly used in healthcare settings.

64 reparations were composed of pavement cells (PVCs) alone or mixtures of PVCs ( approximately 85%) and

65 ar cellularity and perivascular cellularity (PVC), were assessed by 4 investigators familiar with pCL

66 Extracts of polyvinyl chloride (PVC) and polyurethane (PUR) induced the highest toxicity

67 s were developed using a polyvinyl chloride (PVC) functional membrane deposited on an electrochemical

68 lectroactive plasticized polyvinyl chloride (PVC) gel was investigated to use as a soft actuator for

69 ic high-molecular-weight polyvinyl chloride (PVC) gel.

70 silver from plasticised polyvinyl chloride (PVC) nanocomposites to chicken meat following varying st

71 lasticizer emission from polyvinyl chloride (PVC) products, based on group contribution methods that

72 , at least 400 tonnes of polyvinyl chloride (PVC) were consumed in a fire at the Plastimet Inc.

73 by a column filled with polyvinyl chloride (PVC) with lanthanum hydroxide co-precipitation.

74 polyethylene (LDPE) and polyvinyl chloride (PVC), and were evaluated with the model.

75 ity polyethylene (HDPE), polyvinyl chloride (PVC), low-density polyethylene (LDPE), and polypropylene

76 ity polyethylene (HDPE), polyvinyl chloride (PVC), low-density polyethylene (LDPE), and polypropylene

77 ive controls, copper and polyvinyl chloride (PVC), resulted in reduction of network spike rate.

78 e for the manufacture of polyvinyl chloride (PVC), which is the third most important polymer in use t

79 apped in plastic film of polyvinyl chloride (PVC).

80 ed HDPE waste containing polyvinyl chloride (PVC).

81 nitrate doped ACNTs and polyvinyl chloride (PVC).

82 ulose tri acetate (CTA)/poly vinyl chloride (PVC) based polymer inclusion membrane.

83 lated with plasticized poly(vinyl chloride) (PVC) and an inert lipophilic salt, tridodecylmethylammon

84 uptake of plasticized poly(vinyl chloride) (PVC) and silicone rubber (SR) based calcium-selective me

85 top of a conventional poly(vinyl chloride) (PVC) based K(+)-selective membrane in a solid-contact io

86 doped and plasticized poly(vinyl chloride) (PVC) membrane and an electrolyte solution that was trigg

87 complex in plasticized poly(vinyl chloride) (PVC) membranes and solutions have been determined in the

88 (undoped) plasticized poly(vinyl chloride) (PVC) membranes mounted into an electrode body are immers

89 lorinated dioxins from poly(vinyl chloride) (PVC) waste were not detected; however, chlorinated furan

90 olypropylene (PP), and poly(vinyl chloride) (PVC).

91 sting a thin layer of poly (vinyl chloride) (PVC)/nano-MIP composite on a graphite electrode surface.

92 ayer of electric cables (polyvinyl chloride, PVC-cables) and plastic garbage bag (polyethylene, PE-ba

93 was also observed after variable (short) CI PVCs.

94 Variable CI PVCs affect critical populations of intrinsic cardiac ne

95 Compared with fixed short and long CI, PVCs with variable CI had a greater impact on neuronal r

96 of Fenugreek beta-amylase on chitosan coated PVC (polyvinyl chloride) beads and beads made from chito

97 or the enzyme immobilised on chitosan coated PVC beads and on the beads of chitosan/PVP blend, respec

98 o the late endosome/prevacuolar compartment (PVC) and for TGN homotypic fusion.

99 0)-GFP localized to prevacuolar compartment (PVC) and to PM in roots.

100 Golgi network (TGN)-prevacuolar compartment (PVC) transport.

101 olgi network (TGN), prevacuolar compartment (PVC), and plasma membrane (PM).

102 step during which prevacuolar compartments (PVCs) and autophagosomes fuse with the vacuole membrane

103 ablation of premature ventricular complexes (PVC) in patients with frequent PVC and left ventricular

104 Premature ventricular complexes (PVCs) are extremely common, found in the majority of ind

105 Premature ventricular complexes (PVCs) are prevalent in the general population and are so

106 ycardia and premature ventricular complexes (PVCs) is common.

107 ycardia and premature ventricular complexes (PVCs) most frequently occur in the context of structural

108 l activity (premature ventricular complexes (PVCs) or ventricular tachycardia (VT >/= 3 beats)).

109 followed by premature ventricular complexes (PVCs).

110 en studying the pore volume compressibility (PVC) of porous media.

111 Twelve consecutive PVC CIs were recorded.

112 bility in premature ventricular contraction (PVC) coupling interval (CI) increases the risk of cardio

113 iopathic premature ventricular contractions (PVC) burden has been associated with PVC-induced cardiom

114 est that premature ventricular contractions (PVCs) are a modifiable risk factor for congestive heart

115 urden of premature ventricular contractions (PVCs) are common in arrhythmogenic right ventricular dys

116 whether premature ventricular contractions (PVCs) arising from the aortic sinuses of Valsalva (SOV)

117 aused by premature ventricular contractions (PVCs) has been proposed as a mechanism of PVC-induced ca

118 dia with premature ventricular contractions (PVCs) in conscious SH rats.

119 frequent premature ventricular contractions (PVCs) or VT and tachycardiomyopathy should be considered

120 lated to premature ventricular contractions (PVCs).

121 lock and premature ventricular contractions (PVCs).

122 uces the sagittal height of the plano-convex PVC gel lens, resulting in focal length variation of the

123 It consists of a plano-convex PVC gel micro-lens on Indium Tin Oxide (ITO) glass, conf

124 ate the effect of partial-volume correction (PVC) combined with several VOI methods on the accuracy a

125 ctured, different partial-volume correction (PVC) methods were applied, and the accuracy of the activ

126 othing filter and partial-volume correction (PVC) on measured prostate-specific membrane antigen (PSM

127 int-entropy based partial volume correction (PVC) technique on brain networks learned from a clinical

128 hinal cortex (EC) and primary visual cortex (PVC) of aged APOE mice.

129 This study suggests that late-coupled PVCs may cause a more severe cardiomyopathy if dyssynchr

130 uring long-coupled rather than short-coupled PVCs and PVCs at 375 ms compared with rapid ventricular

131 lve culture results (positive valve culture [PVC] vs. negative valve culture) on preop-AT.

132 membranes are associated with macular cysts, PVCs, LMHs, VMT, and visual impairment.

133 us structural heart disease (SHD) diagnosis, PVC morphology, or estimated site of origin.

134 Different PVC methods were applied to find an optimal quantificati

135 sought to understand the impact of different PVC locations and coupling intervals (prematurity) on LV

136 After disabling PVC for 4 weeks, LVEF (p = 0.01), dP/dT (p = 0.047), and

137 Local NA injection resulted in Ca(2+)-driven PVCs arising from the injection site in all hearts studi

138 oxyethylene methacrylate) side chains, i.e., PVC-g-POEM as templates.

139 When the optimal VOI method for each PVC method was used, high accuracy could be achieved.

140 s the most efficacious approach to eradicate PVCs but may confer increased upfront risks.

141 rcise SNA (p = 0.01), SNA response to evoked PVCs (p = 0.005), heart rate (HR) at rest (p = 0.003), a

142 -on-T arrhythmogenesis in which an exogenous PVC coincidentally encounters a repolarizing region.

143 Based on these results, Fc-PVC membranes doped with ionophores may form the basis o

144 For PVC cohorts, we included those with frequent (defined as

145 een patients were enrolled (17 for VT, 2 for PVC cardiomyopathy).

146 d, the maximum displacement of PVC gels (for PVC/DBA ratios of 1:4, 1:6, and 1:8) was increased from

147 and 3.4 eV (light wavelength at 360 nm) for PVC; photons with energy smaller than this cannot effect

148 , and valve type resulted in odds ratios for PVC of 6.35 (95% confidence interval [CI]: 1.94 to 20.78

149 Model-based odds ratios for PVC risk reduction in 2-day intervals of preop-AT ranged

150 nswer: 55.73mV/decade has been recoreded for PVC (polyvinyl chloride) - based sodium selective sensor

151 enty-three consecutive patients referred for PVC ablation were assessed.

152 hic PVCs and normal LV function referred for PVC ablation were included.

153 ony is the leading mechanism responsible for PVC-induced cardiomyopathy.

154 ecessary to identify individuals at risk for PVC-induced cardiomyopathy and to identify preventative

155 ically significant results were observed for PVCs analyzed as a continuous variable.

156 ocomotion states, perhaps when both forward (PVC) and reverse (including RIM) circuit activity overla

157 of the presence of SHD, the SSA of frequent PVC in patients with depressed LVEF induced a progressiv

158 ar complexes (PVC) in patients with frequent PVC and left ventricular (LV) dysfunction, regardless of

159 Consecutive patients with frequent PVC and LV dysfunction accepted for ablation at 4 center

160 Fifteen subjects with a history of frequent PVCs undergoing cardiovascular magnetic resonance imagin

161 resence of symptoms or particularly frequent PVCs, and cardiac magnetic resonance imaging is helpful

162 In patients with frequent PVCs and preserved LV function, fatigue was associated w

163 icular wall stress in patients with frequent PVCs and preserved LV function.

164 Uptake of nonylphenol from PVC or sand reduced the ability of coelomocytes to remov

165 eased the total amount of PAEs released from PVC-cables by a factor of up to 5, whereas they had no i

166 alate (DEP) were the main PAEs released from PVC-cables, with mass fractions as high as 9.5 +/- 1.4 a

167 DeltaCI of RV/LV PVCs compared with SOV/GCV PVCs (33 +/- 15 ms vs. 116 +/- 52 ms, p < 0.0001).

168 In all 3 genotypes, PVCs always originated spontaneously from the steep repo

169 unknown, potential mechanisms for any given PVC include triggered activity, automaticity, and reentr

170 activity, and smoking each predict a greater PVC frequency.

171 om 8 to 200 times greater than on PET, HDPE, PVC, LDPE, and PP.

172 % polyvinyl chloride in the waste HDPE (HDPE/PVC) has been shown to poison the catalyst and significa

173 terobserver agreement using pCLE to identify PVC were significantly higher than those of abundant alv

174 ents (41 men; 49+/-15 years) with idiopathic PVCs and normal LV function referred for PVC ablation we

175 h chromoionophore I (pKa = 14.80 +/- 0.03 in PVC-NPOE), pKa values were determined for Ox Y, Ox R, an

176 2) and ventricular arrhythmias (p = 0.03) in PVC-CM.

177 ion of y(0) at different weight fractions in PVC.

178 ioverter defibrillators) or any reduction in PVC burden (as measured by a 24-hour Holter monitor) com

179 ly, which was associated with a reduction in PVC count.

180 Neural remodeling in PVC-CM is characterized by extracardiac sympathetic hype

181 delineation propagated into uncertainties in PVC performance, as confirmed by the clinical data.

182 + Caff resulted in a significant increase in PVCs (2.3 +/- 2.8 PVCs/injection, P < 0.05 vs. CTL, BaCl

183 bserved prolonged QRS duration, increases in PVCs as well as PACs.

184 DeltaCI is more pronounced in PVCs originating from the SOV or GCV.

185 An increased PVC frequency may be a risk factor for heart failure and

186 oupling) were applied for 12 weeks to induce PVC-CM in 7 animals then disabled for 4 weeks to allow c

187 PVCs, bigeminy, trigeminy, and interpolated PVCs, were observed.

188 5.7 days), and pipe material (cement, iron, PVC) were compared in parallel triplicate simulated wate

189 erent patterns of ectopy, including isolated PVCs, bigeminy, trigeminy, and interpolated PVCs, were o

190 Longer PVC coupling intervals were associated with greater stro

191 Patients with no or mild symptoms, a low PVC burden, and normal ventricular function may be best

192 difference between the mean DeltaCI of RV/LV PVCs compared with SOV/GCV PVCs (33 +/- 15 ms vs. 116 +/

193 on compared to the inert reference material (PVC).

194 ad frequent ectopy at baseline with a median PVC count of 7275 (range, 1353-19 084).

195 No increase in NA-mediated PVCs was observed following pretreatment with either BaC

196 ng polytetrafluoroethylene filter membranes, PVC, cellulose nitrate/cellulose acetate filter membrane

197 If approximately 200 million PVCs are successfully inserted into adult patients each

198 For most PVC methods, accuracy was strongly affected by more than

199 Phantom data demonstrated that most PVC methods were strongly affected by the applied resolu

200 igns, which uses a composite carbon-nanotube-PVC-based membrane, suffered from sulfide poisoning in t

201 a (p = 0.02) but not ventricles (p = 0.2) of PVC-CM and recovered animals versus sham controls.

202 Ablation of PVC in patients with LV dysfunction is usually restricte

203 then increased, the maximum displacement of PVC gels (for PVC/DBA ratios of 1:4, 1:6, and 1:8) was i

204 blood cultures in patients with evidence of PVC infection and systemic symptomatology such as fever,

205 The incidence of PVC-related BSIs was 0.18% among 85063 PVCs.

206 s (PVCs) has been proposed as a mechanism of PVC-induced cardiomyopathy.

207 lance and proarrhythmia in a canine model of PVC-CM.

208 The electromechanical performance of PVC gels was demonstrated for both single-layer and stac

209 upper quartile versus the lowest quartile of PVC frequency had a multivariable-adjusted, 3-fold great

210 s tuned by controlling the grafting ratio of PVC-g-POEM via atomic transfer radical polymerization (A

211 under emergent conditions increased risk of PVC-related bloodstream infection (PVCR-BSI).

212 KBr suspended in tetrahydrofuran solution of PVC and DOS and deposited on Ag substrate, or another su

213 egrees C via the gas phase by utilisation of PVC as Cl-donor.

214 nction after successful catheter ablation of PVCs demonstrates that a causal relationship can be pres

215 Although the fundamental causes of PVCs remain largely unknown, potential mechanisms for an

216 utic approaches targeting the root causes of PVCs to maximize effectiveness while minimizing risk.

217 h PVCs revealed differential contribution of PVCs to hemodynamics.

218 The objective was to determine the effect of PVCs and CI on intrinsic cardiac nervous system function

219 ques do not adequately address the effect of PVCs on left ventricular function.

220 pulation-based sample, a higher frequency of PVCs was associated with a decrease in LVEF, an increase

221 The impact of PVCs on the intrinsic cardiac nervous system, a neural n

222 f pavement cells (PVCs) alone or mixtures of PVCs ( approximately 85%) and mitochondria-rich cells (M

223 CI of 60 ms helps discriminate the origin of PVCs before diagnostic electrophysiological study and ma

224 0.005) increased with age; the prevalence of PVCs (P = 0.05) decreased with age; and the prevalence o

225 After 12 weeks of PVCs, LVEF (p = 0.006) and dP/dT (p = 0.007) decreased.

226 of ion-selective electrodes (ISEs) based on PVC membranes is described here for the first time.

227 However, the fundamental controls on PVC of porous media are not yet definitive.

228 PVC/GO gel over traditional plasticizer only PVC gel.

229 The frequency of VT episodes or PVC burden was reduced by 75% in 89% of patients.

230 VT episodes or PVC burden were reduced in 17/18 evaluable patients (94%

231 ria scheduled for ventricular tachycardia or PVC ablation over a 9-month period.

232 When found on pCLE, PVC is a feasible and reproducible criterion for assessm

233 our premature pacing algorithm, pentageminal PVCs at coupling intervals of 200 to 375 ms were deliver

234 he addition of a SR coating on a plasticized PVC ion-selective membrane seems to be a feasible method

235 thick film of POT coated with a plasticized PVC membrane exhibited a significant sodium transfer vol

236 e smaller compared with those in plasticized PVC membranes, indicating a more polar nanosphere microe

237 ing the SR coating on top of the plasticized PVC based K(+)-selective membrane.

238 rane types were studied: (1) the plasticized PVC or SR (RTV 3140) membrane matrix without other added

239 d with approximately 300 nm thin plasticized PVC membranes containing up to two ionophores in additio

240 ase in the fluorescence mode when more polar PVC-NPOE membranes were utilized.

241 outine LV ablation procedures (predominately PVC ablations) experienced new brain emboli after the pr

242 The prepared PVC gels were characterized using Fourier-transform infr

243 Because of the capacity to prevent PVCs through medical or ablation therapy, PVCs may repre

244 The proposed PVC/GO gel actuator may have promising applications in a

245 ding theoretical foundations for quantifying PVC of porous media, this analytical model could be appl

246 bacteremic or fungemic patients, and remove PVCs associated with localized infection with or without

247 sually restricted to patients with suspected PVC-induced cardiomyopathy.

248 women have a higher incidence of symptomatic PVC.

249 lar tachycardia, 408 (66.5%) had symptomatic PVCs, and 29 (4.7%) had IVA-associated cardiomyopathy.

250 (defined as >/=100 PVC/24 hours) symptomatic PVCs.

251 te the relation between presenting symptoms, PVC burden, and increased ventricular wall stress in pat

252 (palpitations, fatigue, and [near-]syncope), PVC burden on 24-hour Holter, NT-proBNP levels, and cESS

253 f AITC evoked bradycardia but no tachycardia/PVCs in conscious SHs, while inhalation and injection of

254 Short-term PVCs accounted for a mean of 6.3% and 23% of nosocomial

255 The accuracy and precision of the tested PVC methods depended strongly on VOI method, resolution

256 Thus yeast Gga adaptors facilitate TGN-PVC transport by direct binding of noncanonical phosphor

257 ting that MRCs were much more important than PVCs.

258 We hypothesized that PVCs from these areas occur seemingly randomly because o

259 The PVC command interneurons, which are known to promote for

260 The PVC factors were calculated for every lesion using the a

261 The PVC origin was right ventricular (RV) in 29 (40%), left

262 , and a 36% increase in power output for the PVC/GO gel over traditional plasticizer only PVC gel.

263 anion are spontaneously distributed from the PVC-based membrane into the SR layer.

264 The DBA content in the PVC gel was shown to have an inverse relationship with b

265 fects of graphene oxide (GO) addition in the PVC gel were also investigated.

266 atology such as fever, carefully inspect the PVC insertion site in bacteremic or fungemic patients, a

267 egional mechanics and global function of the PVC beat itself.

268 arliest activation and 12/12 pace map of the PVC eliminated the VT in all cases.

269 ion, the electroactive adhesive force of the PVC gel is exerted on the annular anode electrode, which

270 ncy on the electrochemical reactivity of the PVC/POT SC system.

271 The results show the PVC gel micro-lens is expected to open up new perspectiv

272 presents a new analytical model to study the PVC of fractal porous media.

273 In R-from-T, the PVC and the T wave are causally related, where steep rep

274 ly much more water (0.09-0.15 wt %) than the PVC membranes (0.04-0.07 wt %).

275 ing of vacuolar proteins from the TGN to the PVC in plants.

276 Ferrocene covalently attached to the PVC polymeric chain acts as an ion-to-electron transduce

277 g in unusual areas (SOV and GCV) in whom the PVC CI was highly variable.

278 shows a high degree of association with the PVC at baseline.

279 The PVCs become resistant to inhibition and have an increase

280 Separate activation of neither the PVCs nor the RIMs appears to be sufficient for sleep ind

281 nt PVCs through medical or ablation therapy, PVCs may represent a modifiable risk factor for CHF and

282 on-level risk for incident CHF attributed to PVCs was 8.1% (95% CI: 1.2% to 14.9%).

283 ients combined with enhanced I(Ca,L) lead to PVCs emerging from the T wave.

284 response to right ventricular outflow tract PVCs with fixed short, fixed long, and variable CI.

285 erance towards gentamicin was assessed using PVC 96 well-plates assays.

286 f Viscocanalostomy/Phacoviscocanalostomy (VC/PVC) in lowering intraocular pressure (IOP) in Normal Te

287 database review of patients who underwent VC/PVC for NTG between December 2009 and November 2011 at S

288 The primary endpoint was PVC results.

289 Large amounts of waste PVC are already recovered in recycling processes, but th

290 or the 15-year risk of CHF exceeded 90% when PVCs included at least 0.7% of ventricular beats.

291 ate more pronounced LV dyssynchrony, whereas PVC location has minimal impact.

292 goal of this study was to determine whether PVC frequency ascertained using a 24-h Holter monitor is

293 g its carboxylic tail did not associate with PVC or PM in plant cells.

294 ctions (PVC) burden has been associated with PVC-induced cardiomyopathy.

295 The number of blood vessels identified with PVC on pCLE was significantly correlated with histopatho

296 d-state reference electrode implemented with PVC membranes doped with lipophilic salts (tetrabutylamm

297 ution as well as 0.4 M HNO3, while that with PVC based membrane has been carried out from 3 M HNO3.

298 paper SSA was thermochemically treated with PVC in a bench-scale rotary furnace in order to remove h

299 d first-line therapies in most patients with PVCs associated with symptoms or a reduced left ventricu

300 However, we observed patients with PVCs originating in unusual areas (SOV and GCV) in whom

301 magnetic resonance imaging in patients with PVCs revealed differential contribution of PVCs to hemod

302 The prognosis of those with PVCs is variable, with ongoing uncertainty regarding the