ライフサイエンスコーパス: banding

1 en underwent laparoscopic adjustable gastric banding).

2 ariatric surgery (gastric bypass and gastric banding).

3 increased in debanding compared with sham or banding.

4 have a surgical procedure other than gastric banding.

5 ongside mechanisms such as kinking and shear banding.

6 basis of morphology and reverse DAPI (rDAPI) banding.

7 ng II stimulation, as well as chronic aortic banding.

8 strectomy have a greater effect than gastric banding.

9 ocedures following failed adjustable gastric banding.

10 ocedures following failed adjustable gastric banding.

11 similar plastic morphology governed by shear banding.

12 tricular hypertrophy (LVH) induced by aortic banding.

13 elected for unbalanced 1q12 aberrations by G-banding.

14 and 2008 for patients who had prior gastric banding.

15 strectomy and 1 following adjustable gastric banding.

16 ls that had undergone exercise before aortic-banding.

17 blished cardiac dysfunction caused by aortic-banding.

18 sually correlated with recognized chromosome banding.

19 d enhances myofibrillogenesis and sarcomeric banding.

20 ene expression is determined before afferent banding.

21 on rate than laparoscopic adjustable gastric banding.

22 ore than doubled within 30 mins after aortic banding.

23 se hearts at 7, 14, and 21 days after aortic banding.

24 Newborn rabbits underwent aortic banding.

25 ular remodeling induced by transverse aortic banding.

26 te atrial pressure overload caused by aortic banding.

27 s observed at 3 wk but not at 1 wk after the banding.

28 ) after gastric bypass but not after gastric banding.

29 a myriad of mechanisms to rationalize shear banding.

30 hemodynamics were measured at 4-months post-banding.

31 e chain reaction testing, and no oligoclonal banding.

32 ad undergone laparoscopic adjustable gastric banding.

33 in Yorkshire swine by partial pulmonary vein banding.

34 s, sleeve gastrectomy, or adjustable gastric banding.

35 y patients underwent gastric bypass (13.2%), banding (18.7%), or vertical banded gastroplasty (68.1%)

36 c dysfunction improved simultaneously (E/E': banding, 18.5+/-4.1, debanding, 15.1+/-1.8, P=0.029).

37 ular velocity ratio, E/E': sham, 13.6+/-2.1, banding, 18.5+/-4.1, P=0.014) accompanied by increased o

38 ts in the bariatric-surgery cohort underwent banding (19%), vertical banded gastroplasty (69%), or ga

39 23.8+/-6.9 years) had prior pulmonary artery banding (2-stage ASO).

40 reater initial weight reduction than gastric banding (2.77 kg/mo).

41 dative stress (dihydroethidium fluorescence: banding, 2.6x10(8)+/-4.5x10(7), debanding, 1.96x10(8)+/-

42 m fluorescence: sham, 1.6x10(8)+/-6.1x10(7), banding, 2.6x10(8)+/-4.5x10(7), P<0.001) and augmented m

43 f the myocyte minor axis for isolated aortic banding (36 +/- 9%, n = 3) and MI cardiomyocytes located

44 Retrospective analyses suggest that banding a sleeve using a silicone ring may decrease weig

45 bjected LUM knock-out (LUMKO) mice to aortic banding (AB) and treated cultured cardiac fibroblasts (C

46 fically in the heart are resistant to aortic banding (AB)-induced cardiac hypertrophy, whereas mice l

47 sted RR, 16.6; 95% CI, 4.7-58.4) and gastric banding (adjusted RR, 6.9; 95% CI, 3.1-15.2).

48 s (RYGB) and laparoscopic adjustable gastric banding (AGB) are 2 of the most commonly performed baria

49 gastric bypass (RYGB) or adjustable gastric banding (AGB) in the MarketScan Commercial Claims and En

50 study was to analyze the adjustable gastric banding (AGB) natural history on a national basis.

51 erans who underwent RYGB, adjustable gastric banding (AGB), or sleeve gastrectomy (SG).

52 ody weight (BW) more than adjustable gastric banding (AGB), which does not trigger increased GLP-1 se

53 Myocardial infarction and thoracic aortic banding amplified the NEC pool, increasing fibroblast di

54 or numerical) identified by using chromosome-banding analysis (CBA) may be relevant for treatment dec

55 Our G-banding analysis revealed that the chromosome number var

56 is and assessment of karyotype by chromosome banding analysis.

57 d as a rescue procedure after failed gastric banding and (2) study trends in the frequency of reopera

58 ure overload, transverse aortic constriction banding and angiotensin II infusion, and a genetic model

59 frequency of reoperations related to gastric banding and associated short-term outcomes are unknown.

60 es an animal model for nonadjustable gastric banding and characterizes the effect of gastric banding

61 by describing the competition between shear banding and diffusive relaxation processes, and is remin

62 We used bird banding and encounter data for American kestrels (Falco

63 n of rhythmic features such as compositional banding and foliation in rocks that are reacting or diss

64 and Atcayos mutant mice by transverse aortic banding and found that absence of these lincRNAs did not

65 ictive procedures such as adjustable gastric banding and gastroplasty were excluded.

66 s, including laparoscopic adjustable gastric banding and laparoscopic Roux-en-Y gastric bypass.

67 nemoralis crosses that segregate for colour, banding and pigmentation, and several other unlinked she

68 y and mitophagy-related markers increased in banding and remained higher in debanding rats.

69 Using gel banding and retardation as a read-out for protein adsorp

70 lays various patterns, including nodulation, banding and scallops and fingers.

71 documented benefit for combination therapy (banding and sclerotherapy).

72 Weight banding and size correction methods for normalizing dose

73 ere, chronic (2 years) LVH induced by aortic banding and then were compared with controls.

74 olecular karyotype arrays, Giemsa banding (G-banding) and fluorescent in situ hybridization (FISH) ex

75 % sleeve gastrectomy, 10% adjustable gastric banding, and 1% other.

76 -Y bypass, 62% (95% CI, 46-79) after gastric banding, and 60% (95% CI, 51-70) after sleeve gastrectom

77 s, 13% underwent gastric bypass, 19% gastric banding, and 68% vertical-banded gastroplasty.

78 paroscopic), laparoscopic adjustable gastric banding, and biliopancreatic diversion (with or without

79 induced in athymic rats by pulmonary artery banding, and cells were implanted into the RV free wall.

80 timates of recombination between both colour/banding, and colour/pigmentation loci are zero, incomple

81 istone H3 dimethylated at lysine 4 and for C-banding, and forms huge condensed middle chromosome regi

82 alve repair or replacement, pulmonary artery banding, and implantation of an assist device into the s

83 tric bypass, laparoscopic adjustable gastric banding, and laparoscopic sleeve gastrectomy.

84 Roux-en-Y gastric bypass, adjustable gastric banding, and most recently sleeve gastrectomy for both s

85 ry hypertension, the murine pulmonary artery banding, and rat monocrotaline and Sugen5416/hypoxia mod

86 ), dilated cardiomyopathy induced via aortic banding, and sham surgery confirmed and quantified heter

87 c bypass and laparoscopic adjustable gastric banding, and their effects on weight loss, comorbidities

88 After 8 to 9 weeks, half of the banding animals underwent overload relief by an aortic d

89 This is an extension of the temporal banding approach including a Temporal Error Score that f

90 The use of laparoscopic adjustable gastric banding approached one-third (32.1%) of all procedures b

91 y distributed, without apparent gradients or banding arrangements.

92 Although laparoscopic gastric banding as a primary treatment of morbid obesity has bee

93 after gastric bypass and 1.9% after gastric banding at latest follow-up (P < 0.001 for both groups).

94 is characterized by shear and concentration banding at the polar/isotropic interface.

95 Second, we analysed effects of aortic banding because NCX1 currents do not mirror the increase

96 izens who received gastric bypass or gastric banding between January 1, 1997, and December 31, 2012,

97 ere prepared, showing the reproducibility of banding between sister chromatids, homologue pairs and f

98 These findings suggest that gastric banding causes esophageal outlet obstruction and subsequ

99 When subjected to the new protocol, banding characteristic of L. purpureus were detected whi

100 logical cardiac hypertrophy following aortic banding, confirming and extending our previous data that

101 After mechanical overload obtained by aortic banding constriction, the Ca(2+) transient was prolonged

102 tic abnormalities, identified by classical G-banding, correlate with prognosis.

103 iety of different mechanisms including shear banding, crack formation and delamination.

104 distances determined from ring-and-recovery banding data, and used allometric scaling equations to q

105 increasing the spatial frequency of axial OS banding decreases OS rigidity, reducing its fragility.

106 mice at baseline and after abdominal aortic banding demonstrated that KO mice developed less ventric

107 nt primary prophylaxis (sclerotherapy and/or banding, depending on age and weight).

108 We show that visual banding develops at a given stress and host-rock permeab

109 of the couples were almost identical, minor banding differences existed between the source and susce

110 y resolved reduction of order prior to shear banding due to increased strain.

111 Rats with POH (ascending aortic banding) evolved into either compensated-concentric POH

112 subjected to oxidative stress by transaortic banding exhibited exaggerated cardiac hypertrophy and su

113 elasticity theory, representing the axial OS banding explicitly via a spring-bead model.

114 Using G-banding, fluorescence in situ hybridization, and spectra

115 form higher order structures, and mimics the banding found in natural collagen fibers.

116 to their widespread distribution and regular banding frequency.

117 se include a series of ranges known as Texas banding (from the Texas Risk Reduction Program) as well

118 esolution molecular karyotype arrays, Giemsa banding (G-banding) and fluorescent in situ hybridizatio

119 ty, 13 to RY gastric bypass; 71 gastroplasty/banding (GP/B): all revised to Roux-en-Y gastric bypass

120 ry procedure after failed adjustable gastric banding (group 2).

121 Laparoscopic adjustable gastric banding has been demonstrated to permit important weight

122 cadianly regulated spore formation (conidial banding), has remained an integral tool in the study of

123 m mice that have undergone transverse aortic banding have increased MDM2 levels associated with decre

124 astric bypass procedure after failed gastric banding have more adverse outcomes than those undergoing

125 ve operations, especially adjustable gastric banding, have a lower risk but are somewhat less effecti

126 Manometric measures were equivalent prior to banding in all groups.

127 This transformed behaviour suppresses shear-banding in bulk samples in normal uniaxial (tensile or c

128 tered buoyant density and can be purified by banding in cesium chloride (CsCl) gradients.

129 Density banding in coral skeletons provides a record of growth o

130 ng different methods: cytological chromosome banding in human cells and DNA isotopic-labeling techniq

131 Most secreted RNA was noninfectious, banding in isopycnic gradients at a density of 1.04-1.07

132 pathologic cardiac hypertrophy after aortic banding in mice.

133 te that fibroblast accumulation after aortic banding in murine hearts arises almost exclusively from

134 no changes in motility or lipopolysaccharide banding in the mutants, implying a role that is limited

135 ensional finite-element simulations of shear banding in this type of specimens are the first of their

136 Aortic-banding in untrained non-Tg controls led to pathological

137 of GRK5 is enhanced in myocytes after aortic banding in vivo and in vitro in myocytes after increased

138 in recurrence was due to the need for repeat bandings in the RBL group.

139 ations after laparoscopic adjustable gastric banding include stomal stenosis, malpositioned bands, po

140 fibre remains displaying approximately 67 nm banding, indicating the possible preservation of the ori

141 nics of the overlap and gap regions in the D-banding individually.

142 Compared with WT mice, aortic banding induced a similar degree of cardiac hypertrophy

143 Echocardiography revealed that banding induced concentric hypertrophy and diastolic dys

144 Pressure overload induced by aortic banding induced heart failure and greatly increased card

145 In a model of aortic banding-induced chronic pressure overload, heart functio

146 ia or Monocrotaline) versus pulmonary artery banding-induced RVH (PAB-RVH).

147 atomistic simulations demonstrate that shear banding instability no longer afflicts the 5- to 10-nm-t

148 and 171) exhibited reduced and more diffuse banding intensity and slightly upshifted mobility (HBc 1

149 in N. dutertrei and suggest that diurnal Mg-banding is an intrinsic component of biomineralization i

150 The observed banding is consistent with tandem coassembly of alternat

151 The number of reoperations after gastric banding is rapidly increasing in the United States.

152 Strain localization (shear banding) is observed on the boundaries of the flows at i

153 kg/m(2)) or laparoscopic adjustable gastric banding (LAGB) (n = 10, BMI 46.5 +/- 8.8 kg/m(2)).

154 ss (RYGB) or laparoscopic adjustable gastric banding (LAGB) are not well described.

155 The enthusiasm for laparoscopic adjustable banding (LAGB) has been tempered by high reoperation rat

156 s induced by laparoscopic adjustable gastric banding (LAGB) or Roux-en-Y gastric bypass (RYGB) surger

157 t studies of laparoscopic adjustable gastric banding (LAGB) reported data on 352 patients (mean BMI 4

158 omy (LSG) or laparoscopic adjustable gastric banding (LAGB) were included in the study.

159 pass (RYGB), laparoscopic adjustable gastric banding (LAGB), and an intensive lifestyle weight loss i

160 ss (RYGB) or laparoscopic adjustable gastric banding (LAGB), we assessed percent weight change from b

161 ho underwent laparoscopic adjustable gastric banding (LAGB).

162 re and after laparoscopic adjustable gastric banding (LAGB).

163 after failed laparoscopic adjustable gastric banding (LAGB).

164 ss [RYGB] or laparoscopic adjustable gastric banding [LAGB]) followed by low-level lifestyle interven

165 Because of the lack of an endoscopic banding ligation device for pediatric patients, EIS is u

166 set, in which all patients were treated with banding ligation, MELD predictions were accurate up to t

167 ergene' containing tightly linked colour and banding loci and more loosely linked pigmentation, sprea

168 Patients who underwent laparoscopic gastric banding lost less weight (change in BMI, 6.4 +/- 0.7) th

169 rwent the same stress using pulmonary artery banding (Low-PAB).

170 Further modifications to the carbon banding may be made as requested for risk assessment.

171 compared our method with the other temporal banding method.

172 Classical banding methods provide basic information about the iden

173 equences not identifiable using conventional banding methods.

174 In vivo, in the supracoronary aortic banding+MetS animals, reducing IL-6, either by anti-IL-6

175 h sham conditions, only supracoronary aortic banding+MetS rats developed precapillary PH, as measured

176 PH in supracoronary aortic banding+MetS was associated with macrophage accumulation

177 DAC inhibitors in a physiologically relevant banding model of hypertrophy, observing dose-responsive

178 ional RV hypertrophy in the pulmonary artery banding model showed normal expression of peroxisome pro

179 In the aortic banding model, the sensitivity of systolic Ca(2+) to LCC

180 fibrosis progression in the pulmonary artery banding model, without improving RV functional parameter

181 ax avenae subsp. citrulli (Aac), chilli vein-banding mottle virus (CVbMV, potyvirus), watermelon silv

182 2 most common procedures, adjustable gastric banding (n = 109) and gastric bypass (n = 109), were com

183 Adjustable or nonadjustable banding (n = 61), vertical banded gastroplasty (n = 227)

184 Procedures included laparoscopic gastric banding (n=1053), gastric bypass (795), and sleeve gastr

185 (Roux-en-Y gastric bypass, n = 162; gastric banding, n = 32; sleeve gastrectomy, n = 23), a mean exc

186 ric surgery (laparoscopic adjustable gastric banding; n = 30).

187 ssive RV pressure overload (pulmonary artery banding, not associated with structural alterations of t

188 Animals then underwent thoracotomy and banding of ascending aorta producing left ventricular fa

189 By performing pulmonary artery banding of different diameters for 7 weeks, mild RV dysf

190 tains a ciliary root with a pronounced cross-banding of electron-dense material that should be import

191 a periodicity consistent with the D-periodic banding of higher-order fibers assemblies.

192 In contrast, under elevated CO2 no banding of Mg is recognisable and overall Mg concentrati

193 ding and characterizes the effect of gastric banding on esophageal physiology.

194 with alternating dark and light "tiger tail" banding on polarized light microscopy.

195 wined fiber morphologies, each with periodic banding on the nanometer scale.

196 nd two were stable after esophageal variceal banding or diuretic therapy of ascites.

197 007, per-protocol) underwent gastric bypass, banding or vertical banded gastroplasty, and matched con

198 with those who underwent adjustable gastric banding (OR, 8.37 [95% CI, 7.44-9.43]; OR, 21.43 [95% CI

199 diabetic patients undergoing either bypass, banding, or very low calorie diet were followed up for 4

200 sleeve gastrectomy and 16% following gastric banding (P<0.0001).

201 ctomy, and 50% of patients following gastric banding (P=0.004).

202 oss, 72% (16/22) of bypass and 17% (2/12) of banding patients (P = 0.001) fulfilled the definition of

203 analysis of EBV terminal repeats revealed a banding pattern consistent with the integration of het D

204 The protocol yielded a distinct triple-banding pattern for L. purpureus, whereas L. synagris an

205 The banding pattern is characterized by an axially repeating

206 C-terminal Panx2 truncation mutant showed a banding pattern more consistent with an octamer.

207 L. synagris and O. chrysurus showed a double banding pattern of different sizes, thereby allowing dif

208 te status, which is defined as an incomplete banding pattern of HTLV protein Gag (p19 or p24) or Env

209 as generated by allelic replacement, and the banding pattern of O-PS was observed by immunoblot analy

210 or generating the characteristic 6-nt ladder banding pattern of telomeric DNA products in vitro.

211 at their light coloration stems from a novel banding pattern on individual hairs produced by an incre

212 Expression of EAAT4 follows a parasagittal banding pattern that allows us to compare regions of hig

213 smooth mini-fibrils with the cross-striated banding pattern typical of fibrillar collagens.

214 The same banding pattern was observed using Ca2+ imaging.

215 nternal transcribed spacer) and protein band banding pattern were most similar to a subset of B. baci

216 These fibrils are characterized by a banding pattern with a D-period of 67 nm.

217 fined by field-inversion gel electrophoresis banding pattern), emm types, and emm clusters at visits

218 nonclassic protease-resistant prion protein banding pattern, with a prominent approximately 8-kDa pr

219 lypeptides corresponding to 14+15 and type 2 banding pattern.

220 e level, we detect no difference between the banding patterns along chromosomes from primary lymphocy

221 However, banding patterns and available sequences suggest variati

222 ased typing techniques that generate complex banding patterns and lack uniform interpretation criteri

223 ential predictive relationships between PFGE banding patterns and particular serotypes.

224 Chromosome banding patterns are correlated with unique patterns of

225 rom the same patient exhibited identical LPS banding patterns by silver staining and indistinguishabl

226 However, only the banding patterns from the ERIC primers and BOX primers w

227 ally assessed by direct visualization of the banding patterns from whole-cell lysates on SDS-PAGE gel

228 Banding patterns generated with ERIC primers, REP primer

229 Banding patterns were analyzed both visually and with Bi

230 Five RS-PCR banding patterns were identified.

231 Although the retrotransposon banding patterns were unstable after prolonged incubatio

232 in-in-sap-in-resin double emulsions, showing banding patterns with differential content of resin-in-s

233 oral host age by quantifying annual skeletal banding patterns, and utilise high-throughput sequencing

234 distinctly identified by unique ladder-like banding patterns.

235 istent and clearly defined immunofluorescent banding patterns.

236 re calculated to predict electrophoretic gel banding patterns.

237 wn USA types into 11 clusters and six unique banding patterns.

238 of chromosomes on the basis of their unique banding patterns.

239 and some covariance between shell colour and banding patterns.

240 d from different individuals showed distinct banding patterns; only samples obtained from the same pa

241 the benA amplicon with BccI generated unique banding patterns; the results were validated by screenin

242 d prebanding, at 2-week intervals during the banding period (up to 14 weeks), and 2 and 4 weeks after

243 iseus having larger centromeres with large C-banding positive regions.

244 ent sham or ascending (supravalvular) aortic banding procedure.

245 is drastically reduced following the aortic banding procedure; however the cells are able to compens

246 rils with a PrP(res)-like protease-resistant banding profile.

247 otein isolates exhibited complex polypeptide banding ranging from molecular weight of 11-75 kDa.

248 number of reoperations after failed gastric banding rapidly increased in the United States during th

249 onic pathway densities in compensated aortic banding rats maintain Ca(2+) function and efficiency.

250 d the pressure-loaded RV in pulmonary artery banding rats.Conclusions: RVX208, a clinically available

251 Banding remains the therapy of choice for this group of

252 Adjustable gastric banding represented the most common bariatric procedure

253 I, 0.08-3.56) for gastric bypass and gastric banding, respectively.

254 I, 0.40-3.75) for gastric bypass and gastric banding, respectively.

255 , 0.12-11.49) for gastric bypass and gastric banding, respectively.

256 atients receiving gastric bypass and gastric banding, respectively.

257 Nonadjustable gastric banding results in impaired esophageal body motility, a

258 gery, stratified by type of surgery (gastric banding, Roux-en-Y gastric bypass, sleeve gastrectomy, o

259 Moreover, pulmonary artery banding-RV tissue exhibited preserved transcription fact

260 The broad indication for gastric banding should be reaffirmed for the US population.

261 as well as HBc 167, exhibited no detectable banding signal, indicating loss of capsid integrity or s

262 Surgical management (gastric banding, sleeve gastrectomy, and Roux-en Y gastric bypas

263 bariatric surgery models, including gastric banding, sleeve gastrectomy, Roux-en-Y gastric bypass (R

264 r 10-20 mum in length, with a quantifiable D-banding spacing variation of 0.2%.

265 We used G-banding, spectral karyotyping (SKY), and locus- and regi

266 PG) from aqueous solutions to form nanosized banding structures whose sizes can be systematically tun

267 The gastric banding subset was composed of 800 (74.7%) women and 271

268 reason for revision with adjustable gastric banding surgery.

269 murine hearts subjected to transverse aorta banding surgery.

270 el of hypertrophy induced by thoracic aortic banding (TAB).

271 Accordingly, transverse aortic banding (TAC) was performed in mice to determine the eff

272 e's efficiency is the development of a novel banding technique for multiple RNA alignment.

273 , upon exposure to pressure overload (aortic banding), TG hearts developed more eccentric remodeling,

274 .5-folds within 14 days of transverse aortic banding that induced cardiac hypertrophy in adult mouse

275 a group of snake species with variable black banding, the genera Sonora, Chilomeniscus, and Chionacti

276 During banding, there was a 36% decrease in baseline mean resti

277 r when young animals are subjected to aortic banding, they develop an unexpected phenotype of progres

278 from 49% for laparoscopic adjustable gastric banding to 76% for Roux-en-Y gastric bypass.

279 ductal stent and bilateral pulmonary artery banding to a 2-mm diameter.

280 The use of gastric banding to treat obesity has increased drastically in th

281 lowed by 1 week of pressure overload (aortic-banding) to induce pathological remodeling.

282 es to confine any initial deformation (shear banding) to the glassy regions separating dendrite arms

283 c bypass and laparoscopic adjustable gastric banding-to treat T2DM in severely obese patients.

284 After 4 weeks of aortic banding (transverse aortic constriction (TAC)), increase

285 ilk from mammary glands infected with RS-PCR banding type 1 (RSP type 1) than in milk from those infe

286 h frequency for the colour (pink/yellow) and banding (unbanded/banded) loci has been examined for a l

287 Shear banding was initiated with both microcompression and nan

288 sclerotherapy or cyanoacrylate injection as banding was not suitable for those patients due to profu

289 sis and psoriatic arthritis, whereas gastric banding was not.

290 pertrophy (PoH) produced by ascending aortic banding, we correlated mechanical and structural changes

291 rdiac hypertrophy induced by thoracic aortic banding, we found that functional upregulation of SK2 ch

292 Using supracoronary aortic banding, we induced diastolic dysfunction in rats.

293 undergoing either gastric bypass or gastric banding were followed up for 36 months.

294 tient radiation doses normalized with weight banding were not significantly different from those that

295 l sleeve gastrectomy, and adjustable gastric banding were performed in 66%, 28%, and 6% of patients,

296 ressure overload induced by pulmonary artery banding were treated with RVX208 in three independent la

297 ion remained stable until 7 to 8 weeks after banding, when there was significant deterioration (fract

298 Combining bilateral pulmonary artery banding with arterial duct stenting, the hybrid approach

299 rocedure combining surgical pulmonary artery banding with catheterization stenting of the ductus arte

300 eatment for diabetes than adjustable gastric banding within 6 to 12 months.