ライフサイエンスコーパス: cuff

1 n and 5-minute deflation of a blood pressure cuff).

2 crovascular resistance measured using a tail-cuff.

3 ges as compared with cells in the lymphocyte cuff.

4 (BP) was measured by radiotelemetry or tail cuff.

5 was lodged at the inflated endotracheal tube cuff.

6 ccumulated at the inflated endotracheal tube cuff.

7 and iHealth Bluetooth-enabled blood pressure cuff.

8 occluding the permeation path above the L105 cuff.

9 nd 12 partial-thickness tears of the rotator cuff.

10 teria included a full-thickness torn rotator cuff.

11 ith overinflation of tapered and cylindrical cuffs.

12 n = 22) polyvinyl chloride endotracheal tube cuffs.

13 rcury sphygmomanometer with appropriate-size cuffs.

14 chloride tapered, cylindrical and spherical cuffs.

15 ttic UAO in children, but only if the ETT is cuffed.

16 Here, we show that Cutoff (Cuff), a Drosophila protein related to the yeast transcr

17 are for patients suspected of having rotator cuff abnormality.

18 Cuff accumulates at centromeric/pericentromeric position

19 Our results unveil a link between Cuff activity, heterochromatin assembly and piRNA cluste

20 Thapsigargin produced perivascular fluid cuffs along extra-alveolar vessels but did not cause alv

21 Cuff also protects processed transcripts from degradatio

22 n DHI-treated SHR than controls by both tail-cuff and invasive BP measurements.

23 rats showed a good correlation between tail-cuff and radiotelemetry derived blood pressure data.

24 -fed dams measured simultaneously using tail-cuff and radiotelemetry systems.

25 e nuclear foci with Rai1/DXO-related protein Cuff and the DEAD box protein UAP56, which are also requ

26 ) brains exhibited a scarcity of lymphocytic cuffing and displayed reduced numbers of infiltrating le

27 re associated with perivascular inflammatory cuffing and parenchymal microglial activation but preced

28 ent perivascular/peribronchiolar lymphocytic cuffing and well-formed granulomas with few fungal eleme

29 nted thapsigargin from inducing perivascular cuffs and decreasing lung compliance.

30 alized to CD163+ macrophages in perivascular cuffs and lesions.

31 40% (2/5) of SK recipients without an aortic cuff, and 5% (1/19) of EBK recipients (P=0.03).

32 tator cuff, patients with a repaired rotator cuff, and patients who have undergone shoulder replaceme

33 transcripts are not spliced and that rhino, cuff, and uap56 mutations increase expression of spliced

34 the pulse interval timings detected from BP cuffs are accurate compared with RR intervals derived fr

35 ose that mammalian perivascular adventitial 'cuffs' are conserved sites in multiple organs, enriched

36 s no significant changes were evident in the cuffed arm.

37 ls of reperfusion) or control (an uninflated cuff around the arm) before arrival in the catheter labo

38 tile allodynia produced by placing a plastic cuff around the sciatic nerve resolved within several da

39 systemically, PA14::hepP formed perivascular cuffs around the blood vessels within the skin of the th

40 lex, composed of Rhino, Deadlock and Cutoff (Cuff) bind chromatin of dual-strand piRNA clusters, spec

41 Tail cuff blood pressure and uterine artery Doppler ultrasoun

42 Baseline mean (+/- SD) cuff blood pressure was 138 +/- 7 (systolic)/82 +/- 7 (d

43 measured "scale PTT", conventional PAT, and cuff BP in humans during interventions that increased BP

44 The four waveforms and manual cuff BP were recorded before and after slow breathing, m

45 using current guideline-endorsed cutoffs for cuff BP with a bootstrapping (resampling by drawing rand

46 pressure (BP) measured at brachial arteries (cuff BP).

47 predicting future cardiovascular events than cuff BP.

48 e devices and in the same way as traditional cuff BP.

49 Two were repaired with a more proximal cuff, but 3 required explantation and open repair (7%).

50 sive at 8 weeks of age when measured by tail-cuff, but had significantly lower blood pressure than co

51 n for symptom relief associated with rotator cuff calcific deposits.

52 ivo stimulation experiments show that the TF cuff can reliably stimulate nerve targets eliciting cort

53 han 2 days was included at intubation with a cuff composed of cylindrical polyvinyl chloride (n = 148

54 s such as near-infrared spectroscopy, penile cuff compression and computational flow modelling have s

55 To prospectively evaluate rotator cuff contact with the glenoid in healthy volunteers plac

56 Statistical analysis reveal that cuff contacts placed circumferentially, rather than long

57 e report multifocal perivascular lymphocytic cuffs contain increased numbers of lymphocytes in ~65% o

58 minal nerve utilizing a thin film (TF) nerve cuff containing multiple electrode sites allowing for mo

59 f blood flow to a limb with a blood-pressure cuff-could be close to becoming a clinical technique.

60 ds of managing the distal ureter and bladder cuff currently employed.

61 The control group received standard cuff deflation and a speaking valve during self-ventilat

62 correction for baseline diameters preceding cuff deflation and also post-deflation SR.

63 The early intervention group received early cuff deflation and insertion of an in-line speaking valv

64 the Terumo Elemano BP Monitor, a novel slow cuff-deflation device that could potentially be used by

65 carotid arteries modified with flow-altering cuffs demonstrated that Snail was expressed preferential

66 Cuff design characteristics significantly differ among t

67 rformed against a commercially available arm cuff device yielding systolic and diastolic readings ((m

68 nflation and 5-min deflation of an automated cuff device) before PPCI.

69 Rotator cuff disease (RCD) is the most common cause of shoulder

70 the imaging evaluation of suspected rotator cuff disease in patients with a native rotator cuff, pat

71 in a tenotomy-induced sheep model of rotator cuff disease, we tested whether mitochondrial dysfunctio

72 shoulders with clinically suspected rotator cuff disease.

73 shoulders and were strongly associated with cuff disorders (P<.001).

74 Controlling for cuff disorders, there was no relationship between anteri

75 <1 ms using a non-penetrating flexible nerve cuff electrode array.

76 he stimulation of a nerve trunk model with a cuff electrode, and b) the propagation of action potenti

77 ing cortical responses similar to a silicone cuff electrode.

78 sly from the sciatic nerve with a 16-contact cuff electrode.

79 The LVN signals recorded with cuff electrodes and the BP waves recorded with carotid c

80 esis utilizing non-penetrating multi-contact cuff electrodes implanted around the residual nerves to

81 invasive surgical procedure to implant micro-cuff electrodes onto the nerve.

82 sedation, and preexisting UAO (P < 0.04) for cuffed ETTs; and age (range, 1 mo to 5 yr) for uncuffed

83 fter radical nephroureterectomy with bladder cuff excision (RNU) for patients with upper tract urothe

84 by inflation of an upper arm blood pressure cuff for 5 minutes followed by deflation for 5 minutes.

85 r the first time in HFpEF perivascular fluid cuff formation around extra-alveolar vessels with decrea

86 resolve for the first time that perivascular cuff formation negatively impacts mechanical coupling be

87 Tapered cuffs generated higher cuff pressures and increased the

88 ix of GluN2D, including in a putative pre-M1 cuff helix that may influence channel gating.

89 s will lead to greater uniformity in rotator cuff imaging and more cost-effective care for patients s

90 Tapered cuffs improved cuff sealing performance compared with sp

91 e detection of calcifications in the rotator cuff in patients with calcific tendonitis by using conve

92 aped cuffs were not superior to conventional cuffs in preventing tracheal colonization and VAP.

93 end-feet of vascular glia (forming a 'double cuff') in drug-resistant epileptic cases but not in post

94 perivascular myeloid cells, mainly in vessel cuffs, in the CNS of patients suffering from multiple sc

95 ed arms of healthy subjects with manipulated cuff-induced flow reduction was observed.

96 Peripheral vascular reactivity to cuff-induced ischemia was quantified by temporally resol

97 ars) and in control subjects with unilateral cuff-induced lymphatic stenosis (one woman, two men; age

98 femoral/popliteal arteries and veins during cuff-induced reactive hyperemia with magnetic resonance

99 representation of inflammatory perivascular cuffs, inflammatory molecules and EMMPRIN, and these wer

100 ion was performed with progressive upper arm cuff inflation (0, 80, 100 and 120 mmHg) to elicit grade

101 th partial flow restriction (bilateral thigh cuff inflation at 100 mmHg) to evoke muscle metaboreflex

102 , by three 5-minute cycles of blood pressure cuff inflation to >200 mm Hg in the arm or thigh (20 mm

103 pressure sensor within a tracheal model upon cuff inflation up to 30 cm H2O.

104 h partial flow restriction (bi-lateral thigh cuff inflation) during leg cycling exercise, (2) isolate

105 limb ischemia-reperfusion generated by thigh cuff inflation, and plasma miRNA changes were analyzed a

106 ditioning (control), both via blood pressure cuff inflation.

107 (or dummy arm), 5-minute cycles of 200 mm Hg cuff inflation/deflation) before aortic clamping.

108 We used a rat model of rotator cuff injury in this study because the rotator cuff muscl

109 Rotator cuff injury is a very common pathology in patients with

110 ediately after both carotid wire and femoral cuff injury were induced in order to identify how differ

111 on reduced neointima formation after femoral cuff injury whereas hPBMCs promoted neointima formation

112 ecificity to MRI in the diagnosis of rotator cuff injury.

113 kage of oropharyngeal secretions simulant at cuff internal pressures of 15-30 cm H2O.

114 ophages for transmigration from perivascular cuffs into the CNS parenchyma and identifies CHCA and di

115 These results suggest that the TF cuff is a viable neural interface for stimulation of the

116 Remarkably, we show that Cuff is enriched at the dual-strand piRNA cluster 1/42AB

117 If the arms are inaccessible, the cuff is placed at the ankle or the thigh, but this commo

118 demonstrate that an implanted optical nerve cuff is well-tolerated, delivers light to the sciatic ne

119 Peak Vo2, brachial artery FMD in response to cuff ischemia, carotid artery distensibility by high-res

120 ator liberation protocol, be assessed with a cuff leak test if they meet extubation criteria but are

121 t 4 hours before extubation if they fail the cuff leak test.

122 tocols, ventilator liberation protocols, and cuff leak tests.

123 associated with subglottic UAO included low cuff leak volume or high preextubation leak pressure, po

124 s technique, preextubation leak pressures or cuff leak volumes predict subglottic UAO in children, bu

125 not show any correlation with any particular cuff lesion.

126 tertechnique agreement for detecting rotator cuff lesions were measured and compared with kappa and Z

127 and MR arthrography in depiction of rotator cuff lesions.

128 mice had smaller numbers of proinflammatory cuffs, less extensive demyelination, and reduced express

129 le limb ballistocardiography (BCG) to enable cuff-less blood pressure (BP) monitoring, by investigati

130 me (PTT) represents a potential approach for cuff-less blood pressure (BP) monitoring.

131 ansit time (PTT) is being widely pursued for cuff-less blood pressure (BP) monitoring.

132 BCG has the potential to realize convenient cuff-less BP monitoring via PTT.

133 A tonometric cuff-less mechatronic system is used to apply pressure o

134 ced the variability of tapered and spherical cuffs likewise the time spent with overinflation of tape

135 Importantly, the perivascular cuff lymphocyte numbers correlate to the quantity of ast

136 Tubes with cuffs made of polyurethane rather than polyvinyl chlorid

137 The cuffs made of polyurethane showed the best short- and lo

138 ndlimb of rats using neonatal blood pressure cuffs maintaining 120 to 140 mmHg for 3 hours resulted i

139 Impact of endotracheal tube cuff material and shape on tracheal sealing performance

140 pertension that was not captured by standard cuff measurements may have been missed.

141 METHODS AND Tail-cuff measurements of systolic and diastolic blood pressu

142 t with overinflation compared with spherical cuffs (median [interquartile range], 77.9% [0-99.8] vs.

143 Blood pressure was measured by the tail-cuff method.

144 nt pairs of stimulation electrodes on the TF cuff modulated the magnitude and/or spatial pattern of c

145 xis, subglottic secretion drainage, tracheal cuff monitoring).

146 When cuff-mounted and acutely implanted onto the sciatic nerv

147 Standard rotator cuff MR sequences yielded a sensitivity of 59% (95% CI:

148 tivity and specificity than standard rotator cuff MR sequences.

149 uff injury in this study because the rotator cuff muscle group is particularly prone to the developme

150 For grading fatty infiltration of rotator cuff muscles, kappa and Z statistics were used.

151 rogravity than the joint-stabilizing rotator cuff muscles.

152 all pressure significantly differs among the cuffs (n: 96, p < 0.001).

153 is extremely heterogeneous and differs among cuffs, occasionally reaching localized, very high, unsaf

154 indirectly by slowly releasing a pressurized cuff occluding indocyanine green (ICG), demonstrated an

155 arger, have less vasodilation in response to cuff occlusion, but more constriction after a cold press

156 by reactive hyperemia index after upper arm cuff occlusion.

157 active hyperemia induced by 5-minute forearm cuff occlusion.

158 configuration, shape, and the presence of a cuff of fluid, were examined using spectral-domain optic

159 min (Parv)-positive neurons and a peripheral cuff of Foxb1-expressing ones.

160 ned that macrophages within the perivascular cuff of post-capillary venules are highly glycolytic as

161 ithelial detachment (PED) in right eye and a cuff of subretinal fluid with underlying yellow deposits

162 his deficiency was associated with increased cuffing of T cells around the vessels in the lungs of th

163 Eight high-volume low-pressure cuffs of cylindrical or tapered shape, made of polyvinyl

164 preoperatively by inflating a blood pressure cuff on the upper arm to 200 mm Hg for 3x5 minutes, with

165 and deflations of a standard blood-pressure cuff on the upper arm) or sham conditioning (control gro

166 nd right quadriceps (QD(R)), and stimulating cuffs on both posterior tibial (PT) nerves and right pos

167 EMG electrodes in SOL and TA and stimulating cuffs on the posterior tibial nerve.

168 0% (0/9) of SK recipients in which an aortic cuff or conduit was used, 40% (2/5) of SK recipients wit

169 ertheless, in the multivariate analysis, the cuff outer diameter (n: 288, p = 0.003) and length (n: 2

170 The high-volume low-pressure cuffs' outer diameter, length, material, and internal pr

171 ff disease in patients with a native rotator cuff, patients with a repaired rotator cuff, and patient

172 Consistent with this observation, Cuff physically interacts with the Heterochromatin Prote

173 dition in the rat by means of a polyethylene cuff placed around in the sciatic nerve.

174 expression, was also suppressed after nerve cuff placement and remained suppressed 3 weeks after cuf

175 test performance that developed after nerve cuff placement remained for at least 3 weeks after the n

176 ss protocols mimicking those imposed by tail-cuff plethysmography (novel environment, heat, restraint

177 lic blood pressure data by the indirect tail-cuff plethysmography method consistently shows increased

178 d a data logger which synchronously measured cuff pressure and ECG.

179 ed performance at the cost of an increase in cuff pressure and in time spent with overinflation.

180 t apparent from conventional brachial artery cuff pressure assessments.

181 ing central blood pressure (BP) maintain the cuff pressure at a constant level to acquire a pulse vol

182 Continuous cuff pressure control did not impact sealing performance

183 s were to determine the impact of continuous cuff pressure control on sealing performance and pressur

184 Continuous cuff pressure control reduced the variability and normal

185 Continuous cuff pressure control reduced the variability of tapered

186 Continuous cuff pressure control was implemented in 33 blocks.

187 h spherical cuffs with or without continuous cuff pressure control.

188 r-dimensional magnetic resonance imaging and cuff pressure measurements in the brachial artery.

189 t applied tightly and inflated to a constant cuff pressure of 50 mmHg).

190 to quantify the different effect of external cuff pressure on arterial volume distensibility between

191 99% of the cuff pressure recordings had more than 10 successive det

192 e used to assess differences between ECG and cuff pressure timings and to investigate the effect of p

193 ith corresponding intervals derived from the cuff pressure tracings using three different pulse landm

194 pplied to estimate brachial BP levels from a cuff pressure waveform obtained during conventional defl

195 recorded simultaneously under five external cuff pressures (0, 10, 20, 30 and 40 mmHg) on the whole

196 Tapered cuffs generated higher cuff pressures and increased the time spent with overinf

197 With the applied external cuff pressures of 10, 20, 30 and 40 mmHg, the overall ch

198 Cuff pressures were continuously recorded, and after 2 h

199 ntrol reduced the variability and normalized cuff pressures without impacting sealing performance.

200 ferences are not identifiable using brachial cuff pressures.

201 Cuff prevents cleavage of nascent RNA at poly(A) sites b

202 Here, we show that Cuff prevents premature termination of RNA polymerase II

203 rief inflation/deflation of a blood pressure cuff protects against endothelial dysfunction and myocar

204 Compared with spherical cuffs, tapered cuffs reduced the microaspiration score without and with

205 owever, the physiologic consequences of such cuffs remain poorly understood.

206 cement and remained suppressed 3 weeks after cuff removal.

207 regarding clinical outcome following rotator cuff repair has been limited.

208 al procedures (open and arthroscopic rotator cuff repair).

209 f residual pain and disability after rotator cuff repair.

210 clinical outcome scores 1 year after rotator cuff repair.

211 osed sepsis compared with silver-impregnated cuffs (RR, 0.54 [95% CI, .29-.99]).

212 Tapered cuffs improved cuff sealing performance compared with spherical cuffs w

213 Polyvinyl chloride tapered cuffs sealing enhanced performance at the cost of an inc

214 Before the CT examination, a miniature cuff-shaped ultrasonographic flow probe encircling the r

215 The tapered cuffs showed the lowest tracheal wall contact area (n: 9

216 in terms of bleeding, and thrombosis at the cuff side was slightly higher in the ORT group.

217 er models developed for arthroscopic rotator cuff simulation was presented.

218 In 150 patients, whatever the cuff site, the agreement between invasive and noninvasiv

219 f 149) of intensivists estimated the correct cuff size rather than measuring arm circumference direct

220 tor units by the lowest-intensity electrical cuff stimulation.

221 Blood pressure was measured by arm cuff; stroke volume (SV), ejection fraction, and end-dia

222 ed a local interaction at the ionic layer by cuffing syntaxin 1A and synaptobrevin 2, similar to the

223 Compared with spherical cuffs, tapered cuffs reduced the microaspiration score w

224 o groups in terms of the size of the rotator cuff tear (p > 0.05).

225 surgical repair of a full-thickness rotator cuff tear at a single institution between April 16, 2012

226 not demonstrate an increased risk of rotator cuff tear based on their MRI compared to patients with s

227 and medial-lateral retraction of the rotator cuff tear on the preoperative MRI and assessed tendon de

228 The frequency of rotator cuff tear was found to be significantly higher in the co

229 ocalisation of calcification and the rotator cuff tear, and only in 4.4% of the participants were cal

230 Out the 68 patients with rotator cuff tear, supraspinatus was the most commonly affected

231 ed between calcific tendinopathy and rotator cuff tear.

232 te for diagnosis of a full-thickness rotator cuff tear.

233 nd AI have a direct correlation with rotator cuff tear.

234 rocesses that are dysregulated after rotator cuff tear.

235 The LAA of cuff-tear patients was significantly different from that

236 of controls were significantly smaller than cuff-tear patients.

237 ( OR odds ratio = 138, P < .001) and rotator cuff tears ( OR odds ratio = 5.4, P = .015) after age 25

238 well with respect to full thickness rotator cuff tears (FTT).

239 nd (USG) and MRI in the diagnosis of rotator cuff tears (RCT) and to determine if high resolution USG

240 Rotator cuff tears (RCT) are the common aetiology of shoulder pa

241 Rotator cuff tears (RCTs) represent a significant proportion of

242 presence of biceps tendinopathy, and rotator cuff tears adjacent to the rotator interval.

243 e development of an os acromiale and rotator cuff tears after age 25 years.

244 tertechnique agreement for measuring rotator cuff tears and grading muscle fatty infiltration.

245 A higher prevalence of rotator cuff tears and impingement associated with low lateral a

246 romising results in the diagnosis of rotator cuff tears and in differentiating partial from complete

247 pain caused, among other things, by rotator cuff tears due to narrowing of subacromial space, acute

248 e prevalence of partial and complete rotator cuff tears in magnetic resonance images of patients with

249 Investigation of cuff tears is based on ultrasonography (US) and magnetic

250 However, the diagnosis of rotator cuff tears is controversial.

251 e development of an os acromiale and rotator cuff tears later in life was assessed with follow-up ima

252 e between US and MRI in detection of rotator cuff tears of any type (RCT) or FTT.

253 ne whether patients with more severe rotator cuff tears of the shoulder at preoperative MRI have a gr

254 e matched, were compared in terms of rotator cuff tears on their shoulder MRI images.

255 40 patients were diagnosed as having rotator cuff tears on ultrasound (USG) and MRI.

256 tients who had positive findings for rotator cuff tears on ultrasound and/or MRI were finally include

257 0 patients with clinically suspected rotator cuff tears underwent both ultrasound and MRI of the shou

258 We assessed the association of rotator cuff tears with commonly used radiographic parameters of

259 raphic acromial characteristics with rotator cuff tears, but the results have not been conclusive.

260 Conclusion Patients with larger rotator cuff tears, more tendon retraction, and more severe tend

261 med to assess for joint subluxation, rotator cuff tears, tendinosis, subacromial-subdeltoid bursitis

262 In the diagnosis of rotator cuff tears, the strength of agreement between ultrasound

263 on the causes and classification of rotator cuff tears.

264 vestigation of choice for diagnosing rotator cuff tears.

265 ality of first choice for evaluating rotator cuff tears.

266 accuracy of US and MRI in diagnosing rotator cuff tears.

267 r harvest followed by implantation using the cuff technique for bronchovascular anastomoses.

268 sed before and after training using the tail-cuff technique.

269 sografts were completed using an anastomotic cuff technique.

270 ALB/c or C57BL6 recipients using a nonsuture cuff technique.

271 lth eHeart users of Bluetooth blood pressure cuff technology, there were some striking differences; f

272 stent positive treatment effects for rotator cuff tendinitis were achieved by ultrasound-guided subac

273 from patients with chronic shoulder rotator cuff tendon tears have dysregulated resolution responses

274 ic performance for the evaluation of rotator cuff tendon tears.

275 in for at least 3 months with intact rotator cuff tendons, were eligible for arthroscopic surgery, an

276 n conjunction with injuries to other rotator cuff tendons.

277 Neuropathic pain was induced by cuffing the right sciatic nerve of C57BL/6J mice.

278 ipulated in one arm by inflating a pneumatic cuff to 100 mmHg, whilst the other arm remained uncuffed

279 hree 5-minute inflations of a blood pressure cuff to 200 mm Hg around the upper arm, followed by 5-mi

280 r of methylene blue were instilled above the cuff to quantify microaspirations, and lungs were ventil

281 was largely reversed by inflating an aortic cuff to restore MAP (n = 5), suggesting that the muscimo

282 Lung inflammation causes perivascular fluid cuffs to form around extra-alveolar blood vessels; howev

283 The cuff-trachea contact area and the percentage of tracheal

284 mitted tracheal wall pressure throughout the cuff-trachea contact area was determined using an intern

285 ety percent of tracheal intubation were with cuffed tracheal tubes.

286 A cuffed tracheostomy tube facilitates prolonged mechanica

287 sk factors for subglottic UAO, stratified by cuffed versus uncuffed endotracheal tubes (ETTs).

288 nerve resolved within several days when the cuff was removed.

289 A typically thin mural myofibroblastic cuff was smooth muscle actin positive, weakly calponin p

290 Using a pneumatic cuff, we pressurize muscle midcontraction at 260 mmHg an

291 ter diameter, length, and compliance of each cuff were assessed.

292 of having calcific tendonitis of the rotator cuff were included.

293 Partial tears of rotator cuff were more common than complete tears.

294 The four best performing cuffs were evaluated for 24 hrs using an internal pressu

295 lation, polyurethane and/or conically shaped cuffs were not superior to conventional cuffs in prevent

296 emained for at least 3 weeks after the nerve cuffs were removed, or 10-15 d following complete normal

297 Cuffs were tested within a tracheal model, oriented 30 d

298 In perivascular cuffs with low-level SIV replication, MAC387(+) monocyte

299 sealing performance compared with spherical cuffs with or without continuous cuff pressure control.

300 ested the hypothesis that perivascular fluid cuffs, without concomitant alveolar edema, are sufficien