ライフサイエンスコーパス: diaphragmatic

1 However, diaphragmatic abnormalities at the initial phase of crit

2 enic nerve stimulation method allowing early diaphragmatic activation even in deep sedation and, 2) m

3 Patients with ILD had greater diaphragmatic activity, whereas patients with COPD had g

4 ilation with muscle paralysis and absence of diaphragmatic activity.

5 and to identify risk factors that can worsen diaphragmatic activity.

6 A total of 218 patients (14%) had diaphragmatic agenesis and underwent repair.

7 When patients with diaphragmatic agenesis from the first 2 years were compa

8 The survivors with diaphragmatic agenesis had prolonged hospital stays comp

9 Following 6 h and 18 h of MV, diaphragmatic Akt activation decreased in parallel with

10 In multivariate analysis sniff trans-diaphragmatic and esophageal pressure, twitch trans-diap

11 e lower sternum in association with anterior diaphragmatic and ventral abdominal wall defects suggest

12 transcription factors involved in thoracic, diaphragmatic, and esophageal development or proteins in

13 nd-expiratory pressure in the recruitment of diaphragmatic atelectasis.

14 Prolonged mechanical ventilation results in diaphragmatic atrophy and contractile dysfunction in ani

15 e apocynin-induced attenuation of MV-induced diaphragmatic atrophy and contractile dysfunction occurr

16 olonged pressure support ventilation promote diaphragmatic atrophy and contractile dysfunction.

17 fibers and contribute to ventilator-induced diaphragmatic atrophy and contractile dysfunction.

18 tenuated both mechanical ventilation-induced diaphragmatic atrophy and contractile dysfunction.

19 Prolonged mechanical ventilation can promote diaphragmatic atrophy and contractile dysfunction.

20 Mechanical ventilation contributes to diaphragmatic atrophy and dysfunction, and few technique

21 lation, pressure support ventilation-induced diaphragmatic atrophy and weakness are associated with b

22 18 hrs of mechanical ventilation results in diaphragmatic atrophy in both laboratory animals and hum

23 the antioxidant Trolox attenuates MV-induced diaphragmatic atrophy independent of alterations in Akt

24 We tested the hypothesis that MV-induced diaphragmatic atrophy is associated with a loss of myonu

25 thesized that mechanical ventilation-induced diaphragmatic atrophy is associated with decreased synth

26 indicate that mechanical ventilation-induced diaphragmatic atrophy is dependent on the activation of

27 revealed that mechanical ventilation-induced diaphragmatic atrophy is due to increased diaphragmatic

28 relationship between ventilator support and diaphragmatic atrophy rate.

29 ntrolled mechanical ventilation (MV)-induced diaphragmatic atrophy.

30 ffective triggering, periodic breathing, and diaphragmatic atrophy.

31 erlike position, which may potentially lower diaphragmatic attenuation and reduce breathing-related c

32 mechanical ventilation results in decreased diaphragmatic blood flow and induces an oxygen supply-de

33 when subjects inspired using a predominantly diaphragmatic breath at rest (DeltaP(GA) = > 5 cmH(2)O,

34 During the ensuing expiratory phase of a diaphragmatic breath, there was a large resurgence of fe

35 The pattern of modulation during ribcage and diaphragmatic breathing persisted during both mild (peak

36 Diaphragmatic calpain activity was significantly increas

37 ibition of caspase-3 prevented activation of diaphragmatic calpain.

38 mechanical ventilation-induced activation of diaphragmatic caspase-3 and inhibition of caspase-3 prev

39 esenchymal cultures of WT embryonic day 13.5 diaphragmatic cells.

40 d the capacity to contribute to cells in the diaphragmatic central tendon and lung mesenchyme, indica

41 Recording of diaphragmatic CMAP using a catheter positioned in a subd

42 neurysm, impaired pulmonary function, and/or diaphragmatic collapse.

43 the PN was paced at 60 beats per minute and diaphragmatic compound motor action potential (CMAP) amp

44 the right PN at 60 per minute and recording diaphragmatic compound motor action potential (CMAP) via

45 tenuated this mechanical ventilation-induced diaphragmatic contractile deficit.

46 Controlled mechanical ventilation leads to diaphragmatic contractile dysfunction and atrophy.

47 chanical ventilation is also associated with diaphragmatic contractile dysfunction.

48 We confirmed that MTP mice had normal diaphragmatic contractile properties; however, MTP mice

49 us between oxidative stress and the impaired diaphragmatic contractility that develops during MV.

50 ein-1, and tumor necrosis factor-alpha), and diaphragmatic contractility were evaluated after 24 hour

51 Diaphragmatic contractility, assessed as transdiaphragma

52 During spontaneous breathing, expiratory diaphragmatic contraction counteracts tidal-EFL.

53 In turn, the resulting diaphragmatic contraction delayed and reduced the expira

54 hypothesized the occurrence of an expiratory diaphragmatic contraction directed at stabilizing periph

55 expiratory resistances 1) affect expiratory diaphragmatic contraction during spontaneous breathing,

56 ich transvenously stimulates a nerve causing diaphragmatic contraction similar to normal breathing.

57 Whether there is an expiratory diaphragmatic contraction that preserves lung patency ha

58 expiratory brake while minimizing expiratory diaphragmatic contraction.

59 We conclude that preserving diaphragmatic contractions during mechanical ventilation

60 The effects of diaphragmatic contractions with assisted mechanical vent

61 PH near the level of the diaphragmatic crura is an insensitive but relatively spe

62 sence or absence of PH near the level of the diaphragmatic crura was retrospectively established by a

63 he celiac axis by fibrous attachments of the diaphragmatic crura, the median arcuate ligament.

64 sternal defect, pericardial defect, anterior diaphragmatic defect or intracardiac anomalies.

65 ng single-gene knockout mice associated with diaphragmatic defects, rare monogenetic disorders in hum

66 identified a range of previously undetected diaphragmatic defects.

67 defined as bulbar, upper limb, lower limb or diaphragmatic), diagnosis, functional involvement of a s

68 ry signal was compared with an MR measure of diaphragmatic displacement via a pencil-beam navigator.

69 and causes artifactual defects predicted by diaphragmatic displacement, body mass index, and heart s

70 lated spatially with the crural sling during diaphragmatic displacement.

71 l hepatocellular carcinoma (HCC) against the diaphragmatic dome.

72 Ventilator-induced diaphragmatic dysfunction (VIDD) refers to the diaphragm

73 henomenon, referred to as ventilator-induced diaphragmatic dysfunction (VIDD), is poorly understood.

74 ion support can attenuate ventilator-induced diaphragmatic dysfunction but corresponding human data a

75 and late recoveries from ventilator-induced diaphragmatic dysfunction in a mouse model.

76 Diaphragmatic dysfunction is common in MV patients and i

77 anical ventilation is associated with a late diaphragmatic dysfunction related to a structural altera

78 nical ventilation is associated with primary diaphragmatic dysfunction, also termed ventilator-induce

79 insights into the role of open lung biopsy, diaphragmatic dysfunction, and a potential mechanism for

80 fatigue scores, all of which were related to diaphragmatic dysfunction, were significantly higher in

81 ls and humans can lead to ventilator-induced diaphragmatic dysfunction, which includes muscle atrophy

82 ications for the treatment of sepsis-induced diaphragmatic dysfunction.

83 pensatory response to hyperinflation-related diaphragmatic dysfunction.

84 hrenic nerve output results in postoperative diaphragmatic dysfunction.

85 dysfunction, also termed ventilator-induced diaphragmatic dysfunction.

86 athophysiologic origin of ventilator-induced diaphragmatic dysfunction.

87 Conversely, when assist is low, diaphragmatic efforts are intense and increase the risk

88 post-diaphragmatic re-approximation with sub-diaphragmatic EGJ relocation, and post-sphincter augment

89 We analyzed expiratory diaphragmatic electric activity and respiratory mechanic

90 Diaphragmatic electric activity during expiration increa

91 We recorded the diaphragmatic electric activity during expiration, dynam

92 extent with lower lung volume, indicating a diaphragmatic electromechanical coupling during spontane

93 e superior vena cava, all patients underwent diaphragmatic electromyographic monitoring using surface

94 each) during incremental cycle exercise with diaphragmatic electromyography (EMGdi) and respiratory p

95 Diaphragmatic electromyography can predict PNP with a co

96 storation of RSA using an hCPG that receives diaphragmatic electromyography input and use it to stimu

97 ons increased respiratory frequency (fR) and diaphragmatic EMG (dEMG) amplitude in relation to the du

98 (2) was higher and intercostal, scalene, and diaphragmatic EMG activity was reduced using NIOV+O(2) c

99 After multivariate adjustment, diaphragmatic excursion during deep breathing was associ

100 In 116 consecutive ICU patients, diaphragmatic excursion, thickening, and TDI parameters

101 The loss of diaphragmatic expiratory contraction during mechanical v

102 en and men display a comparable magnitude of diaphragmatic fatigue (DF) after work-matched inspirator

103 ation decreased the cross-sectional areas of diaphragmatic fibers by half or more.

104 In addition, diaphragmatic force and oxidative stress after exposure

105 ssisted mechanical ventilation will preserve diaphragmatic force and prevent overexpression of MAF-bo

106 The magnitude of the diaphragmatic force and the relative contributions of th

107 e ryanodine complex, did reverse the loss of diaphragmatic force associated with mechanical ventilati

108 y, administration of bortezomib improved the diaphragmatic force compared to mechanically ventilated

109 unit pressure, the inspiratory effect of the diaphragmatic force on the lower ribs is equal to the ex

110 Studies evaluating diaphragmatic function recovery after extubation are lac

111 Ultrasonography was used to evaluate diaphragmatic function, including diaphragm thickness an

112 ulbospinal fibres and remarkable recovery of diaphragmatic function.

113 function, and few techniques exist to assess diaphragmatic function: the purpose of this study was to

114 halocele (adjusted odds ratio (aOR) = 2.68), diaphragmatic hernia (aOR = 2.58), small intestinal atre

115 d SOX7 confer a high risk of both congenital diaphragmatic hernia (CDH) and cardiac defects.

116 uman fetuses with severe isolated congenital diaphragmatic hernia (CDH) and changes in tracheal and a

117 Congenital diaphragmatic hernia (CDH) and esophageal atresia with t

118 Infants with congenital diaphragmatic hernia (CDH) are at an increased risk of r

119 ethality at birth, reminiscent of congenital diaphragmatic hernia (CDH) cases in humans.

120 Congenital diaphragmatic hernia (CDH) is a common (1 in 3,000 live

121 Congenital diaphragmatic hernia (CDH) is a common and severe birth

122 Congenital diaphragmatic hernia (CDH) is a common birth defect that

123 Congenital diaphragmatic hernia (CDH) is a common birth malformatio

124 Congenital diaphragmatic hernia (CDH) is a common life-threatening

125 PURPOSE OF REVIEW: Congenital diaphragmatic hernia (CDH) is a rare developmental defec

126 Congenital diaphragmatic hernia (CDH) is a relatively common birth

127 Congenital diaphragmatic hernia (CDH) is a serious birth defect tha

128 Congenital diaphragmatic hernia (CDH) is a severe birth defect.

129 Rationale: Congenital diaphragmatic hernia (CDH) is an anomaly with a high mor

130 Congenital diaphragmatic hernia (CDH) is an often fatal birth defec

131 Congenital diaphragmatic hernia (CDH) is one of the most common and

132 Congenital diaphragmatic hernia (CDH) remains a significant cause o

133 Despite modern treatments, congenital diaphragmatic hernia (CDH) remains associated with varia

134 Congenital diaphragmatic hernia (CDH), a life-threatening anomaly,

135 on the highest risk patients with congenital diaphragmatic hernia (CDH), those with agenesis of the d

136 adily identifiable perinatally in congenital diaphragmatic hernia (CDH), where the typical pulmonary

137 of abnormal lung development and congenital diaphragmatic hernia (CDH).

138 oxia, and malformations including congenital diaphragmatic hernia (CDH).

139 used therapy among patients with congenital diaphragmatic hernia (CDH); however, data to support its

140 Non-isolated congenital diaphragmatic hernia (CDH+) is a severe birth defect tha

141 TM, n=15), tracheal occlusion for congenital diaphragmatic hernia (CDH, n=13), and resection of sacro

142 n and that had severe, left-sided congenital diaphragmatic hernia (liver herniation and a lung-to-hea

143 cholelithiasis (n=2), pyelonephritis (n=2), diaphragmatic hernia (n=1), cecal bascule (n=1), ileus (

144 , $111566 [IQR, $91195-$139936]), congenital diaphragmatic hernia (WIQR, $43948; median, $154730 [IQR

145 ia [n = 6,303], biliary atresia [n = 3,877], diaphragmatic hernia [n = 6,176], gastroschisis [n = 4,8

146 s those with sickle cell disease, congenital diaphragmatic hernia and Eisenmenger syndrome who may be

147 ardiac arrest as a consequence of late-onset diaphragmatic hernia and intestinal strangulation.

148 The severity of the congenital diaphragmatic hernia at randomization, as measured by th

149 vomiting, diagnosed to have an incarcerated diaphragmatic hernia causing gastric pneumatosis and res

150 performed in prenatally diagnosed congenital diaphragmatic hernia infants (n = 171) born between Nove

151 on groups in prenatally diagnosed congenital diaphragmatic hernia infants.

152 Congenital diaphragmatic hernia is a life-threatening anomaly with

153 f pediatric survivors treated for congenital diaphragmatic hernia is presented.

154 cians who encounter children with congenital diaphragmatic hernia on either a regular or infrequent b

155 y clinician treating infants with congenital diaphragmatic hernia regarding the latest developments a

156 covered as an incidental finding, late-onset diaphragmatic hernia should be considered a surgical eme

157 ely collected patient data in the Congenital Diaphragmatic Hernia Study Group registry between Januar

158 oreal membrane oxygenation and/or congenital diaphragmatic hernia with an intelligence quotient great

159 agenesis of the corpus callosum, congenital diaphragmatic hernia, facial dysmorphology, ocular anoma

160 ifida, oesophageal atresia, biliary atresia, diaphragmatic hernia, gastroschisis, and Down syndrome w

161 -reduction defects, polydactyly, syndactyly, diaphragmatic hernia, heart defects overall, pulmonary-a

162 urysm, developmental emphysema, inguinal and diaphragmatic hernia, joint laxity, and pectus excavatum

163 wel perforation, bowel resection, congenital diaphragmatic hernia, oesophageal atresia, and ruptured

164 chial arch derivatives, heart malformations, diaphragmatic hernia, renal hypoplasia and ambiguous gen

165 girl 32 days after a repair of a congenital diaphragmatic hernia, with ultrasound signs of acute bow

166 patients with tracheoesophageal fistula and diaphragmatic hernia.

167 as bronchopulmonary dysplasia and congenital diaphragmatic hernia.

168 the lungs complicated by tracheomalacia and diaphragmatic hernia.

169 tal lung function in infants with congenital diaphragmatic hernia.

170 lastic lung of the ovine model of congenital diaphragmatic hernia.

171 may improve the outcome of severe congenital diaphragmatic hernia.

172 orporeal membrane oxygenation and congenital diaphragmatic hernia.

173 ragm development are the cause of congenital diaphragmatic hernias (CDHs), a common and often lethal

174 Sox7(Deltaex2/+) mice developed retrosternal diaphragmatic hernias located in the anterior muscular p

175 cts, renal agenesis and develop retrosternal diaphragmatic hernias which are covered by a membranous

176 ital anomalies, pyloric stenosis, congenital diaphragmatic hernias, cardiac septal defects, hearing l

177 gous for the dd allele possess communicating diaphragmatic hernias, central tendon patterning defects

178 efects in the heterozygotes included midline diaphragmatic hernias, dilated distal airways, and cardi

179 sophageal junction (GEJ) and the apex of the diaphragmatic hiatus after maximal thoracic esophagus mo

180 minimal EGJ opening aperture occurred at the diaphragmatic hiatus in all subjects.

181 ion of the gastroesophageal junction and the diaphragmatic hiatus were 0.88 and 0.85, respectively.

182 lso indicate that differential regulation of diaphragmatic IGF-1-PI3K-Akt signalling exists during th

183 deep sedation is inevitably associated with diaphragmatic inactivation.

184 he combination of 18 to 69 hours of complete diaphragmatic inactivity and mechanical ventilation resu

185 n for 18 to 69 hours; among control subjects diaphragmatic inactivity and mechanical ventilation were

186 Case subjects had diaphragmatic inactivity and underwent mechanical ventil

187 tly revealed that 18 to 69 hours of complete diaphragmatic inactivity associated with mechanical vent

188 versupply relative to demand, resulting from diaphragmatic inactivity during MV, could play an import

189 Research in animals has shown that diaphragmatic inactivity produces severe injury and atro

190 Diaphragmatic injuries occur in 0.8-8% of patients with

191 ories reviewed their imaging for evidence of diaphragmatic injury and ablation success.

192 o retrospectively determine the frequency of diaphragmatic injury when percutaneous hepatic radiofreq

193 synchronies, ventilator-induced lung injury, diaphragmatic injury, and cardiovascular complications.

194 rs adjacent to the diaphragm, five (17%) had diaphragmatic injury, which was clinically apparent with

195 s underwent elective laparoscopy to rule out diaphragmatic injury.

196 esent radiological findings in patients with diaphragmatic injury.

197 athing-which effectively pull in air-are the diaphragmatic, intercostal, spine, and neck muscles.

198 ement, and severe shoulder pain secondary to diaphragmatic irritation.

199 controlled ventilation, we assessed in vitro diaphragmatic isometric and isotonic contractile functio

200 ions with assisted mechanical ventilation on diaphragmatic isometric, isotonic contractile properties

201 ingly, independent of MV, apocynin increased diaphragmatic levels of calpastatin, an endogenous calpa

202 on with time-matched controls, did not alter diaphragmatic levels of Type I and IIx myosin heavy chai

203 Diaphragmatic lipid accumulation and responses of master

204 velopment of new medicines that can maintain diaphragmatic mass and function during prolonged mechani

205 meters (peak Pdi, pressure-time product, and diaphragmatic maximal relaxation rate) were recorded sim

206 esulted in a significant reduction (-17%) in diaphragmatic maximal tetanic force.

207 mechanical ventilation-induced increases in diaphragmatic mitochondrial reactive oxygen species emis

208 Diaphragmatic motion decreased in 30 of 49 patients and

209 was terminated on any perceived reduction in diaphragmatic motion or a 30% decrease in the compound m

210 ore marked in the 33 PVs with a reduction in diaphragmatic motion than in those without (40.9+/-15.3%

211 c TDI was performed to assess the pattern of diaphragmatic motion velocity, measure its normal values

212 cient to bring about recovery of respiratory diaphragmatic motor activity.

213 The results indicate that changes in diaphragmatic motor function and strength among LOPD sub

214 specific co-localization of BoNT/C1 ad with diaphragmatic motor nerve terminals.

215 usions but also look at lung recruitment and diaphragmatic movement, hence can aid in deciding extuba

216 iaphragm and may be weakly expressed in some diaphragmatic muscle cells.

217 ed to the direct action of radially oriented diaphragmatic muscle fibres.

218 e to the diaphragm to assess the velocity of diaphragmatic muscle motion during contraction and relax

219 Diaphragmatic myonuclear content decreased after 12 h of

220 Prolonged mechanical ventilation results in diaphragmatic oxidative injury, elevated proteolysis, fi

221 trophy and weakness are associated with both diaphragmatic oxidative stress and protease activation.

222 n mice, induction of hyperlipidemia worsened diaphragmatic oxidative stress during MV, whereas transg

223 late that this ventilator-induced decline in diaphragmatic oxygenation could promote a hypoxia-induce

224 gement including noninvasive ventilation and diaphragmatic pacing, secretions, nutrition, dysphagia a

225 A group of 13 patients with early onset diaphragmatic palsy in association with a progressive ne

226 Infantile myopathies with diaphragmatic paralysis are genetically heterogeneous, a

227 Diaphragmatic paralysis was higher (3.5% vs. 0.6%; p = 0

228 rred in 3 patients (5.8%): one had transient diaphragmatic paralysis, one vascular access complicatio

229 t(s) on the phrenic nerve may result in hemi-diaphragmatic paresis.

230 This approach reduced diaphragmatic pathophysiology and markedly improved diap

231 y, pelvic, parietal anterior, left and right diaphragmatic peritonectomy), 14 visceral resections, 5

232 bnormal hot spots in subcutaneous tissue and diaphragmatic pleura of the left hemithorax.

233 gmatic and esophageal pressure, twitch trans-diaphragmatic pressure (Tw Pdi), age, and maximal static

234 to the cerebral cortex which can be used for diaphragmatic proprioception and somatosensation.

235 ed diaphragmatic atrophy is due to increased diaphragmatic protein breakdown and decreased protein sy

236 chain protein synthesis; this depression in diaphragmatic protein synthesis persisted throughout 18

237 ically ventilated for 6, 12, or 18 hours and diaphragmatic protein synthesis was measured in vivo.

238 or regulating mechanical ventilation-induced diaphragmatic proteolysis and contractile dysfunction.

239 In contrast, diaphragmatic proteolysis did not differ between control

240 These findings are consistent with increased diaphragmatic proteolysis during inactivity.

241 Total diaphragmatic proteolysis was increased 105% in mechanic

242 contribute to mechanical ventilation-induced diaphragmatic proteolysis.

243 CMV increased diaphragmatic pyruvate (40 vs. 146 mumol L(-1) after 5:2

244 intraoperative monitoring demonstrates that diaphragmatic re-approximation and sub-diaphragmatic rel

245 Diaphragmatic re-approximation had a higher percent cont

246 Data was acquired pre-repair, post-diaphragmatic re-approximation with sub-diaphragmatic EG

247 After diaphragmatic re-approximation, DI decreased by a median

248 and frequently develops in the dependent and diaphragmatic regions.

249 for recruiting atelectasis in dependent and diaphragmatic regions.

250 that diaphragmatic re-approximation and sub-diaphragmatic relocation has a greater effect on EGJ com

251 Diaphragmatic rupture does not resolve spontaneously and

252 The knowledge of the CT findings suggesting diaphragmatic rupture improves the detection of injuries

253 The most important signs of the diaphragmatic rupture in computed tomography include: se

254 ntribute to an increased risk of spontaneous diaphragmatic rupture in the absence of a significant pr

255 The clinical diagnosis of diaphragmatic rupture is difficult and may be overshadow

256 In our study blunt diaphragmatic rupture occurred in 6% of cases as confirm

257 Diaphragmatic rupture was diagnosed in 13 patients.

258 rmatted images showed herniation through the diaphragmatic rupture.

259 Most of diaphragmatic ruptures were left-sided (10) while only 2

260 nd 18PSV promoted a significant decrement in diaphragmatic specific force production, but to a lesser

261 8%), loss of left ventricular capture (10%), diaphragmatic stimulation (2%), loss of right ventricula

262 Diaphragmatic stimulation generated sufficient tidal vol

263 Diaphragmatic stimulation via regular electrodes is feas

264 A better diaphragmatic strength may help face an increased work o

265 Access to the diaphragmatic surface of the heart with ablation cathete

266 elaxation.Methods: In 20 healthy volunteers, diaphragmatic TDI was performed to assess the pattern of

267 Diaphragmatic TDI-derived parameters differentiate patie

268 Three of these showed diaphragmatic thickening on postablation computed tomogr

269 postablation CT images showed focal nodular diaphragmatic thickening.

270 aphragmatic thickness (D (max)); and average diaphragmatic thickness (D (avg)) on sagittal reconstruc

271 aximal fissural thickness (F (max)); maximal diaphragmatic thickness (D (max)); and average diaphragm

272 ith TDI-maximal relaxation rate.Conclusions: Diaphragmatic tissue Doppler allows real-time assessment

273 fects, and increased cell proliferation with diaphragmatic tissue hyperplasia.

274 e Doppler allows real-time assessment of the diaphragmatic tissue motion velocity.

275 are clearly needed for true regeneration of diaphragmatic tissue.

276 are abolished following either bilateral sub-diaphragmatic total truncal vagotomy or brainstem-hypoth

277 Diaphragmatic weakness and acute respiratory failure are

278 ntly increased above their basal levels, and diaphragmatic weakness and further increases in caspase-

279 aling role in mechanical ventilation-induced diaphragmatic weakness and that oxidative stress is an u

280 aling role in mechanical ventilation-induced diaphragmatic weakness and that oxidative stress is requ

281 prolonged mechanical ventilation results in diaphragmatic weakness attributable to fiber atrophy and

282 al muscle fibers is a key pathway leading to diaphragmatic weakness during acute endotoxemia, most li

283 In peripheral lesions, diaphragmatic weakness is a main element, but in many ne

284 sponsible for mechanical ventilation-induced diaphragmatic weakness is important.

285 ppaB plays in mechanical ventilation-induced diaphragmatic weakness is unknown.

286 l ventilation is associated with significant diaphragmatic weakness resulting from both myofiber atro

287 required for mechanical ventilation-induced diaphragmatic weakness to occur.

288 essential for mechanical ventilation-induced diaphragmatic weakness to occur.

289 lished that oxidative stress is required for diaphragmatic weakness to occur.

290 sponsible for mechanical ventilation-induced diaphragmatic weakness will provide the knowledge requir

291 unidentified type of infantile myopathy with diaphragmatic weakness, areflexia, respiratory distress

292 Diaphragmatic weakness, due to both atrophy and contract

293 nical ventilation and may be associated with diaphragmatic weakness.

294 vent or delay mechanical ventilation-induced diaphragmatic weakness.

295 ion to impede mechanical ventilation-induced diaphragmatic weakness.

296 iaphragm from mechanical ventilation-induced diaphragmatic weakness.

297 The absolute cumulative diaphragmatic work did not differ between sexes in normo

298 t a similar degree when matched for absolute diaphragmatic work during inspiratory loading.

299 und that matching men and women for absolute diaphragmatic work resulted in an equal degree of diaphr

300 dings are a function of relative or absolute diaphragmatic work.