ライフサイエンスコーパス: surgical repair

1 ate pooled odds ratios (endovascular vs open surgical repair).

2 edures (687 endovascular repair and 631 open surgical repair).

3 Seven eyes underwent surgical repair.

4 uinal hernia is an acceptable alternative to surgical repair.

5 injury is suboptimal, even after appropriate surgical repair.

6 cavatum and to define inclusion criteria for surgical repair.

7 of therapy and appropriate use and timing of surgical repair.

8 vival is similar after endovascular and open surgical repair.

9 underwent emergency (n=25) or elective (n=5) surgical repair.

10 performed on the day of surgery, before the surgical repair.

11 minal aortic aneurysm, as compared with open surgical repair.

12 equently injured and not reestablished after surgical repair.

13 es, especially with parenteral nutrition and surgical repair.

14 ontraining cases received an HSO and 128 had surgical repair.

15 ronary angioplasty with stent deployment, or surgical repair.

16 al bones at an early age and require earlier surgical repair.

17 and severely premature infants often require surgical repair.

18 : -298.7 to -119.7 days; p < 0.001) for open surgical repair.

19 thinning of the levator aponeurosis require surgical repair.

20 lar attention to the timing and technique of surgical repair.

21 y of these procedures compared with standard surgical repair.

22 f bowel and mesenteric injuries that require surgical repair.

23 trated the satisfactory long-term results of surgical repair.

24 of AAD patients, including those undergoing surgical repair.

25 studies can be used to predict outcome after surgical repair.

26 health concern traditionally treated by open surgical repair.

27 or hypoglobus are indications for immediate surgical repair.

28 in two patients who were not candidates for surgical repair.

29 remote complication rates than those of open surgical repair.

30 e ASO is a safe and effective alternative to surgical repair.

31 sidered an ideal candidate for standard open surgical repair.

32 stay was shorter for device closure than for surgical repair.

33 and lifetime costs of endovascular and open surgical repair.

34 evaluated for all three conditions prior to surgical repair.

35 The akinetic heart rarely undergoes surgical repair.

36 l valve prolapse (MVP) is often treatable by surgical repair.

37 sing attention as an alternative to standard surgical repair.

38 There were no acute conversions to surgical repair.

39 ak repair of which three were conversions to surgical repair.

40 higher for endovascular repair than for open surgical repair.

41 cant morbidity and mortality associated with surgical repair.

42 hocardiogram at <2 years old before complete surgical repair.

43 important to prevent coronary injury during surgical repair.

44 ent of transhepatic biliary catheters before surgical repair.

45 ges over both US-guided compression and open surgical repair.

46 re were no deaths and no conversions to open surgical repair.

47 ification of patients who would benefit from surgical repair.

48 al tendon avulsion were treated with primary surgical repair.

49 d hence alleviates or postpones the need for surgical repair.

50 ce of SUD, warranting early consideration of surgical repair.

51 rs a major challenge in achieving definitive surgical repair.

52 The left ventricular function recovers after surgical repair.

53 have exercise limitation that improves after surgical repair.

54 responsible, and to evaluate the efficacy of surgical repair.

55 Thirty-one patients (68.8%) underwent surgical repair.

56 ) had local vascular complications requiring surgical repair.

57 ) that could aid in appropriate referral for surgical repair.

58 disease to ensure survival until definitive surgical repair.

59 on to select patients who would benefit form surgical repair.

60 ations among patients of differing timing of surgical repair.

61 13.4%) were diagnosed with PVR after initial surgical repair.

62 inimally invasive technique are reported for surgical repair.

63 hieve tri-leaflet valve morphology following surgical repair.

64 loped a false aneurysm, and 1 patient needed surgical repair.

65 of rhegmatogenous RD that underwent primary surgical repair.

66 da, from 1980 to 2015 who underwent complete surgical repair.

67 lve annulus, and left ventricle require open surgical repair.

68 controls by age, sex, congenital defect, and surgical repair.

69 es, low weight) relieves cyanosis and defers surgical repair.

70 s a serious complication that often requires surgical repair.

71 s associated with hernia formation requiring surgical repair.

72 s noted, particularly in patients undergoing surgical repair.

73 eved anatomical success, proven by OCT after surgical repair.

74 lded the best visual acuity after successful surgical repair.

75 outcomes of both the MitraClip procedure and surgical repair.

76 hat had trainees), residents participated in surgical repairs.

77 ve the relatively poor results of a strictly surgical repair?

78 had access site bleeding (1.1%), 2 underwent surgical repair (0.8%), and 2 underwent balloon inflatio

79 s for catheterization included assessment of surgical repair (21 patients), left heart decompression

80 s pursued in 26 patients, moderately delayed surgical repair (3-7 days), was performed in 29 patients

81 tly reduced mortality in patients undergoing surgical repair (33%) compared with endoscopic treatment

82 third quartiles, 29 and 48 years]) underwent surgical repair (85% acute dissections; 68% DeBakey I; 5

83 epair (95% CI: 0.02, 0.04) and 0.04 for open surgical repair (95% CI: 0.00, 0.07) (P =.03), and the o

84 epair (95% CI: 0.06, 0.25) and 0.12 for open surgical repair (95% CI: 0.06, 0.18) (P =.46), and the o

85 epair (95% CI: 0.09, 0.25) and 0.44 for open surgical repair (95% CI: 0.21, 0.66) (P <.001), and the

86 Many case series support early surgical repair, although patients who would benefit fro

87 Type of surgical repair and age at operation varied considerably

88 many patients progress to adulthood without surgical repair and experience increasing symptoms.

89 cyanotic (SaO2>95%) heart defects undergoing surgical repair and in 80 rabbits raised from birth in a

90 ge in the number of patients undergoing open surgical repair and no significant difference in the rat

91 ith important mitral regurgitation requiring surgical repair and other clinical complications.

92 nce of major complications, and the need for surgical repair and routine use should be considered for

93 6] hybrid repair versus 2.0:1 [IQR, 2.0-2.5] surgical repair), and elevated right ventricular systoli

94 = minor tear, 2 = nondisplaced tear or prior surgical repair, and 3 = displaced tear, resection, mace

95 of hemorrhage/hematoma, incidents requiring surgical repair, and accidental arterial puncture), and

96 e/hematoma, vascular complications requiring surgical repair, and accidental arterial puncture), and

97 cal treatment of the ruptured aorta, delayed surgical repair, and endoluminal deployment of stent-gra

98 e literature regarding the optimal timing of surgical repair, and it remains unclear to what extent t

99 d dehiscence with evisceration that required surgical repair, and one case of skin cancer.

100 tions for the indications for BAS, timing of surgical repair, and use of anticoagulation in TGA.

101 Data on long-term outcome after surgical repair are limited.

102 appropriate end points for trials involving surgical repair are sphincter integrity, assessed by end

103 samples, which are obtained during operative surgical repair, are typically no bigger than 1 or 2 mm

104 may allow for pericardial drainage and open surgical repair as the only emergent life-saving procedu

105 ients with tetralogy of Fallot who underwent surgical repair at <15 years of age between 1968 and 198

106 of life, congenital heart disease requiring surgical repair at <7 days of life, lethal chromosomal a

107 ravitreal injection who underwent subsequent surgical repair at a university referral center.

108 Twenty-five patients did not undergo a surgical repair at our institution.

109 Vascular surgical repair at the access site was required more oft

110 y-one of the 254 men (31.9%) crossed over to surgical repair before the end of the original study, De

111 aortic aneurysms who underwent TEVAR or open surgical repair between 1999 and 2010 with follow-up thr

112 triceps ruptures) require early (< 4 weeks) surgical repair but may be misdiagnosed, thus delaying m

113 Though open surgical repair continues to be the mainstay of therapy,

114 ALCA and ARCA patients who may benefit from surgical repair, debate remains regarding their classifi

115 Pericardial effusions requiring surgical repair decreased from 1.6% to 0.4% (p = 0.027),

116 After surgical repair, final visual acuity remained NLP in 18

117 enrolling 720 men (364 watchful waiting, 356 surgical repair) followed up for 2 to 4.5 years.

118 All patients who underwent surgical repair for a primary RRD in the Netherlands fro

119 One hundred three patients with surgical repair for AAD following nonaortic cardiac surg

120 icuspid regurgitation after cardiac surgery, surgical repair for FTR appears to be underutilized.

121 Surgical repair for hypotony maculopathy provided a sign

122 tissue of 35 patients, taken at the time of surgical repair for isolated MR, were compared with 13 n

123 s evolving into a viable alternative to open surgical repair for many patients with abdominal and tho

124 Complete surgical repair for neonates with tetralogy of Fallot is

125 treatment options rather than replaced open surgical repair for patients with AAA.

126 sis of eyes in the DISCOVER study undergoing surgical repair for RDs.

127 Vitreoretinal surgical repair for this condition is successful when th

128 ngth of stay in patients undergoing elective surgical repair for thoracic aortic aneurysm, despite si

129 For patients undergoing surgical repair for type A dissections, the observed 30-

130 days), was performed in 29 patients and late surgical repair (> 7 days) in 49 patients.

131 effect of the mode and timing of definitive surgical repair has received attention by more recent re

132 Risk of reintervention was lower for open surgical repair, hazard ratio: 0.40 (95% CI: 0.34 to 0.6

133 erioperative mortality were greater for open surgical repair: high-volume center, odds ratio (OR): 1.

134 re referred to neurosurgeons who would offer surgical repair if the patient was in reasonable health

135 s tendon function following acute injury and surgical repair in a murine model.

136 natural history of patients undergoing such surgical repair in adulthood remains unclear.

137 Patients were stratified by surgical repair in childhood versus adult congenital hea

138 rceptual errors follow nerve transection and surgical repair in children.

139 The optimal timing of surgical repair in chronic aortic regurgitation continue

140 Tetralogy of Fallot with cyanosis requiring surgical repair in early infancy reflects poor anatomy a

141 f 3 weeks (the equivalent of 3 months before surgical repair in humans), whereas the Delayed Repair g

142 onths (the equivalent of 12-24 months before surgical repair in humans).

143 e to the hand after median nerve section and surgical repair in immature macaque monkeys.

144 th with clinical results comparable to early surgical repair in more favorable patients.

145 der the appropriateness, timing, and type of surgical repair in the context of the patient's life exp

146 comparative effectiveness of TEVAR and open surgical repair in the treatment of intact descending th

147 months, 268 patients were treated with open surgical repair, including 216 infrarenal (81%), 43 comp

148 to watchful waiting crossed over to receive surgical repair (increase in hernia-related pain was the

149 Whether deferring surgical repair is a safe and acceptable option has not

150 Open surgical repair is being used widely for treating these

151 Surgical repair is delayed 1 to 5 days.

152 severe cases of traumatic aniridia in which surgical repair is difficult may consist of implantation

153 Surgical repair is effective at relieving patients' vest

154 Available data suggest that open surgical repair is optimal for treating type A (ascendin

155 In our patient population, timely surgical repair is recommended.

156 d practitioners need to understand when open surgical repair is required and when alternative managem

157 In primary mitral regurgitation, surgical repair is the standard of care.

158 Although surgical repair is the treatment of choice, conservative

159 Surgical repair is widely accepted, but still carries a

160 One feature of typical tendon-to-bone surgical repairs is direct attachment of tendon to smoot

161 d 22 patients receiving placebo had elective surgical repair (Kaplan-Meier estimates were 16.1% for t

162 Early surgical repair (< 48 h) was pursued in 26 patients, mod

163 rly intervention with a hybrid transcatheter/surgical repair may be a viable alternative to tradition

164 ts that have undergone vitrectomy as part of surgical repair may have a higher rate of intraoperative

165 evidence has suggested that outcomes of open surgical repair may surpass thoracic endovascular aortic

166 The risk of complications during surgical repair must be weighed against the chance that

167 were collected intra-operatively during open surgical repair (n = 3).

168 Patients with VSDs selected for surgical repair (n=34) had better outcomes than patients

169 Vascular events with surgical repair occurred in 8.6% of patients.

170 luded a cohort of 141 patients who underwent surgical repair of a full-thickness rotator cuff tear at

171 were first administered within 90 days after surgical repair of a hip fracture.

172 ire was sent to 89 patients after successful surgical repair of a major bile duct injury from a LC tr

173 e, rifampicin, and gentamicin, and underwent surgical repair of a penetrating aortic ulcer, with a go

174 edge technique is an accepted method for the surgical repair of a regurgitant mitral valve.

175 Mortality after an open surgical repair of a ruptured abdominal aortic aneurysm

176 The patient underwent urgent surgical repair of a ruptured hepatic artery aneurysm.

177 Surgical repair of AAA is now yet performed quite safely

178 dinal follow-up of 31 patients who underwent surgical repair of abdominal aortic aneurysm, urinary Fg

179 Adhesions frequently complicate surgical repair of abdominal wall hernia.

180 Outcome after surgical repair of ALCAPA remains incompletely defined.

181 termined by dilation of the ascending aorta, surgical repair of an aneurysm or dissection, or death a

182 Botulism developed in a patient following surgical repair of an open radial fracture.

183 ated morbidity of adult patients who undergo surgical repair of an ostium primum atrial septal defect

184 Women had 34% reduced odds of receipt of surgical repair of an RRD (odds ratio [OR] 0.66, 95% con

185 aluate evidence of myocardial ischemia after surgical repair of anomalous aortic origin of a coronary

186 Surgical repair of aortic coarctation has been performed

187 he long-term outcomes of patients undergoing surgical repair of aortic coarctation.

188 cacy of the HELEX septal occluder (HSO) with surgical repair of atrial septal defect (ASD).

189 shown by observational studies that elective surgical repair of blood vessels at risk of rupture may

190 echnique may represent an improvement in the surgical repair of canalicular lacerations.

191 Seven patients underwent attempted surgical repair of capsular contracture.

192 e spinal cord) and patients before and after surgical repair of cervical disk protrusion-enabling us

193 During follow-up, 445 (12.4%) children with surgical repair of CHD developed hypertension compared w

194 A total of 3600 children with surgical repair of CHD were matched to 10 children (n =

195 , neurologic and developmental outcome after surgical repair of CHD will be reviewed.

196 he incidence of infective endocarditis after surgical repair of congenital heart defects is unknown.

197 cryopreserved valved allografts used in the surgical repair of congenital heart defects is unknown.

198 rial tachycardia (MacroAT) in patients after surgical repair of congenital heart disease (SR-CHD).

199 During surgical repair of each lesion, we identified vascular o

200 However, rates of surgical repair of fistulas of the small intestine, the

201 Surgical repair of IMR with the novel asymmetric CMA IMR

202 , suggesting that the probe could facilitate surgical repair of injured nerves and help prevent accid

203 nts who ultimately underwent laparotomy with surgical repair of injuries.

204 dy provides formal data evaluating QOL after surgical repair of major bile duct injuries from LC.

205 se of leaflet resection and preservation for surgical repair of mitral regurgitation caused by prolap

206 Retrospective case analysis of patients with surgical repair of open globe injury over last ten years

207 igh prevalence of PH and difficulties in the surgical repair of PH.

208 mental and translational research related to surgical repair of proximal nerve root injuries, and eme

209 ial approach of distal dilations followed by surgical repair of proximal obstruction may be a rationa

210 oarctation (balloon angioplasty [n = 26] and surgical repair of recoarctation [n = 4]), 26 (87%) have

211 Patients undergoing surgical repair of retinopathy of prematurity-related de

212 disease and the leading cause for failure in surgical repair of rhegmatogenous retinal detachments.

213 Surgical repair of secondary mitral regurgitation is und

214 lass III or IV symptoms (group 2) undergoing surgical repair of severe isolated AR between 1980 and 1

215 t study was aimed to evaluate the outcome of surgical repair of severely traumatized eyes with no lig

216 Whether elective surgical repair of small abdominal aortic aneurysms impr

217 Surgical repair of TGA performed in the developing world

218 ent rarely is successful in these cases, and surgical repair of the anal sphincter may be indicated.

219 high surgical risk to undergo immediate open surgical repair of the aneurysm or to undergo surveillan

220 he current recommendations for the timing of surgical repair of the aortic root aneurysms may be over

221 Surgical repair of the lip is the only treatment and is

222 Following surgical repair of the mitral valve, the dyspnea and pal

223 ar nerves 2 or 4 weeks after transection and surgical repair of the mouse sciatic nerve.

224 reteropelvic junction obstruction and in the surgical repair of the obstructed upper urinary tract ar

225 symptomatic Wrisberg ligament type requires surgical repair of the posterior disruption.

226 common fibular nerves after transection and surgical repair of the sciatic nerve.

227 Both of these patients required surgical repair of their pseudoaneurysms.

228 s reports of laparoscopic and robot-assisted surgical repair of these fistulas have shown that these

229 osure has been utilized as an alternative to surgical repair of this defect in high-risk surgical pat

230 as measured in RV myocardium obtained during surgical repair of TOF from 23 patients: 13 cyanotic and

231 After surgical repair of traumatically severed peripheral nerv

232 s.Eighteen eyes of 14 patients who underwent surgical repair of TRD related to ROP.

233 Across groups, the percentage of surgical repair of type A AAD increased from 89.1% to 92

234 .3-4.3; adjusted, 3.9%; 95% CI, 2.5-6.3) for surgical repair of type B dissection.

235 Surgical repair offers reasonable outcomes in patients w

236 Different effects of surgical repair on LV preload in pink and blue TOF also

237 s (83%) were defined as high risk for repeat surgical repair or angioplasty.

238 f stents in COA is a feasible alternative to surgical repair or balloon angioplasty in selected patie

239 nrepaired aortic coarctation (CoA) and after surgical repair or endovascular treatment.

240 pulmonary arteries at the time of subsequent surgical repair or last follow-up.

241 t-failure hospitalization; consideration for surgical repair or more aggressive medical management an

242 p study, and associated with risks for later surgical repair or overall mortality before (P = 0.009,

243 eys significant morbidity and mortality, and surgical repair or replacement may not be a desirable op

244 leakage has a high recurrence rate, despite surgical repair or vaccination, and outcome is generally

245 date of hospital admission for hip fracture surgical repair or, for the comparison subjects, a rando

246 ound healing (odds ratio [OR] 3.01, 0.02) or surgical repair (OR 8.05, P=0.0001), whereas BMI (OR 1.5

247 vascular aneurysm repair (EVAR) </=4 d, open surgical repair (OSR) </=10 d], readmissions, and postop

248 poraneously treated cohorts of EVAR and open surgical repair (OSR) patients.

249 or endovascular repair and 1,202 mL for open surgical repair (P =.003).

250 Fewer AAD patients with PCS underwent surgical repair (P=0.001).

251 delay in the time elapsed from injury until surgical repair (p=0.74).

252 e similar at 2 years for watchful waiting vs surgical repair: pain limiting activities (5.1% vs 2.2%,

253 ng created comparable groups with 1,235 open surgical repair patients matched to 2,470 TEVAR patients

254 inal cord ischemia are aneurysm extent, open surgical repair, prior distal aortic operations, and per

255 k of death compared with males regardless of surgical repair procedure.

256 r-AAA care to centers equipped for both open surgical repair (r-OSR) and EVAR (r-EVAR) by vascular su

257 has emerged as a pathogenic driver of TAAD, surgical repair remains the mainstay of treatment.

258 Corresponding with the advent of modern surgical repairs, reproductive fitness of women began to

259 as it propagates through the carpus because surgical repair should address each component of this in

260 d with aortic valve regurgitation, an urgent surgical repair should be considered, with excellent res

261 ariably confined on at least one aspect by a surgical repair site that is of central importance to th

262 n the hospital, and patients undergoing open surgical repair spent 2.2 days (P =.04) in the intensive

263 electively with endovascular repair (ER) or surgical repair (SR) techniques between 2001 and 2006 we

264 l micturition reflexes, suggesting that this surgical repair strategy may also be of clinical interes

265 All patients underwent complete surgical repair successfully.

266 Forty-two patients (81%) had surgical repair (surgical mortality rate, 7%).

267 n (CIMR) is needed in order to devise better surgical repair techniques.

268 rethral dysfunction, may be best served by a surgical repair that carefully avoids dissection in the

269 ne of the criteria to determine the need for surgical repair, there is a need to know the reliability

270 Stenting allowed deferral of complete surgical repair to an age (6 months), weight (6.3 [5.8-7

271 rgeon needs to be familiar with all types of surgical repair to choose the best possible option for h

272 c diameters and their relationship to future surgical repair, total mortality, and incident cardiovas

273 Delaying surgical repair until symptoms increase is safe because

274 omparison of initial retinal detachment (RD) surgical repair via pars plana vitrectomy (PPV), scleral

275 adjustment for age at testing and parent IQ, surgical repair was associated with a 9.5-point deficit

276 Open surgical repair was associated with increased odds of ea

277 In 3 patients, surgical repair was attempted.

278 Surgical repair was done either by scleral buckling (SB)

279 Surgical repair was effected through a retroperitoneal i

280 Surgical repair was performed in 1215 (51%) of 2378 pati

281 Surgical repair was performed in 31 patients with ruptur

282 Surgical repair was performed in 8/10 patients at a mean

283 During the first period, only open surgical repair was performed; during the subsequent 40

284 The first elective surgical repair was reported in 1919 by Soresi.

285 ding to the nondisturbed body side and after surgical repair were comparable with control subjects.

286 ansposition of the great arteries undergoing surgical repair were imaged pre- and postoperatively usi

287 uent 40 months, endovascular repair and open surgical repair were treatment options.

288 Reattachment after surgical repair, which was maintained at least during 6

289 ren at risk for pulmonary hypertension after surgical repair with CPB and warrants further study.

290 Among the 54 patients with IAC, 28 underwent surgical repair with no perioperative deaths.

291 alysis of all eyes in the PIONEER undergoing surgical repair with primary macula-involving retinal de

292 Surgical repair with standard symmetric annuloplasty rin

293 the function and ubiquity of the suture for surgical repair with the controlled release properties o

294 h the development of idiopathic MH requiring surgical repair with vitrectomy among a large group of m

295 Development of idiopathic MH requiring surgical repair with vitrectomy.

296 ith degenerated mitral bioprostheses, failed surgical repairs with annuloplasty rings or severe mitra

297 One hundred seventy-five patients underwent surgical repair, with a 1.7% postoperative mortality and

298 ants, and hemostasis can be achieved without surgical repair, with a carotid patency rate superior to

299 der is safe and effective when compared with surgical repair, with reduced anesthesia time and hospit

300 is a congenital heart disease that requires surgical repair without which survival through childhood