ライフサイエンスコーパス: intraoperative complication

1 ents had ELLS with no postoperative death or intraoperative complication.

2 hetic protocol was implemented without major intraoperative complications.

3 septum was incised successfully without any intraoperative complications.

4 tion, visual intolerance, opacification, and intraoperative complications.

5 dissipated energy, preoperative factors, and intraoperative complications.

6 A at 4-12 weeks postoperatively, and rate of intraoperative complications.

7 None of the surgeries recorded intraoperative complications.

8 aracteristics, surgical characteristics, and intraoperative complications.

9 n and after treatment, days in hospital, and intraoperative complications.

10 operative performance, technical errors, and intraoperative complications.

11 ection was pursued when there was no risk of intraoperative complications.

12 e presence or absence of a specified list of intraoperative complications.

13 aocular surgical procedures, and any type of intraoperative complications.

14 repeated during follow-ups.Both cases had no intraoperative complications.

15 d eyelid position, laser parameters, and any intraoperative complications.

16 gical operations were successful and without intraoperative complications.

17 There were no intraoperative complications.

18 ates appropriate surgical technique to avoid intraoperative complications.

19 emographics, preoperative investigations and intraoperative complications.

20 elevation while minimizing the potential for intraoperative complications.

21 TEP had disadvantages in terms of the intraoperative complications (0.9% vs 1.2%; P = 0.035).

22 explantation was the shortest in cases with intraoperative complications (1.5 +/- 3.1 days), followe

23 t surgery complications), 5.1% had 1 or more intraoperative complication, 13.0% underwent further RD

24 intolerance (26%), opacification (20%), and intraoperative complications (16%).

25 There were 3 intraoperative complications: 2 gastric mucosotomies and

26 There were more patients with intraoperative complications (28% vs 11%, P = .031), adv

27 9%]), subtotal cholecystectomy (59 [18.7%]), intraoperative complications (40 [12.7%]), postoperative

28 primary endpoint occurred in 34 patients: 12 intraoperative complications (8 in DT+ group; 4 in DT- g

29 ystem was associated with a 40% reduction in intraoperative complications (8.4% to 5%).

30 The only major intraoperative complication-a posterior capsular tear-oc

31 The rate, character, and severity of intraoperative complications, adverse events, and additi

32 stoperative OCT monitoring for patients with intraoperative complications allows earlier diagnosis an

33 Ranked variable importance for intraoperative complications among 50 donor, recipient,

34 events occurred in 16 of 166 patients (i.e., intraoperative complications, anal discomfort and pain).

35 Eighty-six patients with IFIS had at least 1 intraoperative complication and 39 patients with IFIS ha

36 5 to the present were reviewed comparing the intraoperative complication and early and late postopera

37 There were no intraoperative complications and 1.3% of patients report

38 e after cataract surgery, with a low rate of intraoperative complications and a low risk for recurren

39 There were no intraoperative complications and all patients were disch

40 ch to bilateral adrenalectomy has comparable intraoperative complications and early morbidity compare

41 e a risk factor for cataract surgery-related intraoperative complications and endophthalmitis.

42 associated with an increased rate of severe intraoperative complications and greater visual morbidit

43 nce, LDN was associated with decreased donor intraoperative complications and hospital length of stay

44 surgical resection, with the aim of reducing intraoperative complications and improving outcomes.

45 There were no intraoperative complications and no case required conver

46 inal border were associated with a trend for intraoperative complications and positive margins.

47 ollected on neonatal history, visual acuity, intraoperative complications and success rates between g

48 preoperative consultation, appears to reduce intraoperative complications and support safer surgical

49 c artery ligation (above left colic artery), intraoperative complications, and being of the male sex.

50 There were no intraoperative complications, and both patients were ext

51 eline features, intraoperative surgery time, intraoperative complications, and incidence of unplanned

52 axial length>/=25 mm, lattice degeneration, intraoperative complications, and incomplete follow-up.

53 d, effective phacoemulsification time (EPT), intraoperative complications, and postoperative outcomes

54 e secondary outcomes, including overall POM, intraoperative complications, and resection margins, was

55 There were no intraoperative complications, and the only long-term com

56 had a better outcome at three months, fewer intraoperative complications, and was cost effective.

57 ands of the surgically experienced, rates of intraoperative complications are low.

58 Random survival forests ranked a DSAEK intraoperative complication as the third most predictive

59 Cases with intraoperative complications, as well as clinical findin

60 the lesion, and to evaluate the presence of intraoperative complications at the end of surgery.

61 t (vs normal: aHR, 2.88; 99% CI, 1.56-5.30), intraoperative complications at time of lensectomy (vs n

62 The multivariable model resulted in intraoperative complications, axial length, and preopera

63 Intraoperative complications consist of anterior chamber

64 In multivariate analysis, the WHR predicted intraoperative complications, conversion, medical compli

65 EVAR frequency was unchanged (mean, 39%) but intraoperative complications decreased (0.5% per year [9

66 espectively; P < .0001) but similar rates of intraoperative complications, despite having a significa

67 optical coherence tomography (SD-OCT) after intraoperative complication during phacoemulsification.

68 rthotopic liver transplantation; however, an intraoperative complication during recipient hepatectomy

69 There were more intraoperative complications for LRT + SBN (6 vs 0, P =

70 Patients with intraoperative complications had a higher incidence of R

71 However, the most common intraoperative complication has been reported to be maxi

72 Furthermore, most intraoperative complications, if recognized, can be addr

73 ification for phacoemulsification surgery on intraoperative complications in a teaching hospital.

74 Mucosal perforations were the only intraoperative complications in eight patients (2 during

75 There were no clinically significant intraoperative complications in either group.

76 Intraoperative complications included 2 seizures (1.1%)

77 Intraoperative complications included loss of suction (n

78 Intraoperative complications included mucosal laceration

79 Intraoperative complications included pneumothorax, esop

80 of surgical repair may have a higher rate of intraoperative complications, including difficulty with

81 prespecified secondary outcomes, 4 concerned intraoperative complications, including hypotension (dec

82 he 9 prespecified secondary outcomes, 3 were intraoperative complications, including hypoxemia (oxyge

83 Retrieval of the dislocated cup led to intraoperative complications, including posterior retina

84 Intraoperative complications increased with increasing M

85 This study confirms that the risk of intraoperative complications increases with higher preop

86 One intraoperative complication occurred in each group.

87 Intraoperative complications occurred at similar rates i

88 One or more intraoperative complications occurred in 12.4%.

89 Intraoperative complications occurred in 16.7% in the or

90 Intraoperative complications occurred in 32 eyes (6.8%).

91 Intraoperative complications occurred in 4 patients (7%)

92 No other intraoperative complications occurred, and the intraocul

93 No major intraoperative complications occurred.

94 No significant intraoperative complications occurred.

95 vs 130 (IQR 110-180) min; P = 0.770} and no intraoperative complications occurred.

96 No intraoperative complications occurred.

97 a primary IOL implant is not possible due to intraoperative complications or preexisting conditions s

98 No intraoperative complications or unexpected postoperative

99 ence (OR = 1.01 [0.81, 1.25], (P = 0.95), or intraoperative complications (OR = 1.38 [0.94, 2.04], (P

100 atio (OR) = 15.7, relative risk (RR) = 4.1], intraoperative complications (OR = 11.0, RR = 3.2), post

101 e no significant differences in the rates of intraoperative complications (OR, 0.68; 95% CI, 0.42 to

102 No device malfunctions, intraoperative complications, or serious adverse events

103 on and 39 patients with IFIS had more than 1 intraoperative complication (P < .001).

104 nticoagulant treatment (P = 0.05, OR = 1.8), intraoperative complication (P = 0.03, OR = 2.2), and nu

105 ion (P < 0.001) and reduced the incidence of intraoperative complications (P < 0.001) and hospital le

106 Intraoperative complications (peritoneal tear, procedure

107 n cholecystectomy, subtotal cholecystectomy, intraoperative complication, postoperative complications

108 ere anatomical and functional success rates, intraoperative complications, postoperative complication

109 prespecified secondary end points, including intraoperative complications, postoperative complication

110 e measures were intraoperative surgery time, intraoperative complications, postoperative complication

111 had abdominal aortic aneurysm-repair without intraoperative complications, postoperative surgical com

112 Intraoperative complications, primarily bleeding and uri

113 rapy remains common and has resulted in more intraoperative complications, primarily perforation, mor

114 when all the following criteria were met: no intraoperative complications, radical resection accordin

115 lp vitreoretinal surgeons to benchmark their intraoperative complication rate and reoperation rate an

116 derwent vitrectomy without delamination, the intraoperative complication rate was 13.1% (95% CI, 10.2

117 Intraoperative complication rate was 2.3%, mainly bleedi

118 underwent vitrectomy with delamination, the intraoperative complication rate was 30.4% (95% CI, 26.6

119 recommendations were observed (n = 448) the intraoperative complication rate was 4.5% but in "nonadh

120 The intraoperative complication rate was 6%, with premature

121 e of use, minimum required endoillumination, intraoperative complication rate, and postoperative VA.

122 iptions of the primary procedures performed, intraoperative complication rate, and proportion of eyes

123 Intraoperative complication rates decreased from 8.4% to

124 Intraoperative complication rates increased with higher

125 Intraoperative complication rates were 2.9% and 1.9% in

126 .3%; P = .03), while extent of resection and intraoperative complication rates were similar between b

127 paroscopic bariatric surgery are at risk for intraoperative complications relating to the use of CO2

128 Intraoperative complications relative to adherence to st

129 There was no intraoperative complication, reperfusion syndrome, poor

130 ant with a band-related reoperation had more intraoperative complications [risk-adjusted odds ratio (

131 2 - -1.91; P < 0.00001) favoring TC-DCR; and intraoperative complications (RR = 0.16, 95% CI 0.06-0.4

132 Patient outcomes were evaluated using intraoperative complications, short-term morbidity, long

133 Early endothelial cell loss after DSAEK and intraoperative complications should be minimized to impr

134 Intraoperative complications such as PCR also increase t

135 isk factors for retinal detachment including intraoperative complications such as posterior capsular

136 ated with the use of sponge, minor and major intraoperative complications, the use of iris retractors

137 There were more major intraoperative complications (unintended wounds or injur

138 H surgery: demographics, procedure elements, intraoperative complications, visual acuity (VA), and fu

139 val time for grafts that experienced a DSAEK intraoperative complication vs those that did not was -2

140 Overall rate of any intraoperative complication was 5.0%.

141 Overall rate (N = 500) of any intraoperative complication was 5.0%.

142 resses and oversewing, and the occurrence of intraoperative complications were associated with a sign

143 etes, increased donor corneal thickness, and intraoperative complications were associated with an inc

144 eyes with longer axial length, and eyes with intraoperative complications were at an increased risk o

145 Intraoperative complications were comparable between the

146 No intraoperative complications were encountered.

147 Patients with intraoperative complications were excluded from analysis

148 No intraoperative complications were found.

149 No intraoperative complications were identified.

150 Intraoperative complications were more common in the end

151 No eye loss lines of vision and no intraoperative complications were observed.

152 Intraoperative complications were presented in 16.92% of

153 No intraoperative complications were recorded.

154 Intraoperative complications were reported for 69 eyes (

155 No intraoperative complications were reported.

156 Intraoperative complications were similar to control eye

157 Intraoperative complications were subconjunctival hemorr

158 Anterior capsule tear can lead to additional intraoperative complications, with a relatively high inc