ライフサイエンスコーパス: tamponade

1 ute myocardial infarction and 1 with cardiac tamponade).

2 tential for dissection complications such as tamponade).

3 technical surgical factors, such as cardiac tamponade).

4 al hematoma, hemoperitoneum, and pericardial tamponade).

5 n followed immediately by vitrectomy and gas tamponade.

6 eling of the inner limiting membrane and gas tamponade.

7 nal surface and use the silicone for retinal tamponade.

8 peeling during surgery with intraocular gas tamponade.

9 eding, and 1 had pericardial effusion but no tamponade.

10 tient developed pericardial effusion with no tamponade.

11 erence standard for the diagnosis of cardiac tamponade.

12 iagnostic tests for the diagnosis of cardiac tamponade.

13 t causes of hypotension, such as pericardial tamponade.

14 drome (6.3%), including one death because of tamponade.

15 coagulation combined with vitrectomy and gas tamponade.

16 senteric ischemia was induced by pericardial tamponade.

17 bilirubinemia, coagulopathy, and pericardial tamponade.

18 studied, 28 (2.7%) had free-wall rupture or tamponade.

19 No animal had pericardial effusion or tamponade.

20 acteristics identified patients with rupture/tamponade.

21 ition, pneumothorax, hemothorax, and cardiac tamponade.

22 ing cardiogenic shock induced by pericardial tamponade.

23 Cardiogenic shock was induced by pericardial tamponade.

24 ormal filling, restriction, constriction and tamponade.

25 e relatively unknown technique of double oil tamponade.

26 n effective and safer alternative to balloon tamponade.

27 c pure (100 %) sulfur hexafluoride (SF6) gas tamponade.

28 pars plana vitrectomy with 2 cc pure SF6 gas tamponade.

29 lants, 4 patients (8.9%) experienced cardiac tamponade.

30 ng membrane peeling, and gas or silicone oil tamponade.

31 aminations and returned with delayed cardiac tamponade.

32 d a third vitrectomy with heavy silicone oil tamponade.

33 ransconjunctival system, ILM peeling and gas tamponade.

34 Laser endophotocoagulation, and silicon oil tamponade.

35 unknown whether women have a higher risk of tamponade.

36 he peripheral retina followed by silicon oil tamponade.

37 6-month bleeding (4.80% in both the groups), tamponade (0.38% versus 0.58%), infection (1.34% versus

38 ntervention (0.9%), and 1 episode of cardiac tamponade (0.9%) requiring pericardiocentesis.

39 Three cases of tamponade (1%) culminated in death.

40 The prevalence of pericardial tamponade (1%) was similar at all INRs.

41 l complication rates included 39 pericardial tamponades (1.02%) (24 treated percutaneously, 12 surgic

42 (2.7%) experienced complications: 5 cardiac tamponades (1.4%), 4 pseudoaneurysms (1.1%), and 1 strok

43 adverse events included 1 episode of cardiac tamponade, 1 stroke without residual defect, and 1 asymp

44 esence of pericardial effusion (1C), cardiac tamponade (1B), valvular dysfunction (1C), endocarditis

45 oprost infusion was more prominent after the tamponade (422 +/- 87 mL/min in the iloprost group vs. 2

46 Of patients with rupture or tamponade, 75% had pericardial effusions.

47 Among patients with cardiac tamponade, a minority will not have dyspnea, tachycardia

48 ked to provide information on cases of acute tamponade according to sex and their mode of management

49 Macular hole surgery with 2 cc pure SF6 gas tamponade achieved a high success rate with a low incide

50 s of intraocular gases are typically used as tamponading agent in macular hole surgery.

51 d to determine the influence of lens status, tamponading agent, preoperative proliferative vitreoreti

52 The risk of tamponade among women decreases substantially in high-vo

53 h 126 eyes (30.0%) requiring an intravitreal tamponade and 49 eyes (11.7%) undergoing further vitrect

54 h 299 eyes (57.6%) requiring an intravitreal tamponade and 78 eyes (15.0%) undergoing further vitrect

55 There was a 2% incidence of cardiac tamponade and a 2.5% incidence of phrenic nerve palsy.

56 ses only pericarditis and its complications, tamponade and constriction, and congenital lesions.

57 plasma pneumoniae that progressed to cardiac tamponade and constrictive pericarditis.

58 raphy in order to detect subacute rupture or tamponade and initiate appropriate interventions.

59 Vitrectomy alone without gas tamponade and laser photocoagulation is a safe and effec

60 They included one episode of cardiac tamponade and one myocardial infarction in the heparin-b

61 d stable over time, whereas rates of cardiac tamponade and pacemaker implantation significantly incre

62 Balloon tamponade and pharmacological therapy were discontinued

63 afe and effective for rescuing patients from tamponade and reversing hemodynamic instability complica

64 o be at high risk were stabilized by balloon tamponade and vasopressin/nitroglycerin and TIPS placed

65 ide (SF6), or 12% perfluoropropane (C3F8) as tamponade and with no face-down position in the postoper

66 t or normal saline infusion with pericardial tamponade, and after removal of pericardial fluid (reper

67 A case of hemopericardium, cardiac tamponade, and death caused by perforation of the right

68 grees F], subacute course, large effusion or tamponade, and failure of nonsteroidal anti-inflammatory

69 h, myocardial infarction, stroke, or cardiac tamponade, and feasibility, defined as successful implan

70 ng, spontaneous hemopericardium with cardiac tamponade, and hemarthrosis in 11, 7, 1, and 1 patients,

71 chemia, kidney failure, hypotension, cardiac tamponade, and limb ischemia) were increased in patients

72 Significant complications including stroke, tamponade, and severe stenosis occurred in 3.5% (8/211)

73 ated intravascular coagulopathy, and cardiac tamponade, and the patient died on the fourth hospital d

74 of SF6 gas vs room air for anterior chamber tamponade, and the presence of hydrophilic vs hydrophobi

75 kup and acute management skills for treating tamponade are important in centers performing AF ablatio

76 tion with IOL implant, PPV with silicone oil tamponade associated with 180 degrees inferior retinotom

77 taneous Ureaplasma pericardial effusion with tamponade associated with pneumonia, pleural effusion, a

78 Interface fluid diminishes with time during tamponade at both low and high pressures (P < 0.0001).

79 subsequently underwent PPV and silicone oil tamponade at our Institution.

80 ation for other interventions (endobronchial tamponade, BAE, or surgery in eligible candidates) shoul

81 Uterine compression sutures, intrauterine tamponade balloons and cell salvage have all made their

82 device implantation procedures, with cardiac tamponade being the most common cause of death.

83 not only to identify patients with impending tamponade, but also to suggest a diagnosis of constricti

84 coagulation combined with vitrectomy and gas tamponade can safely create an effective intraretinal ba

85 perature, without the development of cardiac tamponade, can be attained using a pericardial catheter

86 on (SE), internal limiting membrane peeling, tamponade choice, and concurrent scleral buckling, were

87 degrees inferior retinotomy and silicone oil tamponade combined with phacoemulsification and IOL impl

88 ment rates only between phakic eyes with gas tamponade compared to silicon oil (SO) (p = 0.001).

89 management of acute cardiac perforation and tamponade complicating catheter-based procedures.

90 eal tamponade, one patient with silicone oil tamponade developed band keratopathy and phthisis bulbi.

91 uire emergency pericardiocentesis if cardiac tamponade develops.

92 rse events including cardiac arrest, cardiac tamponade, device infection, pneumothorax, and in-hospit

93 pericardiocentesis in patients with cardiac tamponade diagnosed by echocardiography.

94 Tamponade did not develop, and there were no significant

95 The choice of gas tamponade did not significantly influence the visual out

96 Independent of the IOP, an air tamponade duration beyond 2 hours reduced the risk of re

97 d 23% (95% CI 17%-29%) in the group with air tamponade duration of below and above 2 hours, respectiv

98 Tamponade during AF ablation procedures is relatively ra

99 One patient (treatment group) had a cardiac tamponade during mapping.

100 geal varix, which was treated with a balloon tamponade during OLT.

101 ed right ventricular perforation and cardiac tamponade during the implant procedure, and eventually d

102 on or ablation; women tended to develop more tamponades during transseptal catheterization.

103 tures occur in the majority of patients with tamponade: dyspnea (sensitivity range, 87%-89%), tachyca

104 trol, and improved exposure coupled with the tamponade effect associated with the pneumoperitoneum ha

105 ns were the same as those seen in single oil tamponade (elevated intraocular pressure, cystoid macula

106 on rate (perforation with or without cardiac tamponade, embolization) was 0.33% for LVEMB and 0.45% f

107 No intraprocedural deaths, cardiac tamponade, emergency surgery, stroke, myocardial infarct

108 ick identification and management of cardiac tamponade even in procedures typically believed to be lo

109 ocoagulation followed by vitrectomy with gas tamponade for creation of a permanent intraretinal and s

110 rge relaxing retinectomies with silicone oil tamponade for PVR-related retinal detachments.

111 tomy surgery with endolaser and silicone oil tamponade for retinal detachment.

112 era of interventional catheterization, acute tamponade from cardiac perforation as a complication is

113 ffusion helps distinguish those with cardiac tamponade from those without.

114 rmal head movements after vitrectomy and gas tamponade generate only small fluid shear stresses on th

115 TIPS was used more frequently in the tamponade group (4 vs. 10; P = 0.12).

116 uent in the esophageal stent than in balloon tamponade group (66% vs. 20%; P = 0.025).

117 Most patients with rupture/tamponade had surgery and/or pericardiocentesis (27/28);

118 Sustained high-pressure anterior chamber air tamponade has no demonstrable effect on measured fluid d

119 Major bleeding was defined as either cardiac tamponade, hematoma that required intervention, or bleed

120 Three patients (0.4%) had cardiac tamponade/hemopericardium, and 5 patients (0.7%) had a t

121 tients are pericardial effusion with cardiac tamponade, high-grade arrhythmia with sudden cardiac dea

122 g (HR: 2.01 [95% CI: 0.91 to 4.44]), cardiac tamponade (HR: 2.38 [95% CI: 0.56 to 10.1]), and intracr

123 Complications included tamponade in 1 patient and heart block in 2 patients.

124 6.9%, ventricular septal rupture in 3.9% and tamponade in 1.4%.

125 4%, sustained ventricular arrhythmias in 3%, tamponade in 3%, and pacemaker implantation in 20%.

126 of pericardiocentesis, with clinically overt tamponade in 40% and frank hemodynamic collapse (systoli

127 ricardiocentesis was successful in relieving tamponade in 91 cases (99%) and was the only and definit

128 , and an important pericardial effusion with tamponade in another.

129 OL calcifications after anterior chamber gas tamponade in DMEK lead to visual impairment and are asso

130 fulness of corneal venting incision with air tamponade in late-onset DMD cases not responding to pneu

131 at comparing esophageal stent versus balloon tamponade in patients with cirrhosis and EVB refractory

132 complications was similar in both groups (1 tamponade in RivG and 1 groin hematoma requiring transfu

133 tly and preceded by stabilization by balloon tamponade in such patients.

134 ed stroke; there were three cases of cardiac tamponade in the ablation group.

135 greater efficacy with less SAEs than balloon tamponade in the control of EVB in treatment failures.

136 Pericardial tamponade is a life-threatening disorder caused by varyi

137 Cardiac tamponade is a potentially life-threatening procedural c

138 Cardiac tamponade is a state of hemodynamic compromise resulting

139 Corneal venting incision with air tamponade is an option in cases where methods like pneum

140 Infectious pericardial effusion with tamponade is an uncommon but life-threatening disease.

141 Silicone oil tamponade is more frequently reserved for cases of compl

142 Balloon tamponade is recommended only as a "bridge" to definitiv

143 Cardiac tamponade is the most dramatic complication observed dur

144 Gas tamponade lasted approximately twice as long as might be

145 Major hemorrhage or cardiac tamponade leading to reoperation occurred in 1.4% of the

146 One other patient experienced cardiac tamponade, leading to termination of the procedure.

147 cardial effusion increases the likelihood of tamponade (likelihood ratio, 3.3; 95% CI, 1.8-6.3), whil

148 strictive posturing after vitrectomy and gas tamponade may be unnecessary.

149 Free-wall rupture and tamponade may present as CS after MI, and survival after

150 ring within 7 days of the procedure included tamponade (n = 4), pericarditis (n = 3), heart block (n

151 34 892 Accufix leads), including pericardial tamponade (n=19), pericardial effusion (n=5), atrial per

152 xtensive dissection (n=61, 54%), perforation/tamponade (n=23, 20%), and recurrent acute closure (n=23

153 d conservatively in a majority of cases with tamponade nephrostomy tubes with or without transfusions

154 y bleeding; intracranial hemorrhage; cardiac tamponade; nonbypass surgery-related blood transfusion w

155 s without a known reversal agent and, should tamponade occur during ablation, it is unclear what reve

156 s in the placebo group (P=0.75), and cardiac tamponade occurred at rates of 1.1% and 0.4%, respective

157 Most cases of tamponade occurred during catheter manipulation or ablat

158 Tamponade occurred in 16.6% and emergency surgery in 3.4

159 ular access site, hemolysis, and pericardial tamponade occurred in 34 (28.6%), 9 (7.5%), and 2 (1.7%)

160 physiological centers that reported cases of tamponade occurring during AF ablation.

161 A postsurgical air tamponade of at least 2 hours with an IOP within the phy

162 tip catheters into the bleeding bronchus for tamponade of the hemorrhagic artery, protecting de facto

163 lasgow Coma Scale of <9, and severe IVH with tamponade of the third and fourth ventricles requiring p

164 the silicone oil was used as an intravitreal tamponade, one patient with silicone oil tamponade devel

165 re to save life by prevention of pericardial tamponade or intra-pericardial aortic rupture, to resect

166 All studies evaluated patients with known tamponade or those referred for pericardiocentesis with

167 Pericardial tamponade or transient neurological events occurred in 2

168 5% CI, 0.31-1.43; P=0.30), including cardiac tamponade (OR, 0.69; 95% CI, 0.19-2.47; P=0.57).

169 CI, 1.22 to 5.54; P=0.01), hypotension/shock/tamponade (OR, 2.97; 95% CI, 1.83 to 4.81; P<0.0001), ki

170 condary outcomes included major AEs (stroke, tamponade, or death) and death.

171 ac arrest, e.g., pulmonary embolism, cardiac tamponade, or hypovolemia, and signal the return of vent

172 ections that did not result in perforations, tamponade, or MACE.

173 dial complications (hemopericardium, cardiac tamponade, or pericardiocentesis), pneumothorax, stroke,

174 on for worsening heart failure, perforation, tamponade, or sustained ventricular arrhythmias.

175 lantation with no deaths, strokes, bleeding, tamponade, or valve reintervention.

176 nterval [CI], 1.002-1.099; P = 0.04; and for tamponade: OR, 10.71; 95% CI, 1.08-106.29; P = 0.04).

177 Cardiac tamponade, permanent pacemaker implantation, major vascu

178 plications including cardiac perforation and tamponade, pneumothorax, stroke, transient ischemic atta

179 esion is independent of anterior chamber air tamponade pressure (P = 0.38).

180 To explore the impact of intracameral air tamponade pressure and duration on graft attachment and

181 In 7 of the pigs, pericardial tamponade, produced by injection of saline or heparinize

182 Specific situations like pericardial tamponade, pulmonary embolism, left ventricular outflow

183 However, 16% cases of tamponade required surgery with lower rates in high-volu

184 Diagnostic certainty of the presence of tamponade requires additional testing.

185 cy outcome was a composite of death, cardiac tamponade requiring pericardiocentesis, or constrictive

186 nt effect on the composite of death, cardiac tamponade requiring pericardiocentesis, or constrictive

187 The tamponade resolved after pericardiocentesis and was mana

188 Silicone oil tamponade should be considered in patients who have posi

189 Endobronchial tamponade should only be used as a temporary measure unt

190 Type of intraocular tamponade, status of lens, status of cornea, gauge of in

191 Women and older patients with rupture/tamponade tended to survive intervention less often.

192 %) were undertaken in 88 patients with acute tamponade that developed in association with a diagnosti

193 andard 3-port pars plana vitrectomy with gas tamponade to repair rhegmatogenous retinal detachment we

194 of lens, method of retinopexy, and use of a tamponade, together with the onset of a rhegmatogenous r

195 atic technologies including glues, bandages, tamponades, tourniquets, dressings, and procoagulant pow

196 st classification based upon lens status and tamponade used, second classification based upon lens an

197 No death, cardiac tamponade, ventricular arrhythmia, or other procedural c

198 d by rupture of the ventricular free wall or tamponade versus shock from other causes.

199 ificant aortic regurgitation and pericardial tamponade was 100%.

200 ectomy for complex RRD with either gas or SO tamponade was achieved in phakic as well as pseudophakic

201 A new silicone oil-based tamponade was developed with a viscosity similar to Silu

202 Finally, corneal venting incision with air tamponade was done resulting in egress of supra-descemet

203 ctomy with subretinal t-PA injection and gas tamponade was found to be relatively effective for displ

204 Pericardial tamponade was induced by injecting 5% dextrose in water

205 were recorded at baseline, after pericardial tamponade was induced, during the iloprost or normal sal

206 Cardiac tamponade was less common in PCS patients (P=0.007).

207 Sulfur hexafluoride gas tamponade was noninferior to longer-acting gases in the

208 A higher rate of pericardial tamponade was observed in group A (5.2% versus 0%; P=0.2

209 nternal limiting membrane peeling and an air tamponade was performed in the right eye.

210 st or saline was continued after pericardial tamponade was reversed.

211 Pericardial tamponade was suggested by right heart catheterization m

212 Overall, cardiac tamponade was the most frequent direct cause of death (4

213 t underwent 23 gauge PPV, endolaser, and gas tamponade were allocated to Group 1, and 7 eyes of 7 cas

214 atient in whom a complete vitrectomy and oil tamponade were performed.

215 g age and the use of perfluoropropane (C3F8) tamponade were predictive of anatomic success (per 1-yea

216 reported in either group; 4 cases of cardiac tamponade were reported in the ablation group.

217 Overall, 289 (0.9%) cases of tamponade were reported: 120 (1.24%) in women and 169 (0

218 elial cell loss were similar in both groups, tamponade with 20% SF6 yielded a significantly lower inc

219 In retinal detachments with PVR, tamponade with either gas or silicone oil can be conside

220 t difference in level 1 failure rate between tamponade with gas versus silicone oil in patients with

221 360 degrees laser retinopexy and silicon oil tamponade with no incidence of retinal slippage.

222 pars plana vitrectomy (PPV) and silicone oil tamponade with or without scleral buckling procedure (SB

223 between center volume and the occurrence of tamponade with substantially lower risk in high-volume c