ライフサイエンスコーパス: TEE

1 TEE (measured by doubly labeled water), food intake, act

2 TEE adjusted for weight and age or PAL did not differ si

3 TEE and ICE were performed before the procedure.

4 TEE and substrate oxidation were measured twice for 48 h

5 TEE from DLW was highly correlated (r = 0.93) with EER f

6 TEE is a relatively safe method for monitoring cardiac p

7 TEE predicted by DRI equations agreed with observed TEE

8 TEE was inserted after induction of GA to exclude left a

9 TEE was inversely associated with age and increased line

10 TEE was lower in women (approximately 530 kcal/d; P < 0.

11 TEE was measured by doubly labeled water.

12 TEE was measured by the DLW method in 450 men and women

13 TEE was measured by using doubly labeled water (TEE(DLW)

14 TEE, NREE, and (to a lesser extent) REE were significant

15 TEEs included deep vein thrombosis (DVT) alone in 49.7%,

16 TEEs occurred within 100 days of initiation of treatment

17 , weight, body mass index (BMI; in kg/m(2)), TEE, and PAL were extracted, and HDI status was assessed

18 of appropriateness over time using the 2007 TEE AUC (p = 0.03) and 2006 CT AUC (p = 0.02).

19 2D TEE, compared with 3D TEE, underestimated RVOTA max and

20 n=20) and CT data (n=20) to those made by 2D TEE and targeted 2D from 3D TEE and CT in patients witho

21 al information that cannot be obtained by 2D TEE or fluoroscopy.

22 ovide more accurate assessment of CO than 2D TEE.

23 ameter was significantly greater than the 2D TEE measurements (P=0.004).

24 Cardiac output (CO) was calculated using 2D TEE, 3D TEE, and a Swan-Ganz catheter in 23 patients.

25 ment with CO with a catheter than CO with 2D TEE (r=0.83 and 0.53, respectively).

26 hocardiography (TEE) to two-dimensional (2D) TEE as methods for predicting aortic regurgitation after

27 Two-dimensional (2D) TEE measured maximum and minimum RVOT diameters (RVOTD m

28 Patients studied had both 2D-TEE and 3D imaging (contrast CT and/or 3D-TEE) of the ao

29 that is significantly superior to that of 2D-TEE.

30 Prospectively recorded 2D-TEE measurements had a low discriminatory value (area un

31 tomography (CT) parameters is superior to 2D-TEE for the prediction of paravalvular aortic regurgitat

32 ed (P = 0.01-0.05) with TEE (r = 0.26-0.38), TEE per kilogram (r = 0.31-0.41), and PAL (r = 0.36-0.48

33 3D TEE determined RVOT area (RVOTA) max and min, RVOT fract

34 3D TEE revealed that RVOT geometry was not generally circul

35 hy, particularly two-dimensional (2D) and 3D TEE, is an integral part of preprocedural, intraprocedur

36 We also compared the automated 3D TEE measurements in severe aortic stenosis (n=14), dilat

37 The automated 3D TEE sagittal annular diameter was significantly greater

38 .05); also, these parameters by automated 3D TEE were significantly different in abnormal (P<0.05).

39 The average 3D TEE and CT annular diameter was greater than both their

40 als showed significant difference between 3D TEE and CT (P<0.05); also, these parameters by automated

41 ique visualization of the mitral valve by 3D TEE allows improved understanding of the morphological a

42 valve regurgitant volume by color Doppler 3D TEE was determined as the product of vena contracta area

43 nsional transesophageal echocardiography (3D TEE).

44 eters obtained by automated modeling from 3D TEE (n=20) and CT data (n=20) to those made by 2D TEE an

45 those made by 2D TEE and targeted 2D from 3D TEE and CT in patients without valve disease (normals).

46 ative 3D modeling of the aortic root from 3D TEE or CT data is technically feasible and provides uniq

47 re functional mitral valve regurgitation, 3D TEE with and without color Doppler as well as 2D transth

48 Recently, an RT 3D TEE probe has been developed to produce high-quality rea

49 In mitral valve dehiscence, RT 3D TEE provides additional information about the exact anat

50 We used RT 3D TEE to evaluate mitral regurgitation after mitral valve

51 ion and diagnostic utility provided by RT 3D TEE.

52 tailed morphological information of RVOT, 3D TEE could provide more accurate assessment of CO than 2D

53 output (CO) was calculated using 2D TEE, 3D TEE, and a Swan-Ganz catheter in 23 patients.

54 he review resulted in the conclusion that 3D TEE provides unique and dynamic 3D spatial information t

55 This was also true for the 3D TEE and CT coronal annular diameters (P<0.01).

56 Real-time 3D TEE allowed accurate evaluation of the pathology, includ

57 With the advent of real-time 3D TEE, interest in this technology has increased dramatica

58 study included 114 patients who underwent 3D TEE.

59 CO with 3D TEE had better agreement with CO with a catheter than CO

60 2D TEE, compared with 3D TEE, underestimated RVOTA max and min (both P<0.001).

61 Three-dimensional (3D) TEE capabilities have been available since the 1990s but

62 urements using a new method for analyzing 3D-TEE images closely approximate those of MDCT.

63 index=0.715 and 0.709, respectively) and 3D-TEE (area under the curve for perimeter and area cover i

64 c stenosis who had both contrast MDCT and 3D-TEE for annulus assessment before balloon-expandable tra

65 characteristic analysis between MDCT and 3D-TEE perimeter and area cover indexes were not statistica

66 Mean MA area and circumference by 3D-TEE and CT were 11.3+/-2.7 versus 11.4+/-3.0 (P=0.67) an

67 to-lateral and inter-trigone distances by 3D-TEE and CT were 33.2+/-4.7 versus 32.5+/-4.4 (P=0.24) an

68 001) and mean cross-sectional diameter by 3D-TEE was of intermediate value (area under the curve = 0.

69 Similar to cardiac CT, 3D-TEE allows for D-shaped MA segmentation with no systemat

70 nsional transesophageal echocardiography (3D-TEE) were retrospectively evaluated.

71 ross-sectional data should be sought from 3D-TEE if good CT data are unavailable for TAVR sizing.

72 study compares annulus measurements from 3D-TEE using off-label use of commercially available softwa

73 This study supports the utilization of 3D-TEE as a complementary tool to CT assessment of the D-sh

74 2D-TEE and 3D imaging (contrast CT and/or 3D-TEE) of the aortic annulus at baseline.

75 A TEE was cisplatin-associated if it occurred between the

76 mong 932 patients, 169 (18.1%) experienced a TEE during treatment or within 4 weeks of the last dose.

77 surgical LAA closure from 1993 to 2004 had a TEE after surgery.

78 hese patients, who were weight stable, had a TEE almost identical to measured or predicted values in

79 Absolute TEE and AEE increased significantly from age 10 to age 1

80 Absolute TEE differed by sex (men, 26.6 +/- 2.0 MJ/d; women, 21.9

81 A high preholiday absolute TEE or residual TEE did not protect against BW gain duri

82 ential diagnosis for esophageal injury after TEE-guided AF ablation under GA, and can result in signi

83 23 patients who underwent CT angiography and TEE, both modalities showed a PFO shunt in seven.

84 No correlations between DeltaBW and TEE or TEE residuals were found.

85 mensional transthoracic echocardiography and TEE.

86 hocardiography, stress echocardiography, and TEE, among others.

87 gy balance, as supported by reviewed FEA and TEE studies, suggests that obese subjects participating

88 itive ICE, and 38 patients (73%) had ICE and TEE both negative.

89 In group 2, 6 patients (11%) had ICE and TEE both positive for ICM, 8 patients (15%) had a negati

90 by ICE, a perfect agreement between ICE and TEE was obtained (both techniques detected LAA thrombus

91 ICE and TEE were both negative in the control group.

92 p 3, 2 patients (3%) had ICM both at ICE and TEE, 1 patient (2%) had an ICM at ICE and a negative TEE

93 and 53 patients (95%) had no ICM at ICE and TEE.

94 r TTE and CTA but not for stress imaging and TEE.

95 asured metabolizable energy intake (MEI) and TEE.

96 weight loss resulted in decreases in REE and TEE that were greatest with the low-fat diet, intermedia

97 ect did not decrease when suppressed RMR and TEE were controlled for.

98 d moderate relations with suppressed RMR and TEE, but these variables do not appear to drive the pred

99 correlated inversely with suppressed RMR and TEE, yet this predictive effect did not decrease when su

100 xpenditure (AEE) was calculated from RMR and TEE.

101 olor Doppler as well as 2D transthoracic and TEE was performed before and after PMVR (MitraClip devic

102 MEI(wtstb) and TEE(DLW) gave similar estimates of energy needs.

103 ncreased risk of DVT was identified, nor any TEE reported in rhC1INH treated or controls.

104 one in 25.4%, DVT plus PE in 13.6%, arterial TEE alone in 8.3%, or DVT plus arterial TEE in 3.0%.

105 rial TEE alone in 8.3%, or DVT plus arterial TEE in 3.0%.

106 For the primary end point, arterial TEE, we observed a transient increased risk of TEE durin

107 ith a baseline risk of 1.8% for the arterial TEE end point.

108 er, and activity energy expenditure (AEE) as TEE - BMR.

109 energy expenditure (AEE) was calculated as [TEE(0.9) - RMR].

110 We observed a strong linear relation between TEE by using DLW and estimated energy requirements predi

111 and positive correlations were shown between TEE and AEE/BM with QS.

112 of the patients had complete LAA closure by TEE.

113 One of 85 patients had a </= 3-mm jet by TEE.

114 patients had a </= 2-mm residual LAA leak by TEE color Doppler evaluation.

115 he Medical University of Vienna monitored by TEE during OLT between 2003 and 2010.

116 status, and level of obesity, and to compare TEE to the DRI EER.

117 0.32) for STAR-Q-derived versus DLW-derived TEE and AEE, respectively.

118 STAR-Q-derived TEE and AEE were moderately correlated with DLW estimate

119 We aimed to describe TEE and physical activity energy expenditure in middle-a

120 Three dimensional TEE demonstrates significant reduction of regurgitant vo

121 Three-dimensional TEE and MDCT cross-sectional perimeter and area measurem

122 Three-dimensional TEE can offer cross-sectional assessment of the aortic a

123 ne screening transesophageal echocardiogram (TEE) before pulmonary vein isolation (PVI); and 2) the r

124 Transesophageal echocardiogram (TEE) is considered the gold standard modality in detecti

125 dications to transesophageal echocardiogram (TEE), revealed in a hemophilic patient, and diagnosed wi

126 onal (3D) transesophageal echocardiographic (TEE) measurements to severely underestimate multidetecto

127 to 0.89]), transesophageal echocardiography (TEE) (89% [95% CI: 0.81 to 0.94] vs. 95% [95% CI: 0.93 t

128 ot from 3D transesophageal echocardiography (TEE) and computed tomographic (CT) data.

129 irmed with transesophageal echocardiography (TEE) and contrast fluoroscopy immediately, then with TEE

130 to compare transesophageal echocardiography (TEE) and intracardiac echocardiography (ICE) for the dia

131 st that 3D transesophageal echocardiography (TEE) can also accurately measure the annular aortic annu

132 (LASEC) by transesophageal echocardiography (TEE) has been proposed as an important variable in the s

133 Performing transesophageal echocardiography (TEE) in all patients with E-BSI is costly and time-consu

134 ring using transesophageal echocardiography (TEE) in patients with signs of portal hypertension under

135 oracic and transesophageal echocardiography (TEE) in the evaluation of post-operative mitral valve de

136 ional (2D) transesophageal echocardiography (TEE) is nearly universal in cardiac surgical operating r

137 Transesophageal echocardiography (TEE) is the gold standard for the exclusion of thrombi i

138 dy used 3D transesophageal echocardiography (TEE) to determine the functional and morphological effec

139 ional (3D) transesophageal echocardiography (TEE) to two-dimensional (2D) TEE as methods for predicti

140 Transesophageal echocardiography (TEE) was performed in patients with a negative TTE and a

141 aoperative transesophageal echocardiography (TEE), in CABG patients.

142 rticularly transesophageal echocardiography (TEE), is a vital diagnostic and monitoring imaging modal

143 the use of transesophageal echocardiography (TEE).

144 (EKG), and transesophageal echocardiography (TEE).

145 them with transesophageal echocardiography (TEE).

146 ation with transesophageal echocardiography (TEE).

147 approach (transoesophageal echocardiography [TEE] or not), anticoagulant experience, selected edoxaba

148 t commonplace; rather than echocardiography, TEE, specifically, should be (and is in some institution

149 ified as low energy reporters (<95% CI of EI:TEE) were highest for subjects classified as obese (body

150 ptable energy reporters (within 95% CI of EI:TEE).

151 was no association of HDI status with either TEE or PAL.

152 fied >12,000 translation-enhancing elements (TEEs) in the human genome, generated a high-resolution m

153 en the worth of echocardiography, especially TEE, in the critically ill and injured patient, changing

154 Estimated TEE and PAEE were significantly associated with criterio

155 Thrombotic/thromboembolic events (TEE) have been reported with plasma-derived C1INH, but s

156 f venous and arterial thromboembolic events (TEEs) in patients treated with cisplatin-based chemother

157 ing about the risk of thromboembolic events (TEEs), with TEEs reported in 0.5% to 15% of patients tre

158 tories reflect low total energy expenditure (TEE) (kilocalories per day) relative to other placental

159 st the referent of total energy expenditure (TEE) and 2) to compare the methods of determining energy

160 ne the relation of total energy expenditure (TEE) and activity [physical activity level (PAL), activi

161 as substantial for total energy expenditure (TEE) and AEE (intraclass correlation coefficients of 0.8

162 se program on 24-h total energy expenditure (TEE) and its components-basal (BEE), sleep (SEE), and aw

163 ries have a higher total energy expenditure (TEE) and physical activity level (PAL) than do people in

164 e relation between total energy expenditure (TEE) as well as substrate oxidation and QS after disturb

165 ed by calorimetry, total energy expenditure (TEE) by doubly labeled water, and activity energy expend

166 n = 302), or total daily energy expenditure (TEE) by using doubly labeled water (n = 120).

167 tory gas exchange, total energy expenditure (TEE) by using doubly labeled water, and body composition

168 y intake (EI) with total energy expenditure (TEE) by using the doubly labeled water (DLW) technique.

169 MR) and suppressed total energy expenditure (TEE) drive these relations.

170 measured value of total energy expenditure (TEE) from DLW, which is considered the gold standard.

171 jective measure of total energy expenditure (TEE) in free-living men and women.

172 studies of FEA and total energy expenditure (TEE) in obese patients undergoing weight loss with LCDs

173 We quantified total energy expenditure (TEE) in patients with SBS by using the doubly labeled wa

174 were derived from total energy expenditure (TEE) measured by using the doubly labeled water (DLW) me

175 with high baseline total energy expenditure (TEE) or whether it varied by BMI (in kg/m(2)).

176 onsistently higher total energy expenditure (TEE) than their corresponding WT.

177 Twenty-four-hour total energy expenditure (TEE) was assessed by precise titration of fed calories o

178 Total daily energy expenditure (TEE) was measured by doubly labeled water, body composit

179 jectively assessed total energy expenditure (TEE) with estimates of energy expenditure (EE) from self

180 We quantified total energy expenditure (TEE), food intake, and changes in body composition in ma

181 ondary outcomes of total energy expenditure (TEE), hormone levels, and metabolic syndrome components.

182 dy were to measure total energy expenditure (TEE)-derived energy requirements in a biracial populatio

183 ary to cover total daily energy expenditure (TEE).

184 ed to a decline in total energy expenditure (TEE).

185 er measurements of total energy expenditure (TEE; kcal day(-1)) in humans, chimpanzees, bonobos, gori

186 The activity factor TEE/RMR was used to categorize the physical activity lev

187 The intrasubject CV was 3.9% for TEE(DLW) and 9.9% for MEI.

188 Monitoring for TEE and assessment of risk of deep vein thrombosis (DVT)

189 lly significant, and cost-effective role for TEE as a safe and valuable hemodynamic monitor in identi

190 Positive correlations were shown for TEE, activity-induced energy expenditure corrected for b

191 aerobic exercise program did not affect 24-h TEE, BEE, SEE, or SEDEE in lean or obese participants.

192 The men had higher TEE (12,983 compared with 9620 kJ/d; P < 0.01), AEE (524

193 greater physical activity levels had higher TEE (F = 5.15, P = 0.029); however, physical activity di

194 at-free mass, women had significantly higher TEE than did men (182 kcal/d).

195 with more traditional lifestyles had higher TEEs and PALs than did persons with more modernized life

196 Overweight men and women had modestly higher TEEs than did lean participants; when adjusted for body

197 uding body size and physical activity, human TEE exceeded that of chimpanzees and bonobos, gorillas a

198 me, generated a high-resolution map of human TEE-bearing regions (TBRs), and validated the function o

199 Changes with age in TEE, RMR, and activity energy expenditure (AEE), both in

200 The decrease in TEE showed a similar pattern (mean [95% CI], -423 [-606

201 Such large differences in TEE are not easily explained by differences in physical

202 There were no significant differences in TEE, FFM, or physical activity levels in women by menopa

203 Much of the increase in TEE is attributable to humans' greater basal metabolic r

204 explained 19% of the phenotypic variance in TEE (0%, 60%; P = 0.13), whereas c2 and e2 accounted for

205 wk aerobic exercise program did not increase TEE, BEE, SEE, or SEDEE in either lean or obese sedentar

206 and are less active, and activity influences TEE.

207 Initial TEEs for pre-PVI of 1,058 AF patients (age 57 +/- 11 yea

208 associated with increases in energy intake, TEE, and EB.

209 Intraoperative TEE, however, has perhaps been most useful for the perio

210 In addition, intraoperative TEE has been instrumental in diagnosing cardiac and asso

211 Even mild MR, identified by intraoperative TEE, predicts worse outcomes after CABG.

212 ted CABG and had MR graded by intraoperative TEE.

213 nt, independent advantage for intraoperative TEE.

214 ocus primarily on the role of intraoperative TEE in defining mitral valve anatomy, the pathogenesis a

215 was to evaluate the safety of intraoperative TEE monitoring during OLT in patients with esophagogastr

216 Finally, the use of intraprocedural TEE allows imaging of complications.

217 ined no variance in physical activity level (TEE/RMR) (0%, 32%; P = 0.50), whereas c2 and e2 explaine

218 ress, endotoxemia, inflammation, IR, and low TEE.

219 Mean TEE and physical activity level (PAL) averaged 1159 +/-

220 Mean TEE was lowest in the seventh decade.

221 Measured TEE in patients with SBS was significantly higher than p

222 Measured TEE was significantly higher than predicted TEE for the

223 Measured TEE was significantly lower in the SBS group than in the

224 had predicted TEE values </=10% of measured TEE.

225 energy requirements underestimated measured TEE by ~120 kcal on average.

226 ficantly associated with criterion measures (TEE: r = 0.67; PAEE: r = 0.39) with mean (+/-SD) biases

227 ive for ICM, 8 patients (15%) had a negative TEE but a positive ICE, and 38 patients (73%) had ICE an

228 atient (2%) had an ICM at ICE and a negative TEE, and 53 patients (95%) had no ICM at ICE and TEE.

229 New TEE prediction equations that are based on DLW and appro

230 expenditure (NREE) was calculated as NREE = TEE - (REE +TEF).

231 dicted by DRI equations agreed with observed TEE (+34 kcal/d or 3%) if the sedentary PAL category was

232 rmic effect of meals was estimated at 10% of TEE.

233 tability (MEI(wtstb)) averaged 99 +/- 11% of TEE.

234 We conducted a meta-analysis of TEE and PAL by using data from countries that have a low

235 The therapeutic effect of TEE ranges from 10% to 69%, with the majority of investi

236 The effect of TEE technology is quite formidable, and numerous investi

237 The mean absolute error of TEE prediction equations was 0.00 +/- 35 kcal/d or 0.1 +

238 ompared doubly labeled water measurements of TEE among 17 primate species with similar measures for o

239 ory chamber studies identified 10 reports of TEE in RO patients (n = 150) with long-term weight loss.

240 siologist who were blinded to the results of TEE.

241 E, we observed a transient increased risk of TEE during the day of an IVIg infusion and the day after

242 CD, or both compared to the gold standard of TEE.

243 At time of TEE, 6 patients with successful LAA closure (11%) and 12

244 The diagnostic yield of TEE is far greater, approaching 78%.

245 lysis confirms the unacceptable incidence of TEEs in patients receiving cisplatin-based chemotherapy.

246 Intracardiac air was detected on TEE less than 30 seconds after increasing air infusion p

247 ta = +0.15, P = 0.02) but not altered REE or TEE.

248 No correlations between DeltaBW and TEE or TEE residuals were found.

249 1), and on average, the STAR-Q overestimated TEE and AEE (median differences were 367 kcal/day and 29

250 Because PAEE [TEE - (RMR + 0.1 x TEE)] depends on body weight, which i

251 ntracardiac masses (ICM) in all 44 patients; TEE identified ICM in 32 patients (73%).

252 In this population, TEE was higher in women than in men when adjusted for FF

253 ssion models were newly developed to predict TEE from age, weight, height, and new PAL categories.

254 eventy percent of participants had predicted TEE values </=10% of measured TEE.

255 non-SBS group (P < 0.01); however, predicted TEE did not differ significantly between the groups (P =

256 TEE was significantly higher than predicted TEE for the SBS group (1875 +/- 276 compared with 1517 +

257 and treatment characteristics in predicting TEE occurrence.

258 ients (n = 206) with definite NVAF receiving TEE were included for this prospective cohort study.

259 y was to determine whether ICE could replace TEE and to identify the optimal ICE placement for LAA vi

260 nterococcal IE (and therefore do not require TEE) and to compare the outcome of E-BSI in patients wit

261 energy expenditure was assessed as residual TEE after linear adjustment for age, height, and BW.

262 A high preholiday absolute TEE or residual TEE did not protect against BW gain during the winter ho

263 perative transesophageal echocardiography's (TEE) influence on perioperative cardiac surgical decisio

264 is no clear consensus of whether a screening TEE before catheter ablation of AF should be performed i

265 This suggests that a screening TEE before PVI should be performed in patients with a CH

266 ients with AF undergoing a pre-PVI screening TEE is very low (<2%) and increases significantly with h

267 ase, we assessed rates of clinically serious TEEs in 2724 new users of IVIg and a propensity-matched

268 2.0 MJ/d; P < 0.05) but body weight-specific TEE did not (men, 343 +/- 26 kJ . kg(-1) . d(-1); women,

269 In this observational study, TEE was measured in 22 participants, 11 with SBS and 11

270 a very low risk for enterococcal IE and that TEE could be obviated.

271 The TEE measurements included color Doppler flow in the LAA

272 However, the TEE-guided strategy had a shorter time to cardioversion

273 The results were independent of the TEE-guided strategy and anticoagulation status.

274 g is performed, is a reliable alternative to TEE for the detection of LA/LAA thrombi/clot, avoiding t

275 h relative and absolute contraindications to TEE.

276 % CIs were determined for the ratio of EI to TEE.

277 (-1)) and the relative contribution of FM to TEE (men, 74 +/- 14%; women, 89 +/- 6%) were significant

278 not known whether higher than these typical TEE levels would protect against weight gain or if the o

279 Unadjusted TEE was lower in women than in men (591 kcal/d); however

280 Food records underreported TEE(DLW) by 35 +/- 20%.

281 d for atrial fibrillation ablation underwent TEE before the procedure and LAA assessment by ICE.

282 .5% of all patients with E-BSI who underwent TEE).

283 unknown in 24 (33%) and diagnosed only upon TEE or a second TTE in 7 (10%).

284 ine risk of 1.1% was observed for the venous TEE end point.

285 was measured by using doubly labeled water (TEE(DLW)), and MEI was measured by bomb calorimetry of c

286 10.7 +/- 5.4 kcal/gestational week, whereas TEE increased by 5.2 +/- 12.8 kcal/gestational week, whi

287 itive association of weight (P < 0.001) with TEE for both sexes; there was an association of age only

288 ignificantly correlated (P = 0.01-0.05) with TEE (r = 0.26-0.38), TEE per kilogram (r = 0.31-0.41), a

289 ing the discomfort and risks associated with TEE.

290 the Escott-Stump equation and compared with TEE determined with DLW.

291 rdiac computed tomography when compared with TEE in patients with a history of atrial fibrillation be

292 ncreasing the diagnostic yield compared with TEE.

293 bjects underreported EI by 11% compared with TEE.

294 assessing LA/LAA thrombi in comparison with TEE.

295 No previous studies have compared ICE with TEE for the diagnosis of IE.

296 In PVT, the thrombus size imaged with TEE is a significant independent predictor of outcome.

297 contrast fluoroscopy immediately, then with TEE at 1 day, 30 days, 90 days, and 1 year post-LAA liga

298 e risk of thromboembolic events (TEEs), with TEEs reported in 0.5% to 15% of patients treated with IV

299 Because PAEE [TEE - (RMR + 0.1 x TEE)] depends on body weight, which is highly heritable,

300 Of the patients undergoing 1-year TEE (n = 65), there was 98% complete LAA closure, includ