ライフサイエンスコーパス: cholecystectomy

1 ng surgical treatment (open vs. laparoscopic cholecystectomy).

2 al knee arthroplasty to 96% for laparoscopic cholecystectomy).

3 The majority, 88.8% (6060), had a simple cholecystectomy.

4 cystitis in patients undergoing laparoscopic cholecystectomy.

5 male patients who are in need of an elective cholecystectomy.

6 equiring operative repair within 6 months of cholecystectomy.

7 ith a shorter operation time for laparoscopy cholecystectomy.

8 ation was an omental vessel bleed after a TV cholecystectomy.

9 h groups then performed another laparoscopic cholecystectomy.

10 stectomy and/or ERCP/ES in cases of previous cholecystectomy.

11 nce of and consider risk factors for iGBC at cholecystectomy.

12 nts with increased comorbidities compared to cholecystectomy.

13 e strategy against common duct injury during cholecystectomy.

14 al episode of gallstone pancreatitis receive cholecystectomy.

15 es, positive resection margins, and extended cholecystectomy.

16 ommonly reported to occur after laparoscopic cholecystectomy.

17 langiography reduced the risk of death after cholecystectomy.

18 aphy in preventing common duct injury during cholecystectomy.

19 -day readmissions for inpatient laparoscopic cholecystectomy.

20 from a laparoscopic cholecystectomy to open cholecystectomy.

21 ia hepatica dextra induced by a laparoscopic cholecystectomy.

22 n the 2 groups during the first laparoscopic cholecystectomy.

23 complications, or death for elective daytime cholecystectomy.

24 nd mortality (0%) between index and interval cholecystectomy.

25 ased risk of abdominal surgery, particularly cholecystectomy.

26 antly high in people with gallstones without cholecystectomy.

27 ed with conversion from laparoscopic to open cholecystectomy.

28 ce of abdominal or pelvic surgery, including cholecystectomy.

29 erative cholangiography (IOC) during robotic cholecystectomy.

30 lity of performance based on VR laparoscopic cholecystectomy.

31 ation when disorientated during laparoscopic cholecystectomy.

32 o be between 4 and 8 weeks after the initial cholecystectomy.

33 ssociations are not due to detection bias or cholecystectomy.

34 are discovered incidentally at laparoscopic cholecystectomy.

35 hospitals in inpatient Medicare laparoscopic cholecystectomy.

36 imaging of biliary anatomy towards precision cholecystectomy.

37 rely occur during the course of laparoscopic cholecystectomy.

38 epair of bile duct injuries sustained during cholecystectomy.

39 -day readmissions for inpatient laparoscopic cholecystectomy.

40 ould provide outcomes comparable to extended cholecystectomy.

41 al, partial, insufficient or incomplete, and cholecystectomy.

42 rogram and performed 270 of 288 laparoscopic cholecystectomies.

43 0.021), and fourth (P = 0.023) laparoscopic cholecystectomies.

44 as is an additional 6-month follow-up of the cholecystectomies.

45 t reconstruction, 0.5% and 0.3% after 57,750 cholecystectomy, 0.6% and 0.5% after 60,681 hernia, and

46 ctal cancer resection (3.37; 2.23-5.09), and cholecystectomy (1.67; 1.27-2.19) (P < .05 for each), bu

47 e most common procedures in both groups were cholecystectomy (10.5%), hip arthroplasty (10.5%), spine

48 access and 151,867 for non-critical access; cholecystectomy, 10,556 for critical access and 573,435

49 2.06; appendectomy, 12% versus 2%, AOR 3.27; cholecystectomy, 11% versus 3%, AOR 2.65; P < 0.001 for

50 verall complication rate is 6.1% in elective cholecystectomy, 11.2% in urgent cholecystectomy, and 12

51 ant differences were observed in terms, open cholecystectomy (15% vs 14%, RR=1.07, 95% CI: 0.99-1.16)

52 minal surgery, including appendectomy (23%), cholecystectomy (16.4%), and hysterectomy (8.2%).

53 scopic appendectomy (35.2%) and laparoscopic cholecystectomy (19.3%) were the most common procedures.

54 al performance standard for the laparoscopic cholecystectomy, (2) assess the classification accuracy

55 of 102 TV NOTES procedures, including 72 TV cholecystectomies, 24 TV appendectomies, and 6 TV ventra

56 Of 92,932 patients undergoing cholecystectomy, 37,533 (40.4%) underwent concurrent int

57 P/ES) in patients who had undergone previous cholecystectomy; 4 patients refused surgery.

58 operations performed, the 5 most common were cholecystectomy (48.5%), appendectomy (16.2%), groin her

59 fracture reduction (63% to 68%, P < 0.001), cholecystectomy (54% to 63%, P < 0.001), and pyloromyoto

60 than in the liver transplantation (63.4%) or cholecystectomy (61.1%) groups (P = .017).

61 ), bariatric (10.5%), mastectomy (9.7%), and cholecystectomy (9.0%).

62 Before interval cholecystectomy, 95 patients (18%) were readmitted for r

63 Interval cholecystectomy after mild biliary pancreatitis is assoc

64 mple (12.4 months) or extended (10.7 months) cholecystectomy alone (all log-rank P<0.001).

65 Open or urgent/emergent cholecystectomies also had higher overall complication a

66 ideo laparo cholecystectomies (VLCs), 2 open cholecystectomies and 4 endoscopic retrograde cholangiop

67 Registrations of all cholecystectomies and ERCPs are performed online by the

68 ons in the telehealth patients were zero for cholecystectomy and 4.8% (3) for herniorrhaphy.

69 hs for patients with chronic pancreatitis or cholecystectomy and at 4-6 months for patients who recei

70 Thereafter, the level of risk in the cholecystectomy and control cohorts gradually converged.

71 s in the probability of undergoing immediate cholecystectomy and disparities in receiving immediate c

72 le to the operative setting for laparoscopic cholecystectomy and endoscopy.

73 ting room for the procedures of laparoscopic cholecystectomy and endoscopy.

74 ed conservatively, followed by elective open cholecystectomy and excision of the fistula tract.

75 able cost of serious SSIs increased for both cholecystectomy and hernia repair as the quantile of tot

76 The association in this study, between cholecystectomy and intestinal cancer, is very unlikely

77 s of commonly performed ablative treatments (cholecystectomy and sphincterotomy) are not uniformly go

78 Primary educational level, cholecystectomy and the presence of at least another aut

79 e was 52 years; 69% were women and 95% had a cholecystectomy and/or bile duct exploration.

80 pancreatitis could be treated with empirical cholecystectomy and/or ERCP/ES in cases of previous chol

81 tment presentation on index admission (early cholecystectomy) and those whose cholecystectomy was del

82 cceptable complications associated with open cholecystectomies, and nearly 50% of the nomadic populat

83 resection, 0.085 in gastric bypass, 0.072 in cholecystectomy, and 0.060 in inguinal hernia repair.

84 in elective cholecystectomy, 11.2% in urgent cholecystectomy, and 12.0% following ERCP.

85 uld not independently perform a laparoscopic cholecystectomy, and 66% were deemed unable to operate f

86 uded previous intervention for renal stones, cholecystectomy, and cardiovascular and respiratory como

87 sis included urgent/emergent admission, open cholecystectomy, and complicated gallstone disease (each

88 ated patients with congestive heart failure, cholecystectomy, and lower percent of clopidogrel-treate

89 paring them with patients who underwent open cholecystectomy, and measured the indicators of technica

90 proficiency of each sequential laparoscopic cholecystectomy, and nontechnical skills.

91 clerosing cholangitis (PSC), age, history of cholecystectomy, and waiting time were not independent p

92 ional level (AOR 2.304, 95% CI 1.024-5.181), cholecystectomy (AOR 2.927, 95% CI 1.347-6.362) and the

93 res, including transgastric and transvaginal cholecystectomies, appendectomies, and hernia repairs, h

94 urgery (surgery for bleeding duodenal ulcer, cholecystectomy, appendectomy, and colectomy, n = 70,719

95 hat are performed open or MIS were selected: cholecystectomy, appendectomy, colectomy, antireflux, an

96 hat are performed open or MIS were selected: cholecystectomy, appendectomy, colectomy, antireflux, an

97 On average 60% of cholecystectomies are done laparoscopically in urban sur

98 o determine if screen-detected gallstones or cholecystectomy are associated with occurrence of gastro

99 Hence, gallstones and cholecystectomy are associated with the risk of cancers

100 Patients who underwent cholecystectomy as a first step had a significantly shor

101 k of inpatient mortality and morbidity after cholecystectomy as compared with the general population,

102 Laparoscopic cholecystectomy surpassed open cholecystectomy as the primary method for gallbladder re

103 ategies used by surgeons during laparoscopic cholecystectomy associated with successful orientation.

104 ely and 6 months postoperatively in elective cholecystectomies at selected units.

105 e intraoperative cholangiography use for all cholecystectomies at the hospital), and surgeons (percen

106 mergent gallstone-related hospitalization or cholecystectomy at 2 years.

107 ; of these, 6.8% had gallstones and 3.2% had cholecystectomy at baseline.

108 treatment, followed by delayed laparoscopic cholecystectomy at days 7 to 45 (group DLC).

109 ctomy and disparities in receiving immediate cholecystectomy before and after Massachusetts health re

110 sed to identify HTx recipients who underwent cholecystectomy between 1998 and 2008.

111 operation preformed-laparoscopic versus open cholecystectomy, between January, 2005, and September, 2

112 , Ninth Revision (ICD-9) codes: laparoscopic cholecystectomy, biliary tract disorders, pneumonia, and

113 For cholecystectomy, both the needlescopic cholecystectomy (

114 ospective cohort study of persons undergoing cholecystectomy, breast-conserving surgery, anterior cru

115 for AC and reduced disparities in undergoing cholecystectomy by insurance status and patient race.

116 ncidence of iGBC was 0.19% (n = 170) for all cholecystectomy cases, but 0.05% at LC, 0.60% at LC conv

117 In 38,864 cholecystectomies, CBDSs were found in 3969 patients, of

118 BACKGROUND & AIMS: Cholecystectomy (CCY) after an episode of choledocholith

119 Retrograde cholecystectomy, closure of cholecystoduodenal fistula a

120 culation of ratio of rates of cancers in the cholecystectomy cohort and the gallbladder disease cohor

121 ents with pancreatic resection, laparoscopic cholecystectomy, colectomy, and appendectomy.

122 ly analyzed patients undergoing hip surgery, cholecystectomy, colectomy, elective abdominal aortic an

123 8 common procedures examined (appendectomy, cholecystectomy, colorectal cancer resection, cesarean d

124 tients, with a higher mortality rate in open cholecystectomy compared with laparoscopic (6.2% vs. 0.9

125 mediate risk of a common duct stone, initial cholecystectomy compared with sequential common duct end

126 comes of patients who underwent laparoscopic cholecystectomy, comparing them with patients who underw

127 patients and 13 lean individuals undergoing cholecystectomy (controls), analyzed by flow cytometry,

128 By 2013, 62% of cholecystectomies countrywide were done laparoscopically

129 l cancer risk associated with gallstones and cholecystectomy decreased with increasing distance from

130 ced to a rare complication of a laparoscopic cholecystectomy due to a gallbladder empyema.

131 Cholecystectomy during index admission for mild biliary

132 d for 19926 women undergoing appendectomy or cholecystectomy during pregnancy and a scoring system fo

133 obstetrical outcomes after appendectomy and cholecystectomy during pregnancy and stratify the risk o

134 obstetrical outcomes after appendectomy and cholecystectomy during pregnancy is necessary for eviden

135 e obstetrical outcomes after appendectomy or cholecystectomy during pregnancy.

136 Of 477 patients that underwent a cholecystectomy during the study period, 355 (74.9%) wer

137 ough current guidelines recommend performing cholecystectomy early after mild biliary pancreatitis, c

138 ommon cause of acute pancreatitis, and early cholecystectomy eliminates the risk of future attacks.

139 e cholangiopancreatography with laparoscopic cholecystectomy (ERCP+LC) vs laparoscopic common bile du

140 Cholecystectomy first with intraoperative cholangiogram

141 ncreased probability of undergoing immediate cholecystectomy for AC and reduced disparities in underg

142 Randomized trials comparing early to delayed cholecystectomy for acute cholecystitis have limited con

143 e charts of patients undergoing laparoscopic cholecystectomy for acute cholecystitis in a primary car

144 age-point increased probability of immediate cholecystectomy for all GS/SP patients in MA (P = 0.049)

145 older who underwent inpatient or outpatient cholecystectomy for biliary colic or biliary dyskinesia,

146 ith a nonelective admission who undergo open cholecystectomy for complicated gallstone disease.

147 Fifty-eight patients were scheduled for cholecystectomy for gallbladder lithiasis.

148 nfection and 26 control persons subjected to cholecystectomy for gallstones as controls.

149 lts support the benefit of early overdelayed cholecystectomy for patients with acute cholecystitis.

150 urrent guidelines recommend extended/radical cholecystectomy for T2/T3 gallbladder cancer; however, m

151 on duct assessment and clearance followed by cholecystectomy for the control group.

152 secutive patients with gallstones undergoing cholecystectomy from 2007-2011 were included prospective

153 und on intraoperative cholangiography during cholecystectomy from May 1, 2005, through December 31, 2

154 tal length of stay was shorter for the early cholecystectomy group (mean: 3.5 [95% CI, 2.7-4.3], medi

155 of admission) versus a control laparoscopic cholecystectomy group (performed after resolution of abd

156 y randomized to either an early laparoscopic cholecystectomy group (within 48 hours of admission) ver

157 time intervals from the date of the original cholecystectomy: group A: less than 4 weeks (25 patients

158 Immediate cholecystectomy has been shown to be the optimal treatme

159 mited country, the expansion of laparoscopic cholecystectomy has transformed the care of biliary trac

160 The benefits of laparoscopic cholecystectomy have been largely unavailable to most pe

161 nts (HR, 2.55; 95% CI, 1.38-4.71), including cholecystectomy (HR, 2.69; 95% CI, 1.29-5.60).

162 ts who underwent nonbariatric surgery (i.e., cholecystectomy, hysterectomy).

163 icipants performed 5 sequential laparoscopic cholecystectomies in the OR.

164 t lower (P < 0.001) probability of immediate cholecystectomy in both MA control states.

165 nd predictors of in-hospital mortality after cholecystectomy in heart transplant (HTx) recipients.

166 onsideration should be given to prophylactic cholecystectomy in HTx recipients with asymptomatic and

167 There is a paucity of data on outcomes after cholecystectomy in HTx recipients.

168 his is the largest reported study to date of cholecystectomy in HTx recipients.

169 The decision regarding elective cholecystectomy in older patients with symptomatic chole

170 We need to clarify the indications for cholecystectomy in patients with Functional Gallbladder

171 rates comparable to those reported for total cholecystectomy in simple cases.

172 embolic prophylaxis in elective laparoscopic cholecystectomy in Sweden has decreased by 8.7% and 17.8

173 Both groups performed a laparoscopic cholecystectomy in the OR that was video-recorded.

174 l MRI performed two years after laparoscopic cholecystectomy, in a patient with only a mild right-sid

175 7), and 63.84% and 59.41% of operations were cholecystectomy, in the clopidogrel and nonclopidogrel g

176 ation (1 stage) or after initial noncurative cholecystectomy (incidental tumors, 2 stage), including

177 Some investigators have suggested that cholecystectomy increases the risk of intestinal cancer.

178 sidents in their final 6 months of training (cholecystectomy, inguinal/femoral hernia repair, appende

179 majority of patients undergoing laparoscopic cholecystectomy, IOUS is cost-effective relative to IOC

180 Bile duct injury during cholecystectomy is a serious complication that often req

181 Subtotal cholecystectomy is an important tool for use in difficul

182 Abdominal pain after cholecystectomy is common and may be attributed to sphin

183 considered during initial hospitalization if cholecystectomy is not done.

184 Laparoscopic cholecystectomy is one of the most commonly practiced an

185 rly defined despite the frequency with which cholecystectomy is performed.

186 Cholecystectomy is the only procedure for which MIS was

187 clinically silent CBD stones during routine cholecystectomy is unclear.

188 bile duct stones (CBDSs) encountered during cholecystectomy is yet to be determined.

189 Cholecystectomies, laparoscopic or conventional, as well

190 res (ie, varicose vein removal, laparoscopic cholecystectomy, laparoscopic appendectomy, hemorrhoidec

191 erformed 5 Virtual Reality (VR) laparoscopic cholecystectomies (LC).

192 open cholecystectomy (SIOC) and laparoscopic cholecystectomy (LC) concerning costs and health-related

193 validated virtual reality (VR) laparoscopic cholecystectomy (LC) curriculum.

194 in support of performing early laparoscopic cholecystectomy (LC) for acute cholecystitis.

195 utcomes of early versus delayed laparoscopic cholecystectomy (LC) in acute cholecystitis with more th

196 el lymph node biopsy (PM SLNB), laparoscopic cholecystectomy (LC), laparoscopic inguinal hernia repai

197 dder malignancy who underwent a laparoscopic cholecystectomy (LC; n = 80,924) or open cholecystectomy

198 mmon bile duct exploration with laparoscopic cholecystectomy (LCBDE+LC).

199 trial was to ascertain whether laparoscopic cholecystectomy (LCC) can prevent recurrent attacks of i

200 Gallstones and cholecystectomy may be related to digestive system cance

201 spital length of stay was shorter with early cholecystectomy (mean difference 1.9 days, 95% CI: 1.7-2

202 y matched with 4 other elective laparoscopic cholecystectomies (n = 8312) performed by the same surge

203 For laparoscopic cholecystectomy (n = 10 studies) and endoscopy (n = 10 s

204 used to identify all patients who underwent cholecystectomy (N = 91,260).

205 For cholecystectomy, both the needlescopic cholecystectomy (NC) 3-trocar technique using 2 to 3 mm

206 s well as reduced cost compared with delayed cholecystectomy (NCT01548339).

207 iary pancreatitis reporting on the timing of cholecystectomy, number of readmissions for recurrent bi

208 pic cholecystectomy (LC; n = 80,924) or open cholecystectomy (OC; n = 10,336) alone were included.

209 10 expert surgeons performed a laparoscopic cholecystectomy on a porcine model in the DS and on a bo

210 rge enough to assess the impact of timing of cholecystectomy on the frequency of serious rare complic

211 A total of 1687 HTx recipients underwent cholecystectomy (open n = 420; laparoscopic n = 1267) du

212 missions for recurrent biliary events before cholecystectomy, operative complications (eg, bile duct

213 ed partial colectomy, small-bowel resection, cholecystectomy, operative management of peptic ulcer di

214 le bowel syndrome (OR, 4.8; 95% CI, 1.6-14), cholecystectomy (OR, 4.2; 95% CI, 1.2-15), rectocele (OR

215 jective of this study was to compare PCT and cholecystectomy outcomes over time.

216 al with acute cholecystitis and managed with cholecystectomy over the period of April 1, 2004, to Mar

217 y, gastrostomy/jejunostomy, orchidopexy, and cholecystectomy (P < .05) but not lung resection (P = .7

218 er than sham treatment in patients with post-cholecystectomy pain and little or no objective abnormal

219 8% (63) of hernia patients and 90.5% (19) of cholecystectomy patients accepted telehealth as the sole

220 fteen open herniorrhaphy and 26 laparoscopic cholecystectomy patients had attempted telehealth follow

221 divided into three subgroups: patients after cholecystectomy, patients with cholecystolithiasis and p

222 When compared with patients undergoing cholecystectomy, PCT patients had a higher rate of cardi

223 patients who underwent elective laparoscopic cholecystectomies performed by surgeons who operated the

224 pital), and surgeons (percentage use for all cholecystectomies performed by the surgeon).

225 eristics, the odds of common duct injury for cholecystectomies performed without intraoperative chola

226 Laparoscopic cholecystectomy performed within 2 days of presentation

227 We hypothesized that laparoscopic cholecystectomy performed within 48 hours of admission f

228 In mild gallstone pancreatitis, laparoscopic cholecystectomy performed within 48 hours of admission,

229 l variable analysis, the association between cholecystectomy performed without intraoperative cholang

230 y performed procedures included laparoscopic cholecystectomy (PFS, 30.3-43.5), upper gastrointestinal

231 By 8 to 10 years after cholecystectomy, rate ratios had declined to nonsignific

232 , matched with 4 other elective laparoscopic cholecystectomy recipients (n = 8312).

233 uct (CBD) clearance followed by laparoscopic cholecystectomy] remains the standard way of management

234 injuries (BDI) sustained during laparoscopic cholecystectomy require formal surgical reconstruction,

235 In Cftr-/- mice, cholecystectomy reversed most changes in gene expression

236 ng the previous night for conversion to open cholecystectomy, risk of iatrogenic complications, or de

237 Subtotal cholecystectomy (SC) is a procedure that removes portion

238 disparities in the probability of immediate cholecystectomy seen before health care reform were no l

239 Patients who underwent cholecystectomies served as matched controls.

240 fore, we believe that immediate laparoscopic cholecystectomy should become therapy of choice for acut

241 gic examination of her gallbladder following cholecystectomy showed signs of chronic cholecystitis.

242 stones on ultrasound at 24 months, number of cholecystectomies, side-effects of UDCA and quality of l

243 We aimed to compare small-incision open cholecystectomy (SIOC) and laparoscopic cholecystectomy

244 rsus antibiotic therapy and Delayed elective Cholecystectomy") study is a randomized, prospective, op

245 king no measures when CBDSs are found during cholecystectomy suggest that the natural course might no

246 Laparoscopic cholecystectomy surpassed open cholecystectomy as the pr

247 orsened and underwent distal gastrectomy and cholecystectomy that included removing the bleeding aneu

248 : In the first year after cholecystectomy, the rate ratios for cancer of the small

249 In patients who did not undergo cholecystectomy, the risk of recurrent pancreatitis is s

250 of the transition from open to laparoscopic cholecystectomy throughout Mongolia.

251 (ranging from 18% and 5%, respectively, for cholecystectomy to 55% and 43%, respectively, for surger

252 y outcome was conversion from a laparoscopic cholecystectomy to open cholecystectomy.

253 ssociation of time interval from the initial cholecystectomy to reoperation with overall survival.

254 Time interval from the initial cholecystectomy to reoperation: group A: less than 4 wee

255 Transvaginal cholecystectomy (TVC) is the leading natural orifice tra

256 cars and the umbilical-assisted transvaginal cholecystectomy (TVC) technique have found their way int

257 In patients with abdominal pain after cholecystectomy undergoing ERCP with manometry, sphincte

258 al Surgery residents performing laparoscopic cholecystectomies using the Objective Structured Assessm

259 , oesophagectomy, colectomy, pancreatectomy, cholecystectomy, ventral hernia repair, craniotomy, hip

260 attendings) reviewed simulated laparoscopic cholecystectomy videos, determined the next safest opera

261 attendings) reviewed simulated laparoscopic cholecystectomy videos, determined the next safest opera

262 cal assessment, we performed 10 video laparo cholecystectomies (VLCs), 2 open cholecystectomies and 4

263 The mean operation time for laparoscopic cholecystectomy was 10% shorter for the patients with st

264 The prevalence of gallstones was 7.1% and of cholecystectomy was 5.3%.

265 Cholecystectomy was always initiated laparoscopically.

266 Early cholecystectomy was associated with a lower risk of majo

267 he highest elevation of risk of cancer after cholecystectomy was at the shortest time interval after

268 sion (early cholecystectomy) and those whose cholecystectomy was delayed.

269 Intraoperative cholangiography use during cholecystectomy was determined at the level of the patie

270 Cholecystectomy was performed during index admission in

271 Interval cholecystectomy was performed in 515 patients (52%) afte

272 MIS cholecystectomy was performed with low variation; MIS ap

273 MIS cholecystectomy was performed with low variation; MIS ap

274 underwent outpatient, elective laparoscopic cholecystectomy was performed.

275 wRVUs (wRVUs, 491.0-618.2), and laparoscopic cholecystectomy was regularly the next highest (wRVUs, 3

276 Subtotal cholecystectomy was typically performed using the laparo

277 Nearly 16 000 cholecystectomies were analysed and compared (4417 [28.2

278 Open cholecystectomies were associated with high rates of wou

279 In 2005, only 2% of cholecystectomies were being done laparoscopically.

280 hrough a SILS port in the vagina, whereas TV cholecystectomies were hybrid procedures with the additi

281 total, 94,183 eligible elective laparoscopic cholecystectomies were performed between 2004 and 2011.

282 Patients scheduled for cholecystectomy were assigned to undergo LC or SIOC perf

283 Gallstones and cholecystectomy were associated with increased risk of n

284 mmon duct repair operations within 1 year of cholecystectomy were considered as having major common d

285 available data on the date of their initial cholecystectomy were included.

286 atients undergoing standardized laparoscopic cholecystectomy were randomized to separated active elec

287 omy with adjuvant therapy (23.3 months) than cholecystectomy with adjuvant therapy (16.4 months), whi

288 rvival was significantly longer for extended cholecystectomy with adjuvant therapy (23.3 months) than

289 Simple cholecystectomy with adjuvant therapy appears to be supe

290 To assess if simple cholecystectomy with adjuvant therapy could provide outc

291 postcholecystectomy mortality, completion of cholecystectomy with an open approach, conversion among

292 stone extraction alone (ES), enterotomy and cholecystectomy with fistula closure (EF), bowel resecti

293 If these findings are confirmed, initial cholecystectomy with intraoperative cholangiogram may be

294 antile of total costs increased ($38,410 for cholecystectomy with serious SSI vs no SSI at the 70th p

295 Men and women underwent laparoscopic cholecystectomy with the same frequency (41.2% men, 43.2

296 8 images of various stages of a laparoscopic cholecystectomy with the task of interpreting the orient

297 did not undergo hospitalization or elective cholecystectomy within 2.5 months of the episode.

298 n this large, randomized trial, laparoscopic cholecystectomy within 24 hours of hospital admission wa

299 into 2 exposure groups: those who underwent cholecystectomy within 7 days of emergency department pr

300 trial involving 214 patients with pain after cholecystectomy without significant abnormalities on ima