ライフサイエンスコーパス: adrenalectomy

1 ic structures and organs before laparoscopic adrenalectomy.

2 -adrenoreceptor blockade with propranolol or adrenalectomy.

3 Two patients (9.1%) were converted to open adrenalectomy.

4 erm complications related to hypertension or adrenalectomy.

5 ts with MEN 2 (33%); three of them underwent adrenalectomy.

6 the risk for tumor recurrence after partial adrenalectomy.

7 and 20 patients who had undergone bilateral adrenalectomy.

8 lateral and one patient underwent unilateral adrenalectomy.

9 ll transplants survived indefinitely despite adrenalectomy.

10 5 percent) of the patients who had undergone adrenalectomy.

11 pepcan-12, as shown by its marked loss after adrenalectomy.

12 s and this is at least partially reversed by adrenalectomy.

13 ss in those patients undergoing laparoscopic adrenalectomy.

14 itioning episode also negated the effects of adrenalectomy.

15 ic adrenalectomy required conversion to open adrenalectomy.

16 onditioning might resemble those produced by adrenalectomy.

17 HEA) produced the same pattern of results as adrenalectomy.

18 ients undergoing either laparoscopic or open adrenalectomy.

19 re being employed, particularly laparoscopic adrenalectomy.

20 ival after either adrenal-sparing surgery or adrenalectomy.

21 rogenesis did not show protective effects of adrenalectomy.

22 control the adrenal vein during laparoscopic adrenalectomy.

23 s treated with or without LND during primary adrenalectomy.

24 CNS IL-1beta-induced atrophy is abrogated by adrenalectomy.

25 hypertensive medications is difficult before adrenalectomy.

26 or complete resolution of hypertension after adrenalectomy.

27 ovides equivalent oncologic outcomes to open adrenalectomy.

28 ective advantages compared with laparoscopic adrenalectomy.

29 ents were between 3 months and 10 years post-adrenalectomy.

30 s following surgery from causes unrelated to adrenalectomy.

31 th 19 patients who underwent open unilateral adrenalectomies.

32 he hormone with surgical and pharmacological adrenalectomies.

33 rming posterior retroperitoneal and subtotal adrenalectomies.

34 venous anatomy was encountered in 70 of 546 adrenalectomies (13%).

35 In both cases, short-term adrenalectomy (18 h) produced no change in cytosolic GR.

36 On the other hand, long-term adrenalectomy (3-14 days) resulted in a large increase i

37 35 consecutive patients before laparoscopic adrenalectomy, 3D volume-rendered CT scans were created

38 Adrenalectomy abolished acute stress-induced mtRNA regul

39 s that this day-specific fever is blocked by adrenalectomy accompanied by constant low corticosterone

40 s were assigned to one of four groups: SHAM, adrenalectomy, adrenalectomy + Ang II (25 ng/min, subcut

41 (IMCD) subsegments from rats that underwent adrenalectomy, adrenalectomy plus replacement with a phy

42 The effect of adrenalectomy (ADX) and corticosterone (CORT) replacemen

43 Long-term adrenalectomy (ADX) causes loss of spatial memory and of

44 in both FF and RF rats, depletion of CORT by adrenalectomy (ADX) did not significantly influence the

45 Adrenalectomy (ADX) induced 4-5 days prior to training i

46 Adrenalectomy (ADX) is known to block the acquisition of

47 rthermore, previous studies demonstrate that adrenalectomy (ADX) leads to a reduction in OT receptors

48 ol (2 g/kg) or saline to rats that underwent adrenalectomy (ADX) or received sham surgery and perform

49 ucocorticoids, male rats underwent bilateral adrenalectomy (ADX) or sham surgery, and were killed aft

50 ucocorticoids, male rats underwent bilateral adrenalectomy (ADX) or sham surgery, and were killed aft

51 Adult male Sprague Dawley rats received adrenalectomy (ADX) or sham surgery.

52 Removal of adrenal steroids by adrenalectomy (ADX) reduces food intake and body weight

53 eroids, the sensitivity of COX expression to adrenalectomy (ADX) was investigated.

54 Four days after adrenalectomy (ADX), animals were tested for inhibitory

55 chniques to determine the effects of chronic adrenalectomy (ADX), low basal (CT) and high (HCT) corti

56 er the age of a cell affects its response to adrenalectomy (ADX), the numbers of dentate gyrus cells

57 However, after adrenalectomy (ADX), which eliminates endogenous CORT, 5

58 stimulatory effect of cocaine are blocked by adrenalectomy (ADX).

59 elevated by IS in intact subjects, although adrenalectomy, ADX (with basal corticosterone replacemen

60 Removal of the adrenal glands (adrenalectomy; ADX) significantly impaired spatial memor

61 The learning curve for robotic adrenalectomy, after which conversion rates and operativ

62 Systolic BP in adrenalectomy + Ang II and adrenalectomy + ALDO (238 +/- 8 and 241 +/- 9 mmHg, resp

63 omy + Ang II (25 ng/min, subcutaneously), or adrenalectomy + ALDO (40 micro g/kg per d, subcutaneousl

64 Adrenalectomy + ALDO showed plasma aldosterone levels of

65 sodium and potassium were not different from adrenalectomy + ALDO.

66 After undergoing bilateral or unilateral adrenalectomy, all patients were cured.

67 After adrenalectomy, all the altered DFA and MSE parameters im

68 of GC receptor epidermal knockout mice with adrenalectomy allowed for the distinction between local

69 Adrenalectomy alone significantly increased UT-A1 protei

70 Because adrenalectomy also alters release of neurohormone CRF, t

71 n muscle is sufficient to induce catabolism, adrenalectomy also blocks the atrophy program in respons

72 Adrenalectomy also increased muscle glucose uptake and g

73 Eighty-eight patients underwent 97 adrenalectomies and biopsies.

74 erone producing adenoma (APA) that underwent adrenalectomy and 25 patients with essential hypertensio

75 The present study determined the effect of adrenalectomy and 5alpha-reductase type-1/type-2 enzyme

76 nd the amygdala and the effects of 7 days of adrenalectomy and corticosteroid replacement upon CART e

77 ilar effects were seen in rats that received adrenalectomy and corticosterone replacement.

78 ion of fetal plasma cortisol levels by fetal adrenalectomy and exogenous cortisol infusion, using RNa

79 ion of fetal plasma cortisol levels by fetal adrenalectomy and exogenous cortisol infusion.

80 Series of robotic adrenalectomy and limited comparisons with laparoscopic

81 characterized in rodents utilizing surgical adrenalectomy and pharmacological treatment.

82 animals exposed to fox odor after bilateral adrenalectomy and replacement with low levels of the end

83 ylase deficiency who had undergone bilateral adrenalectomy and specimens obtained at autopsy from eig

84 l intervention (adenectomy rather than total adrenalectomy) and the residual left sided adrenal tissu

85 to one of four groups: SHAM, adrenalectomy, adrenalectomy + Ang II (25 ng/min, subcutaneously), or a

86 Systolic BP in adrenalectomy + Ang II and adrenalectomy + ALDO (238 +/-

87 hile the safety and efficacy of laparoscopic adrenalectomy are relatively well documented, few studie

88 ation in males and the behavioral effects of adrenalectomy are reversed by corticosterone replacement

89 the residual hormone seen in the brain after adrenalectomy, are suggestive evidence for a local origi

90 reasingly considered in lieu of laparoscopic adrenalectomy as robotic systems further disseminate and

91 patients undergoing laparoscopic unilateral adrenalectomies at the authors' medical institutions wer

92 denoma (HR = 0.50, p = 0.005) also confirmed adrenalectomy attenuated all-cause mortality.

93 The increase in ALC could be inhibited by adrenalectomy, beta2-adrenergic blockade using ICI 118,5

94 ients underwent 546 consecutive laparoscopic adrenalectomies between April 22, 1993, and October 21,

95 ndau and neurofibromatosis type 1) underwent adrenalectomy between December 1993 and July 2001.

96 icoid receptor binding to the Sgk1 promoter; adrenalectomy blocked ethanol induction of Sgk1 mRNA; an

97 Adrenalectomy blocks rhythmic inflammatory responses and

98 We also show that adrenalectomy blocks the stress-induced increase in RFRP

99 ective advantages compared with laparoscopic adrenalectomy, but no objective superiority has been dem

100 the effect of repeated stress was blocked by adrenalectomy, but not by adrenal medullae denervation,

101 Posterior retroperitoneoscopic adrenalectomy can be aided by robotic assistance, partic

102 n benign, surgical resection by laparoscopic adrenalectomy can be curative.

103 Laparoscopic adrenalectomy can be performed safety and with the benef

104 Robot-assisted adrenalectomy can extend the capabilities of traditional

105 h Cushing's syndrome who underwent bilateral adrenalectomy comparing the posterior or anterior operat

106 Bilateral adrenalectomy completely abolished the acquisition of in

107 Prophylactic adrenalectomy completely prevented SCI-induced glucocort

108 al venous sampling who had undergone a total adrenalectomy, consecutively included from 12 referral c

109 a GR intronic sequence was also increased by adrenalectomy, consistent with increased gene transcript

110 Open adrenalectomy continues to be the most appropriate for a

111 After adrenalectomy, CTNNB1 mutation carriers had a higher pos

112 Adrenalectomy decreases long-term all-cause mortality in

113 e-period odor-shock-induced preferences; (b) adrenalectomy developmentally extends the sensitive peri

114 tic effects of DHEA-S, suggesting that, like adrenalectomy, DHEA-S exerted its effect by interfering

115 not immediately after conditioning, and like adrenalectomy, DHEA-S had no effect on auditory-cue fear

116 Adrenalectomy did not affect basal burst firing.

117 However, adrenalectomy did not affect CPP for cocaine in either s

118 Unlike the effect seen in males, adrenalectomy did not prevent the stress-induced effect

119 Adrenalectomy did not reverse restraint stress-induced i

120 Adrenalectomy did not show changes in body weight, plasm

121 However, adrenalectomy did not significantly affect ongoing cocai

122 One patient with MEN 2B underwent open adrenalectomy due to previous adrenal surgery and megaco

123 ts with familial pheochromocytoma undergoing adrenalectomy during the laparoscopic era.

124 Mice were sacrificed 2 weeks after adrenalectomy, during which time food intake and body we

125 The results suggest that adrenalectomy enhances tonic and stress-induced CRF rele

126 To assess if reversal of obese phenotype by adrenalectomy entails normalization of hypothalamic gene

127 pression of hepatic markers was prevented by adrenalectomy, establishing a direct role for glucocorti

128 opic approach is the procedure of choice for adrenalectomy except in the case of invasive carcinoma o

129 is mediated by corticosteroids we performed adrenalectomy experiments in db/db and wild-type mice.

130 Rats underwent bilateral adrenalectomies, followed only by aldosterone replacemen

131 s evaluate the effectiveness of laparoscopic adrenalectomy for a variety of endocrine disorders.

132 lifelong antihypertensive medications after adrenalectomy for aldosteronoma.

133 9 patients treated by bilateral laparoscopic adrenalectomy for Cushing's disease from 1994 to 2004.

134 orbidity in 48 patients undergoing bilateral adrenalectomy for Cushing's disease through either the a

135 hnique in most patients undergoing bilateral adrenalectomy for Cushing's syndrome without other contr

136 Several small studies have reported that an adrenalectomy for isolated adrenal metastasis in non-sma

137 Laparoscopic adrenalectomy for malignancy can be performed in appropr

138 Laparoscopic adrenalectomy for malignant adrenal masses has been cont

139 A search for publications on adrenalectomy for NSCLC was performed via the MEDLINE da

140 n was to assess the outcomes of laparoscopic adrenalectomy for pheochromocytomas in the largest study

141 eview studies on the outcome of laparoscopic adrenalectomy for primary adrenal cancer as well as stud

142 ry reports now demonstrate that laparoscopic adrenalectomy for primary adrenal malignancy can provide

143 ved using data on 100 patients who underwent adrenalectomy for primary aldosteronism at one tertiary

144 Resolution of hypertension after adrenalectomy for primary aldosteronism is independently

145 Hypertension often persists after adrenalectomy for primary aldosteronism.

146 Laparoscopic bilateral adrenalectomy for symptomatic Cushing's disease is a saf

147 Bilateral adrenalectomy for symptomatic relief of persistent hyper

148 al and biochemical outcomes and follow-up of adrenalectomy for unilateral primary aldosteronism and a

149 ensus criteria for outcomes and follow-up of adrenalectomy for unilateral primary aldosteronism.

150 with a synchronous metastasis who underwent adrenalectomy had a shorter median overall survival than

151 We excluded patients who underwent surgical adrenalectomy, had a previous cardiovascular event, were

152 Laparoscopic adrenalectomy has become the surgical procedure of choic

153 The posterior approach for bilateral adrenalectomy has been advocated over the anterior appro

154 The anterior approach to bilateral adrenalectomy has comparable intraoperative complication

155 Laparoscopic adrenalectomy has emerged as standard of care in the tre

156 To our knowledge, laparoscopic right adrenalectomy has not been previously reported after ort

157 the robot to extend traditional laparoscopic adrenalectomy have been highlighted in recent studies.

158 my and limited comparisons with laparoscopic adrenalectomy have shown that robotic adrenalectomy is w

159 Robotic techniques for adrenalectomy have subjective advantages compared with l

160 Treatment was adrenalectomy in 438 (79%) of 552 operated patients, and

161 ver, removal of systemic glucocorticoids, by adrenalectomy in animal models or adrenal insufficiency

162 f the prevalence and clinical outcomes after adrenalectomy in APA patients harboring CTNNB1 mutations

163 teronism and hyperplasia requiring bilateral adrenalectomy in childhood for blood pressure control.

164 rs review their experience with laparoscopic adrenalectomy in patients with benign adrenal neoplasms.

165 Adrenalectomy in rats is associated with urinary concent

166 Laparoscopic adrenalectomy is replacing open adrenalectomy in some medical centers as the standard su

167 d inhibit estrogen production, and bilateral adrenalectomy in the most severely affected patients.

168 support the minimally invasive approach for adrenalectomy in the setting of pheochromocytoma.

169 Removal of circulating glucocorticoids (adrenalectomy) increased GR mRNA expression in CA1 and d

170 In STZ-DM rats, neither adrenalectomy-induced (ADX-induced) glucocorticoid defic

171 Western blot analysis confirmed adrenalectomy-induced increases in hippocampal GR levels

172 Conversely, adrenalectomy inhibits partner preference formation in m

173 ectomy remains the standard of care, robotic adrenalectomy is an acceptable option in high volume rob

174 Laparoscopic adrenalectomy is considered the standard of care for ben

175 Laparoscopic adrenalectomy is fast becoming the procedure of choice f

176 Bilateral adrenalectomy is indicated on the basis of clinical and

177 Laparoscopic adrenalectomy is replacing open adrenalectomy in some me

178 Laparoscopic adrenalectomy is safe, effective, and decreases hospital

179 Laparoscopic adrenalectomy is the procedure of choice for adrenal rem

180 scopic adrenalectomy have shown that robotic adrenalectomy is well tolerated and effective with subje

181 Adrenalectomy markedly reduced the elevation of cerebral

182 Adrenalectomy of adult rats resulted in a 4-fold decline

183 However, laparoscopic adrenalectomy often is considered more difficult and mor

184 nsulin resistance, we examined the effect of adrenalectomy on A-ZIP/F-1 mice.

185 cts of conditioning length, cocaine dose and adrenalectomy on cocaine CPP in male and female rats.

186 a-THP levels but also reversed the effect of adrenalectomy on ethanol-induced loss of righting reflex

187 rom the Cox model suggest a strong effect of adrenalectomy on lowering mortality (HR = 0.23 with resi

188 The effects of vagotomy and adrenalectomy on the expression of Fos protein in brains

189 Bilateral adrenalectomy or a unilateral vagotomy resulted in a sel

190 a (ie, unilateral or bilateral operations as adrenalectomy or adrenal-sparing surgery, and as open or

191 Long-term treatment of rats with adrenalectomy or high dose corticosterone produced a lar

192 same magnitude increase in BK-induced PE as adrenalectomy or ovariectomy, suggesting that the adrena

193 We review the development of robotic adrenalectomy over the last decade, focusing on specific

194 pared with 11 (2%) of 717 glands operated by adrenalectomy (p=0.57).

195 ortant to avoid bleeding during laparoscopic adrenalectomy, particularly in patients with large tumor

196 2) adrenalectomy plus dexamethasone, and (3) adrenalectomy plus dexamethasone and spironolactone.

197 tomized rats were prepared: (1) vehicle, (2) adrenalectomy plus dexamethasone, and (3) adrenalectomy

198 and prevention of this increase (by means of adrenalectomy plus low-dose corticosterone replacement)

199 ents from rats that underwent adrenalectomy, adrenalectomy plus replacement with a physiologic dose o

200 Posterior retroperitoneoscopic adrenalectomy (PRA) is a minimally invasive approach to

201 Abolition of this cortisol surge by fetal adrenalectomy prevented both the activation of exon 1A e

202 Abolition of this cortisol surge by fetal adrenalectomy prevented the prepartum fall in muscle IGF

203 etastases to the adrenal gland, laparoscopic adrenalectomy provides equivalent oncologic outcomes to

204 Adrenalectomy reduced CART expression in the dentate gyr

205 Adrenalectomy reduced plasma corticosterone concentratio

206 In ob/ob mice, adrenalectomy reduced the levels of plasma glucose, seru

207 Although laparoscopic adrenalectomy remains the standard of care, robotic adre

208 patients undergoing unilateral laparoscopic adrenalectomy required conversion to open adrenalectomy.

209 netically obese leptin-deficient ob/ob mice, adrenalectomy reverses or attenuates the obese phenotype

210 These studies suggest that adrenalectomy reverses or attenuates the obese phenotype

211 e, Ang II, or ALDO or were sham-operated for adrenalectomy (SHAM).

212 Extracorporeal membrane oxygenation and adrenalectomy should be considered as a therapeutic in m

213 These factors suggest that laparoscopic adrenalectomy should be the preferential surgical techni

214 reover, rats exposed to the context prior to adrenalectomy showed normal long-term contextual-fear co

215 We demonstrate that adrenalectomy significantly attenuated the impaired lung

216 In wild-type mice, adrenalectomy significantly decreased AGRP mRNA but did

217 Adrenalectomy significantly decreased the blood glucose,

218 Additionally, adrenalectomy significantly reduced the extent of pulmon

219 Adrenalectomy significantly reduced the firing rate of A

220 euvers, variation during the circadian peak, adrenalectomy, social defeat and acute injections of alc

221 both adrenal specimens for the 11 bilateral adrenalectomy specimens was 28-297 g, with a mean weight

222 Unlike adrenalectomy, splenectomy and splenic neurectomy preven

223 1 patients who underwent posterior bilateral adrenalectomy suffered from chronic back pain, compared

224 asive general surgery have made laparoscopic adrenalectomy the method of choice for removing adrenal

225 enal hyperplasia who had undergone bilateral adrenalectomy, the formation of the adrenal medulla was

226 ual glucocorticoid secretion, because, after adrenalectomy, these levels do not undergo the normal in

227 sual time of death at 5 weeks; a month after adrenalectomy, they exhibited normal levels of pituitary

228 as it increases in both KO and WT mice after adrenalectomy; this increase is reversed by glucocortico

229 comes have been comparable with laparoscopic adrenalectomy though there have been no randomized contr

230 Laparoscopic adrenalectomy was attempted in the remaining 20 patients

231 CT) in surgical planning before laparoscopic adrenalectomy was evaluated in a retrospective study.

232 Since the first laparoscopic adrenalectomy was performed in 1992, this approach quick

233 97 adrenalectomies were performed, and follow-up was availa

234 Indications for adrenalectomy were functional tumors in 43 patients (20

235 Complications from adrenalectomy were infrequent.

236 Mice rendered glucocorticoid deficient by adrenalectomy were more susceptible than intact mice to

237 assistance has also enabled cortical-sparing adrenalectomy which may obviate the need for steroid hor

238 Adrenalectomy, which eliminates the glucocorticoid and e

239 Robotic adrenalectomy will be increasingly considered in lieu of

240 Older rats given adrenalectomies with physiologic replacement doses of B

241 lated phaeochromocytoma continues to rely on adrenalectomies with their associated Addisonian-like co

242 Open adrenalectomy with en-bloc excision has been the mainsta

243 chronic (21 day) restraint stress (CRS) and adrenalectomy with hormone replacement with the selectiv

244 ing activity was observed when pharmacologic adrenalectomy with mitotane was done in combination with

245 stigated showed altered expression following adrenalectomy with or without low/high-dose corticostero

246 per group) received either sham or bilateral adrenalectomy (with CORT replacement in their drinking w

247 Adrenalectomy (with or without corticosterone replacemen

248 Most patients derive clinical benefit from adrenalectomy, with younger patients and female patients