ライフサイエンスコーパス: presurgical

1 tal mortality, and most of this mortality is presurgical.

2 Importantly, we found that higher presurgical 5-HT2A receptor binding predicted greater we

3 Independent variables examined included 68 presurgical and 12 intraoperative clinical risk factors;

4 Independent variables included 68 presurgical and 12 intraoperative risk factors; dependen

5 s before and after the procedure, as well as presurgical and postsurgical appearance of the blebs, us

6 Presurgical and postsurgical neuropsychological assessme

7 optimal timing of treatments in neoadjuvant (presurgical) and adjuvant (postsurgical) settings to max

8 C, using active rewarming in 92% and 1-hour presurgical antibiotic administration in 91%.

9 Presurgical anxiety and surgical pain perceptions were m

10 Presurgical anxiety scores were higher for implant surge

11 urgery or how pain perception is affected by presurgical anxiety.

12 pain perception is affected by the level of presurgical anxiety.

13 A presurgical approach to evaluate cellular responses to n

14 dicate the scope for further improvements in presurgical assessment and surgical treatment of people

15 al video mosaicing (HRCM-RV) offers accurate presurgical assessment of LM and LMM margins.

16 Brain imaging has a crucial role in the presurgical assessment of patients with epilepsy.

17 Accurate presurgical assessment of the risk of perioperative comp

18 Accurate presurgical assessment of the risk of perioperative comp

19 ial progress has been made in the methods of presurgical assessment, particularly in patients with no

20 CAL improved for all sites from a presurgical average of 8.8+/-2.3 mm to 4.4+/-1.6 mm at 6

21 Elevated presurgical blood urea nitrogen level, impaired sensoriu

22 ery was 39.5 (10.5) years, and the mean (SD) presurgical body mass index was 45.3 (7.4).

23 Presurgical brain PET scans of 75 TLE patients were exam

24 cfDNA SNP/copy number results also separated presurgical breast cancer patients from the healthy cont

25 Compared with controls (n = 9), all presurgical candidates (n = 20) had significantly greate

26 f these patients who may not need to undergo presurgical catheterization.

27 factors influencing the response of LABC to presurgical chemotherapy are incompletely understood.

28 factors influencing the response of LABC to presurgical chemotherapy are incompletely understood.

29 Presurgical chemotherapy has been advocated for these pa

30 The advantages of presurgical chemotherapy include early administration of

31 he procedure for patients who have undergone presurgical chemotherapy or previous excisional biopsy.

32 lvage (55% for immediate surgery and 50% for presurgical chemotherapy).

33 e was no advantage in EFS for patients given presurgical chemotherapy.

34 re assigned randomly to immediate surgery or presurgical chemotherapy.

35 8% for immediate surgery and 61% +/- 8% for presurgical chemotherapy; P =.8).

36 Eighty patients with presurgical clinical stage T1, T2, or T3 prostate cancer

37 ipilimumab-treated tumors from patients in a presurgical clinical trial.

38 the other hand, are becoming very useful for presurgical cognitive mapping and may be able to replace

39 severity, as well as the relationship among presurgical cognitive performance, diffusion tensor imag

40 oses to postsurgical delirium independent of presurgical cognitive status.

41 enced early satiety and major improvement in presurgical comorbidities, including diabetes (86% in re

42 In addition, presurgical compulsivity, anxiety, emotional dysregulati

43 ar did not cover the full range of patients' presurgical conditions, intraoperative factors, and post

44 ths for AD and CT, respectively, compared to presurgical conditions: root coverage of 1.7 +/- 1.2 (65

45 Presurgical conventional tomograms of 23 single-implant

46 ient to disrupt postsurgical expression of a presurgical CTA; nor were such lesions sufficient to dis

47 We determined how noninvasive presurgical data relate to prognosis after temporal lobe

48 enging, and optimal results require accurate presurgical diagnosis, staging, and risk stratification.

49 sion tomography is a useful technique in the presurgical differentiation between benign and malignant

50 Presurgical diffusion tensor imaging abnormalities of th

51 We investigated the association between presurgical diffusion tensor imaging parameters of brain

52 Presurgical diffusion tensor imaging scans of 136 older

53 We conducted a phase I trial to define the presurgical dose required for depletion of tumor AGT act

54 We investigated the association between presurgical entorhinal cortex volume and postoperative o

55 CEEG), an invasive, costly procedure used in presurgical epilepsy evaluation.

56 e is sampled when patients undergo ICEEG for presurgical epilepsy evaluations.

57 rode recordings from the temporal lobe of 13 presurgical epilepsy patients performing a self-paced sp

58 al electroencephalogram (iEEG) data from ten presurgical epilepsy patients to identify stimulus-speci

59 In magnetoencephalography recordings from presurgical epilepsy patients, we examined: (i) global f

60 ned with pharmacological strategies, such as presurgical erythropoietin therapy or red cell substitut

61 phagitis healed in 28 of 30 patients who had presurgical esophagitis and returned for follow-up endos

62 repeated upper endoscopy in 30 patients with presurgical esophagitis; and postsurgical physiologic st

63 f PCE is important for the interpretation of presurgical evaluation and better surgical strategy.

64 30 patients undergoing presurgical evaluation and proceeding to temporal lobe (

65 Based on a standardized presurgical evaluation and review at a multidisciplinary

66 imodality imaging is to allow more effective presurgical evaluation and the selection of patients wit

67 ippocampal sclerosis underwent comprehensive presurgical evaluation at the Department of Epileptology

68 This may aid clinicians in presurgical evaluation by providing a tool to explore va

69 After a thorough presurgical evaluation by the restorative dentist, a tem

70 may facilitate an expeditious, comprehensive presurgical evaluation for cases of suspected CNS lympho

71 rom the auditory cortex of humans undergoing presurgical evaluation for epilepsy allow the recording

72 rently, there is no consensus regarding what presurgical evaluation is warranted or how to proceed wh

73 cally implanted depth electrodes, during the presurgical evaluation of drug-refractory epilepsy.

74 cally implanted depth electrodes, during the presurgical evaluation of drug-refractory partial epilep

75 We studied 19 patients referred for presurgical evaluation of drug-resistant epilepsy.

76 ent implanted with stereo-EEG electrodes for presurgical evaluation of drug-resistant epilepsy.

77 ocalization of the epileptogenic zone in the presurgical evaluation of drug-resistant TLE, providing

78 ndications for conducting a Wada test in the presurgical evaluation of epilepsy surgery candidates in

79 /fMRI can provide helpful information in the presurgical evaluation of epilepsy.

80 lness of radionuclide imaging techniques for presurgical evaluation of epileptic pediatric patients,

81 unction, our results provide guidance in the presurgical evaluation of epileptogenicity based on elec

82 age, sites specific to language function for presurgical evaluation of focal epilepsy.

83 l and accurate data must be acquired for the presurgical evaluation of patients with congenital heart

84 EA) Fab' labeled with technetium-99m, in the presurgical evaluation of patients with recurrent or met

85 yield of conventional MRI visual analysis in presurgical evaluation of PFE.

86 ngiography-computed tomography urography for presurgical evaluation of renal vascular and parenchymal

87 efore, give complementary information in the presurgical evaluation of temporal lobe epilepsy and lon

88 PET is useful in the presurgical evaluation of temporal lobe epilepsy.

89 nce tomography has shown some success in the presurgical evaluation of tumor margins in vivo, before

90 resection (AMTR) was based on a standardized presurgical evaluation protocol.

91 Presurgical evaluation revealed generalized melanosis of

92 review provides a description of diagnosis, presurgical evaluation, and advances in understanding ti

93 y admitted to a video-EEG Telemetry Unit for presurgical evaluation, and used a multivariate logistic

94 asts clinical and research trends related to presurgical evaluation, fitting protocols, signal proces

95 -resistant epilepsy warrants a comprehensive presurgical evaluation, including SEEG investigations in

96 outcome and need consideration when planning presurgical evaluation.

97 with EEG and clinical data, enabling further presurgical evaluation.

98 using films made within a year before their presurgical evaluation.

99 gnosis of the underlying abnormality and for presurgical evaluation.

100 sting-state functional MR imaging as part of presurgical evaluation.

101 ptogenic and should be carefully assessed in presurgical evaluations.

102 rgical outcome and the inadequacy of current presurgical evaluative methods.

103 ernal and external breast landmarks to guide presurgical excision needle localization, the biopsy sit

104 A 6-week presurgical exercise program can safely improve preopera

105 onal normalized ratio < 1.4; P = 0.027), and presurgical expansion of the future liver remnant volume

106 Four presurgical factors predicted a high risk of 30-day mort

107 onger duration of T2DM (P = 0.006), a higher presurgical glycated hemoglobin level (P = 0.019), insul

108 01) after LCSD, and among 29 patients with a presurgical ICD, the rate of shocks dropped by 93% from

109 e there are no evidence-based guidelines for presurgical identification of the epileptogenic zone.

110 ection of dysplasia and to contribute to the presurgical imaging evaluation of this pathology.

111 Presurgical imaging predicts unresectability based on lo

112 One program used a presurgical information packet, four programs offered an

113 SCOM and (18)F-FDG PET provide complementary presurgical information that matched video-EEG results a

114 tional data primarily in patients undergoing presurgical investigations to imaging network connectivi

115 scarce for the indication and effect of most presurgical investigations, with no biomarker precisely

116 Presurgical language assessment can help minimize damage

117 Two methods for presurgical language mapping are functional MRI (fMRI) a

118 Flaps were sutured at or close to the presurgical level.

119 nd times in this group remain unchanged from presurgical levels.

120 , and promoting defect fill when compared to presurgical levels.

121 w four-dimensional CT to be used as the sole presurgical localization method.

122 PET has been used for the presurgical localization of epileptic foci for more than

123 specific situations, such as in noninvasive presurgical localization of epileptogenic brain regions

124 ted tomography can provide valuable data for presurgical localization of epileptogenic zones.

125 nsional CT has sufficiently high accuracy in presurgical localization to allow confident performance

126 magnetic resonance imaging has been used for presurgical mapping of visual cortex in patients with br

127 epileptogenesis and epileptogenicity and for presurgical mapping.

128 s reduced by 0.51 to 0.61 mm compared to the presurgical measurement, with these mean differences bei

129 The mean presurgical measurements for defects randomized to the C

130 Radiographs and soft tissue presurgical measurements were repeated at 6, 9, and 12 m

131 Short-term presurgical metformin was associated with a reduction in

132 in a subpopulation of patients submitted to presurgical monitoring with intracerebral electrodes.

133 rgery, as some may experience a remission of presurgical mood and anxiety disorders after surgery, pa

134 7.74) and birth 10 to 90 minutes with higher presurgical mortality (odds ratio, 4.45; 95% confidence

135 Presurgical MR images of 75 patients with GBM with genet

136 included all patients who were referred for presurgical multiphasic CT of the pancreas between Decem

137 cancer have found improved responses in the presurgical neoadjuvant setting but no benefits in the p

138 nance spectroscopic imaging (1H-MRSI) in the presurgical neuroimaging lateralization of patients with

139 DS; intravenous hydrocortisone equivalent to presurgical oral dosing, followed by taper).

140 Increases in presurgical PAL-H were associated with monotonic decreas

141 coordinates necessary information about the presurgical patient.

142 Multivariate regression analysis showed that presurgical PD significantly influenced post-surgical PD

143 ion were found to have no effect relative to presurgical performance.

144 pertinent aspects of metabolic asymmetry in presurgical PET scans for forecasting postsurgical seizu

145 MR identification of FCD aided presurgical planning and intraoperative management of th

146 potential of TSPO imaging in GBM, including presurgical planning and radiotherapy.

147 techniques offer the opportunity of improved presurgical planning and selection of cases more likely

148 Recent changes have occurred in the presurgical planning for breast cancer, including the in

149 ation of brain tumor margins both during the presurgical planning phase and during surgical resection

150 should improve MRI-guided clinical staging, presurgical planning, and intraoperative fluorescence-gu

151 s continues to be recommended as helpful for presurgical planning.

152 casement, and hepatic tumor localization for presurgical planning.

153 age patterns, posing challenges for accurate presurgical planning.

154 pact of glaucoma therapies on IOP as well as presurgical planning.

155 despread use of herbal medications among the presurgical population may have a negative impact on per

156 Random forest models of presurgical predictors indicated rCBVNER as the top pred

157 After patients completed presurgical preparation, the infrabony lesions were surg

158 ontaining antiseptic solutions were used for presurgical preparation.

159 herapy with PBSC rescue and radiation to the presurgical primary tumor volume.

160 Both presurgical (primary tumor) growth and postsurgical (met

161 ral and periodontal examination as part of a presurgical protocol prior to cardiac surgery.

162 In addition, the variable changes of presurgical psychiatric comorbidities following epilepsy

163 Exclusion criteria included presurgical radiation, grossly positive lymph nodes, or

164 The presurgical ridge angle had a significant negative corre

165 Cross-sectional presurgical ridge angles may have prognostic value in es

166 his study included prospective assessment of presurgical risk factors, process of care during surgery

167 Reliable, valid information on patient presurgical risk factors, process of care during surgery

168 nically significant portal hypertension (for presurgical risk stratification).

169 Presurgical scans were compared with scans of healthy vo

170 In addition, comprehensive presurgical screening can aid the treatment team in iden

171 ramatic lifestyle changes, and comprehensive presurgical screening conducted by a multidisciplinary t

172 A presurgical T-staging system allows presurgical selection for therapy, predicts partial hepa

173 a damage in adolescent monkeys did not alter presurgical social dominance status.

174 y patients with focal epilepsy who underwent presurgical stereo-EEG (SEEG) were included in the study

175 ssigned to a two-session (plus two boosters) presurgical stress management intervention (SM), a two-s

176 d the short-term and long-term efficacy of a presurgical stress management intervention at reducing m

177 findings demonstrate the efficacy of a brief presurgical stress management intervention in improving

178 Short-term presurgical studies in the neoadjuvant setting allow mon

179 ight patients with focal epilepsy undergoing presurgical surface and intracranial electroencephalogra

180 Presurgical systemic therapy with targeted molecular age

181 A presurgical T-staging system allows presurgical selectio

182 rature on feasibility, safety and outcome of presurgical targeted molecular therapies (TMTs) before n

183 ective, randomized trials to test the use of presurgical therapy as a method to select appropriate pa

184 Presurgical TMTs have been proven to be effective and we

185 present study was to evaluate the effect of presurgical tooth mobility on periodontal regenerative o

186 , intraosseous defects of teeth with limited presurgical tooth mobility; i.e., teeth with Miller's Cl

187 Patients without presurgical treatment served as controls (n = 18).

188 Presurgical treatment with bevacizumab therapy yields cl

189 Presurgical treatment with the alpha-adrenergic antagoni

190 ats with regenerated CTs did not differ from presurgical values.

191 Further research focused on presurgical variables that predict outcome-especially th

192 Method 3 enabled good presurgical visualization of the SLN (73%) and speeded s

193 ly) or no drug (control) during the 1-4 week presurgical window between cancer diagnosis and hysterec

194 In the presurgical workup of magnetic resonance imaging (MRI)-n