ライフサイエンスコーパス: intrathoracic

1 patients had positive (18)F-FDG PET results (intrathoracic (18)F-FDG uptake), including 4 patients wi

2 ormance, cardiac pathology, and extracardiac intrathoracic abnormalities.

3 pe is safe and effective in the diagnosis of intrathoracic adenopathy in HIV-infected patients, and i

4 onship between gene expression in extra- and intrathoracic airway epithelial cells and extend the con

5 were continuously monitored, and WL from the intrathoracic airways was calculated from published rela

6 Outcomes following intrathoracic anastomoses (n = 621) were analyzed by era

7 Clinical decisions regarding the use of intrathoracic anastomoses should not be affected by conc

8 udy was to evaluate the impact of performing intrathoracic anastomosis and/or thoracotomy on POM afte

9 Nowadays, intrathoracic anastomosis provides a lower 30-day POM ra

10 ontinues to be partial esophagectomy with an intrathoracic anastomosis, which was associated with low

11 wis resection, which provides a tension-free intrathoracic anastomosis.

12 Complication rates for intrathoracic and abdominal/pelvic solid organ biopsies

13 Radiotherapy of intrathoracic and chest wall tumors may lead to exposure

14 ghly aggressive and metastasized to multiple intrathoracic and extrathoracic sites in a pattern simil

15 In MCS, intracranial, intrathoracic and intra-abdominal compartment pressures

16 clude ICP control as well as minimization of intrathoracic and intra-abdominal pressure as clinically

17 Because intrathoracic and intraabdominal organs are usually reco

18 the kidneys are usually recovered after the intrathoracic and intraabdominal organs, careful palpati

19 tricular interdependence and dissociation of intrathoracic and intracardiac pressures for the diagnos

20 ix steady-state impedance signals, utilizing intrathoracic and intracardiac vectors, were measured th

21 However, intrathoracic and pericardial fat are associated with va

22 Intrathoracic and pericardial fat volumes were examined

23 Both intrathoracic and pericardial fat were associated with h

24 Intrathoracic and pericardial fat were directly correlat

25 The MRI scans revealed the intrathoracic and subcutan masses as mainly hypointense

26 y was to present a case report of a combined intrathoracic and subcutaneous splenosis in a patient 19

27 Together they determine the intraabdominal, intrathoracic, and subglottic pressure, control of which

28 en-chest dogs underwent surgery in which the intrathoracic aorta was bypassed with a stiff plastic tu

29 Results A total of 110 intrathoracic biopsies were performed, and 101 (91.8%) w

30 t, body surface area, body mass index, Pao2, intrathoracic blood volume, cardiac output, or dosage of

31 between extrathorcic (buccal and nasal) and intrathoracic (bronchial) epithelium in healthy current

32 Location of intrathoracic catheters was obscured on 44 radiographs.

33 s a long-term side effect of radiotherapy of intrathoracic, chest wall and breast tumors when radiati

34 al bulky mediastinal mass 33% or more of the intrathoracic diameter, and/or "B" symptoms and all stag

35 hildren, particularly in young children with intrathoracic disease as this represents the most common

36 sites of disease and 49 with more extensive intrathoracic disease at CT.

37 Intrathoracic disease recurred within the radiation fiel

38 y invasive surgical techniques primarily for intrathoracic disease.

39 ylactic cranial irradiation, have persistent intrathoracic disease.

40 9 and March 2011, patients with a resectable intrathoracic esophageal carcinoma, including the gastro

41 ruction was done by gastric pull-up and high intrathoracic esophagogastrostomy.

42 ment of epicardial adipose tissue (EATv) and intrathoracic fat (ITFv) volumes.

43 , pericardial fat (r=0.19 to 0.37, P<0.001), intrathoracic fat (r=0.17 to 0.31, P<0.001), visceral ad

44 , pericardial fat (r=0.20 to 0.35, P<0.001), intrathoracic fat (r=0.25 to 0.37, P<0.001), visceral ad

45 fined by pericardial, visceral, hepatic, and intrathoracic fat); and (3) muscle attenuation that expl

46 Pericardial fat, intrathoracic fat, and visceral adipose tissue quantifie

47 nce interval 1.005 to 1.46, P=0.04), whereas intrathoracic fat, but not pericardial fat, was associat

48 tomography study underwent quantification of intrathoracic fat, pericardial fat, visceral abdominal f

49 Pericardial fat, but not intrathoracic fat, was associated with coronary artery c

50 l/familial disease, pre-existing lung cysts, intrathoracic findings, and treatments (surgery or surge

51 hage (16%), delayed intervention for ongoing intrathoracic hemorrhage (9%), inadequate DVT or gastroi

52 n/dehiscence, 3%, atelectasis/pneumonia, 2%, intrathoracic hemorrhage, recurrent laryngeal nerve para

53 otic leak (13%), atelectasis/pneumonia (2%), intrathoracic hemorrhage, recurrent laryngeal nerve para

54 obtained during a follow-up of 10 h using an intrathoracic high-resolution coil.

55 tability of pulmonary C-fibres is induced by intrathoracic hyperthermia, and this enhanced sensitivit

56 breast, 1 cervical, 1 bladder), and 3 had an intrathoracic imaging abnormality.

57 Direct measurements of intrathoracic impedance using an implanted device can be

58 ding pulmonary and left atrial pressures, or intrathoracic impedance, which is related to pulmonary c

59 Intrathoracic impedance-derived OptiVol fluid index calc

60 Intrathoracic injection of function-blocking antibodies

61 After intrathoracic injection, ONNV-eGFP slowly spread to othe

62 ection rates are not affected by sfRNA after intrathoracic injection, thereby identifying sfRNA as a

63 rison of infection via the blood meal versus intrathoracic injection, which bypasses the midgut, reve

64 ation was pneumothorax (at 32 [28.6%] of 112 intrathoracic injections), for which only one patient re

65 mutF showed restricted replication following intrathoracic inoculation in the mosquito Toxorhynchites

66 After intrathoracic inoculation into mosquitoes, both viruses

67 Intrathoracic inoculation of VLPs into mosquitoes demons

68 /ml) in mosquitoes 4 days after infection by intrathoracic inoculation.

69 to cells and in Culex quinquefasciatus after intrathoracic inoculation.

70 ve pulmonary disease, and to dissociation of intrathoracic-intracardiac pressure changes in constrict

71 High intrathoracic (Ivor Lewis) and cervical esophagogastrost

72 m scans in AIDS patients for differentiating intrathoracic kaposi sarcoma from malignant lymphoma and

73 An intrathoracic leak following esophagectomy has historica

74 antly different for patients with or without intrathoracic leaks (3.3% versus 2.5%, P = 0.55), nor is

75 Assess outcomes following intrathoracic leaks after esophagectomy from 1970 to 200

76 Modern surgical management of intrathoracic leaks results in no increased mortality an

77 Eleven NSCLC patients, with at least 1 intrathoracic lesion 3 cm or greater, underwent double b

78 Location of an intrathoracic lesion on chest radiograph is facilitated

79 o underwent CT-guided transsternal biopsy of intrathoracic lesions were evaluated retrospectively.

80 e FEV1 decreased as WL rose, but the largest intrathoracic losses were associated with the smallest o

81 ed in 24 patients with histologically proved intrathoracic LPD and with positive serologic findings o

82 th size of the primary tumor, cell type, and intrathoracic lymph node stage.

83 Extraparenchymal perflubron was seen in intrathoracic lymph nodes (n = 4), supraclavicular nodes

84 Transbronchial needle aspiration (TBNA) of intrathoracic lymph nodes has been shown to be useful in

85 e-positive with no metastases found in other intrathoracic lymph nodes without concurrent SN involvem

86 ronchial ultrasonography) with aspiration of intrathoracic lymph nodes.

87 CD11c(+hi)/MHC class II(+hi) cell numbers in intrathoracic lymph nodes.

88 tiology that predominantly affects lungs and intrathoracic lymph nodes; in rare cases (approx. 10%),

89 om cutaneous infections, such as cervical or intrathoracic lymphadenitis in children, to disseminated

90 pacity (32%), mass-like consolidation (20%), intrathoracic lymphadenopathy (16%), pleural effusion (1

91 f myelomeningocele (MMC, n=51), resection of intrathoracic masses (ITM, n=15), tracheal occlusion for

92 s demonstrated, with the majority exhibiting intrathoracic migration of the wrap with or without disr

93 t masses were infradiaphragmatic (n = 11) or intrathoracic (n = 1).

94 Patients had either cervical (n = 548) or intrathoracic (n = 2738) anastomosis.

95 extremity (n = 7), lower extremity (n = 4), intrathoracic (n = 3), sternal (n = 34), breast (n = 3),

96 All of 9 adults followed had an intrathoracic neoplasm, seven biopsied within 7 months (

97 ary to various acquired diseases, especially intrathoracic neoplasm.

98 rine tumors of the pancreas/duodenum and the intrathoracic neuroendocrine tumors that occur in MEN 1

99 Endosonography with intrathoracic nodal aspiration appears to be a promising

100 response to initial therapy, CNS metastases, intrathoracic nodal status, and EGFR and ALK status.

101 the Mlh1-/-;Nf1+/- mice were found to harbor intrathoracic NOS2-immunoreactive myeloid leukemias simi

102 portant additional findings (n=35) about the intrathoracic or intraabdominal organs.

103 ]), vascular (OR, 1.6 [CI, 1.1 to 2.4]), and intrathoracic (OR, 9.2 [CI, 6.7 to 13]) procedures.

104 t diagnosis, the tumor is usually limited to intrathoracic organs.

105 ast cancer; cancers of the lung, pharynx, or intrathoracic organs; other cancer; respiratory disease;

106 d in cats with electrical stimulation of the intrathoracic phrenic nerve and C(5) root of the phrenic

107 h stimulation of myelinated afferents of the intrathoracic phrenic nerve in the contralateral post-cr

108 ied pneumothorax (86% correct) and increased intrathoracic positive end-expiratory pressure (93% corr

109 12, 20, and 30 breaths per minute, the mean intrathoracic pressure (mm Hg/min) and coronary perfusio

110 on-decompression CPR with augmented negative intrathoracic pressure (via an impedance-threshold devic

111 to exercise requires substantial changes in intrathoracic pressure and in the work output and metabo

112 al of patients of cardiac arrest by lowering intrathoracic pressure and increasing cardiac output.

113 on rates resulted in significantly increased intrathoracic pressure and markedly decreased coronary p

114 a-induced increase in CFV; however, negative intrathoracic pressure and the small amount of oxyhaemog

115 ely, by mechanical effects of respiration on intrathoracic pressure and/or cardiac filling; (3) BP va

116 It may relate to increased intrathoracic pressure associated with retching and vomi

117 ves were compared between data obtained with intrathoracic pressure at atmospheric and with a phasic

118 on, hypoxia, hypoventilation, and changes in intrathoracic pressure can lead to severe hemodynamic in

119 Intrathoracic pressure changes are of particular importa

120 tions, with closed-chest and phasic negative intrathoracic pressure changes similar to those associat

121 onary arterial baroreceptors were altered by intrathoracic pressure changes similar to those encounte

122 acic pressure was at atmospheric, the phasic intrathoracic pressure decreased the pulmonary arterial

123 This new device enhances negative intrathoracic pressure during chest wall recoil or the d

124 d neck tissues as the generation of negative intrathoracic pressure during inspiration increases veno

125 Increased negative intrathoracic pressure during spontaneous inspiration th

126 Generation of negative intrathoracic pressure during the decompression phase of

127 pulmonary resuscitation (CPR) with decreased intrathoracic pressure in the decompression phase can le

128 downward flow of venous blood due to reduced intrathoracic pressure is counterbalanced by an upward m

129 Elevated intrathoracic pressure may be similarly associated with

130 An increase in intrathoracic pressure played a deleterious role in Font

131 ic pressure at atmospheric and with a phasic intrathoracic pressure ranging from atmospheric to aroun

132 A novel device, the intrathoracic pressure regulator (ITPR), combines an ins

133 r with active compression-decompression plus intrathoracic pressure regulator compared with active co

134 w with active compression-decompression plus intrathoracic pressure regulator plus epinephrine were s

135 r, and active compression-decompression plus intrathoracic pressure regulator plus epinephrine.

136 t with active compression-decompression plus intrathoracic pressure regulator significantly improved

137 evice, active compression-decompression plus intrathoracic pressure regulator, and active compression

138 t with active compression-decompression plus intrathoracic pressure regulator.

139 t with active compression-decompression plus intrathoracic pressure regulator; and group C-3 minutes

140 n very severe COPD, the impressive swings in intrathoracic pressure resulting from deranged ventilato

141 ompression CPR with augmentation of negative intrathoracic pressure should be considered as an altern

142 g expiration to take advantage of changes in intrathoracic pressure that assist in postural maintenan

143 disease (COPD) may contribute to changes in intrathoracic pressure that increase LV wall stress.

144 ic vascular resistance and abrupt changes in intrathoracic pressure that occur with resistive exercis

145 Because obstructive events generate negative intrathoracic pressure that reduces left ventricular (LV

146 t the ITD would result in a greater negative intrathoracic pressure to enhance cardiac venous return,

147 Compared to the values obtained when intrathoracic pressure was at atmospheric, the phasic in

148 Furthermore, qualitative changes in intrathoracic pressure were without influence on the res

149 se findings suggest that increasing negative intrathoracic pressure with ITD breathing improves heart

150 tory variation is due to increased change in intrathoracic pressure with respiration in chronic obstr

151 s/min combined with augmentation of negative intrathoracic pressure would lower intracranial pressure

152 ttern in the superior vena cava (affected by intrathoracic pressure) would be different in these two

153 is, hypothermia, hypervolemia, and increased intrathoracic pressure).

154 ransfusion, mechanical ventilation with high intrathoracic pressure, and acidosis, among others.

155 in end-expiratory lung volume and increased intrathoracic pressure, eventually exacerbated by expira

156 These results have shown that a phasic intrathoracic pressure, which simulates respiratory osci

157 airflow and helps maintain higher levels of intrathoracic pressure.

158 y are influenced by physiological changes in intrathoracic pressure.

159 intraabdominal pressure leading to increased intrathoracic pressure.

160 usion also occurs in the absence of negative intrathoracic pressure.

161 n (CPR) by increasing the degree of negative intrathoracic pressure.

162 this effect by augmenting pleural and other intrathoracic pressures and causing a functional obstruc

163 wall compliance both increase the change in intrathoracic pressures and the value of the dynamic ind

164 negative inspiratory and positive expiratory intrathoracic pressures cancel each other out, so averag

165 Application of phasic negative intrathoracic pressures further reduced the threshold an

166 d and resealed, and (c) with phasic negative intrathoracic pressures in the resealed chest.

167 olume (4, 6, 8, and 10 mL/kg), the change in intrathoracic pressures increased linearly with 0.9 +/-

168 as exchange was achieved at lower airway and intrathoracic pressures than those that developed during

169 Piglets' hemodynamic and intrathoracic pressures were continuously monitored duri

170 iratory muscle function to generate elevated intrathoracic pressures.

171 magnitude of respiratory phasic variation of intrathoracic pressures.

172 Seventeen (55%) of 31 episodes involved intrathoracic PTLD manifesting as multiple pulmonary nod

173 Intrathoracic PTLD occurred more commonly in lung transp

174 Intrathoracic PTLD tended to manifest early.

175 ents were excluded if it was determined that intrathoracic recurrence had an impact on lung function.

176 and etoposide does not decrease the risk of intrathoracic recurrence or prolong survival in patients

177 Intrathoracic splenosis is a rare condition resulting fr

178 e in 93% of patients and involved contiguous intrathoracic structures and/or distant sites, including

179 ies, aorta, pulmonary arteries, and adjacent intrathoracic structures for the patient with acute ches

180 Among patients who had intrathoracic surgery, those receiving digoxin were at l

181 ed and artificially ventilated rats when the intrathoracic temperature (T(it)) was maintained at thre

182 re elicited by mechanical stimulation of the intrathoracic trachea.

183 re elicited by mechanical stimulation of the intrathoracic trachea.

184 infant trials; (2) symptomatic, complicated intrathoracic tuberculosis as an uncommon but clinically

185 should enhance harmonized classification for intrathoracic tuberculosis disease in children across st

186 dized clinical research case definitions for intrathoracic tuberculosis in children to enable harmoni

187 ses in research focusing on the diagnosis of intrathoracic tuberculosis in children.

188 ted children aged </=13 years with suspected intrathoracic tuberculosis were enrolled in 8 hospitals

189 Children with newly diagnosed intrathoracic tuberculosis were enrolled, and they recei

190 icipants agreed that radiologic diagnosis of intrathoracic tuberculosis would be based primarily on h

191 Among patients with pulmonary or intrathoracic tuberculosis, 9% of HIV-seropositive and 1

192 ptomatic children with clinical suspicion of intrathoracic tuberculosis, and were not intended to pre

193 on symptomatic children suspected of having intrathoracic tuberculosis.

194 clearance of lesions on CXR in children with intrathoracic tuberculosis.

195 ent may improve height gain in children with intrathoracic tuberculosis.

196 diagnostics among children, with a focus on intrathoracic tuberculosis.

197 lude mechanisms of injury, potentially fatal intrathoracic vascular injuries, anesthetic management,

198 ers for recording arterial pressure (AP) and intrathoracic vena caval pressure (VP).

199 of a systemic hypercoagulable state over an intrathoracic venous compression mechanism.

200 Intrathoracic (vs cervical) anastomosis and a thoracotom

201 30-day POM between patients having received intrathoracic (vs cervical) anastomosis and between thos