ライフサイエンスコーパス: thorax

1 than blood and other tissues of the head and thorax).

2 chest compliance (by elastic binding of the thorax).

3 send projections into the central neuropil (thorax).

4 ypomagnesaemia, and one pain in the chest or thorax.

5 y the sensorimotor system of the abdomen and thorax.

6 sion from the proximal limb bud out onto the thorax.

7 ned with low nonspecific accumulation in the thorax.

8 h double segment periodicity in the head and thorax.

9 ative to the adipocyte-free vertebrae of the thorax.

10 gion extending from the anterior neck to the thorax.

11 who interpret cross-sectional images of the thorax.

12 producing a "crab-like" configuration of the thorax.

13 ract, and 1 each from the peritoneum and the thorax.

14 d (DIBH) technique in combined PET/CT of the thorax.

15 elongate, and migrate from the wing into the thorax.

16 domen and pole cells instead of the head and thorax.

17 ed by specialized muscles located within the thorax.

18 ir breath at midexpiration during HCT of the thorax.

19 al compression and expansion in the head and thorax.

20 ion and improving quantitation of PET in the thorax.

21 nts (44%); no cases of lymphoma involved the thorax.

22 t of this system, the air sacs of the dorsal thorax.

23 including CT scout images (topograms) of the thorax.

24 mensional routine radiographic images of the thorax.

25 collapse of the head and abdomen toward the thorax.

26 images of inhomogeneous regions such as the thorax.

27 orm attenuation characteristics of the human thorax.

28 omewhat lower level induction in abdomen and thorax.

29 3, which was induced approximately 5-fold in thorax.

30 nt to which the phantom represents the human thorax.

31 raphic projection resembling that of a human thorax.

32 treated with 14 or 16 Gy (60Co) to the whole thorax.

33 ganglion in its projection caudally from the thorax.

34 ntegumental structures of the adult head and thorax.

35 cting findings were present elsewhere in the thorax.

36 ult fibers in the appropriate regions of the thorax.

37 ng the wide transmittance differences in the thorax.

38 ct images of conductivity changes inside the thorax.

39 laced subcutaneously in the left side of the thorax.

40 mean and SD were less than 5% except in the thorax.

41 ngage each wing from the mechanically linked thorax.

42 y information about antennal movement to the thorax.

43 with intact interlobar fissures on CT of the thorax.

44 between tactile sensors on the head and the thorax.

45 ulate wind resistance against their legs and thorax.

46 as autotransplantation of splenic tissue in thorax.

47 ing queens that hunt have a more worker-like thorax.

48 culation into two sites--the abdomen and the thorax.

49 f chemotherapy and close surveillance of the thorax.

50 ulation coupled with aseptic wounding of the thorax.

51 ound in the abdomen (56%), pelvis (18%), and thorax (11%).

52 heart plus central vasculature (17 +/- 2%), thorax (14 +/- 2%), inferior vena cava (23 +/- 2%) and l

53 Operator equivalent dose at the thorax (77 muSv) was significantly higher with radial th

54 SA(di)) to the axially projected area of the thorax (A(thor)) theoretically determines the strength o

55 for local staging and computed tomography of thorax, abdomen, and pelvis (CT TAP) to identify distant

56 ntigen (CEA) and computed tomography (CT) of thorax, abdomen, and pelvis as part of protocol-specifie

57 was measured at each clinic visit, and CT of thorax, abdomen, and pelvis was performed at 12 and 24 m

58 blished, and computed tomography (CT) of the thorax, abdomen, and pelvis was requested to depict lymp

59 ial-enhanced computed tomography (CT) of the thorax, abdomen, and pelvis was requested to enable excl

60 330 consecutive patient studies of the neck, thorax, abdomen, and pelvis.

61 erity by Abbreviated Injury Scale (for head, thorax, abdomen, extremities), and occurrence of prehosp

62 disease, noncardiac surgeries involving the thorax, abdomen, vasculature, and head and neck are asso

63 The thorax above the membrane was perfused with degassed wat

64 r regions of expression were in the head and thorax across all castes, and the abdomen in male and fe

65 sions underwent 45-min dynamic PET/CT of the thorax after intravenous administration of 366.3 +/- 14.

66 realistic phantom (lesions plus breasts plus thorax, all containing activity) was used, as compared t

67 Thermoregulation of the thorax allows endothermic insects to achieve power outpu

68 From CT of the thorax and (18)F-FDG PET (neck to pelvis) performed befo

69 Soft tissues in the thorax and abdomen (alveolar lungs and liver) suggest th

70 ed by fluorescent AV-750 accumulation in the thorax and abdomen (in vivo), in isolated organs (ex viv

71 performed with EUS-FNA, with CT scan of the thorax and abdomen and FDG-PET, to detect metastatic dis

72 rwent computed tomography examination of the thorax and abdomen and tissue Doppler echocardiography w

73 to whole-body (18)F-FDG PET/CT or CT of the thorax and abdomen as the imaging modality.

74 CT of the thorax and abdomen demonstrated changes in the liver, sp

75 RNA of AlucJHEH gene was detectable in head, thorax and abdomen from all life stages.

76 le most tetrapods expand this pattern in the thorax and abdomen into four.

77 ential positioning of Cho organs between the thorax and abdomen is known to be regulated by Hox genes

78 fferential positioning of Cho organs between thorax and abdomen may be determined by Hox gene-mediate

79 re evident in the Apyr-R strain in both head+thorax and abdomen tissues than in the ACY strain.

80 hough expression patterns of CYP4G19 in head+thorax and abdomen tissues were similar (i.e. lower in h

81 Computer tomography (CT) scan of the thorax and abdomen to detect metastatic disease, and end

82 In 33%, aneurysms in other arteries in the thorax and abdomen were diagnosed, and in 48%, arterial

83 Fifteen whole-body (spanning thorax and abdomen) PET/CT image pairs acquired separate

84 lorectal liver metastases underwent body CT (thorax and abdomen) with a 64-section multidetector unit

85 ean, Ubx/AbdA proteins are expressed in both thorax and abdomen, including the limb primordia, but do

86 ttern, restricted to the non-mammal tetrapod thorax and abdomen, is observed in the mammalian perineu

87 hich are essential for the patterning of the thorax and abdomen, respectively [8, 9].

88 n during development, or between adult head, thorax and abdomen, suggesting that the F-subunit is a r

89 e upper airway. as well as from those of the thorax and abdomen, suggests that one function of vestib

90 yer ventrolateral muscular patterning of the thorax and abdomen.

91 rlapping striped patterns in the presumptive thorax and abdomen.

92 corded from respiratory muscle nerves of the thorax and abdomen.

93 suppress growth of some dorsal flaps in the thorax and abdomen.

94 isocontour VOIs with elevated uptake in the thorax and abdomen/pelvis.

95 left differentiation of the embryonic heart, thorax and aorta.

96 nt lacking most of the large bristles on the thorax and by several EMS-induced recessive lethals.

97 and bacterial load are due to injury of the thorax and can be recapitulated by abdominal inoculation

98 Optimized 3D volumes of the fetal thorax and cardiac chambers were rapidly acquired and la

99 elia with broad and bowed long bones, narrow thorax and craniofacial abnormalities.

100 th a dramatic homeotic transformation in the thorax and first abdominal segment as well as a deletion

101 Vg was expressed in thorax and head fat body cells in an age-dependent manne

102 ariety of tissues, including the adult head, thorax and legs.

103 neration-regeneration were observed in head, thorax and limb muscles.

104 dy axis-a region corresponding to the entire thorax and most of the abdomen of insects-and that they

105 f each image within 50 adult CT scans of the thorax and of the abdomen and pelvis and was also measur

106 rdinated out-of-phase axial rotations of the thorax and pelvis.

107 from a combination of the dorsal part of the thorax and the body wall.

108 5 patients with tumor manifestations in the thorax and upper abdomen were acquired on a simultaneous

109 sis constitute dose-limiting side effects of thorax and whole body irradiation.

110 d individuals displayed abnormalities of the thorax and/or long bones, as well as renal, hepatic, or

111 n into a region with locomotory appendages ("thorax") and a region with reduced appendages ("abdomen"

112 element, the hinge, which attaches it to the thorax, and a distal one, the wing blade.

113 on admission was collected, as well as head, thorax, and abdomen AIS, and timing of prophylaxis (with

114 sed arrangement of hairs on the legs, wings, thorax, and abdomen of adult Drosophila.

115 and female alates), tissues (antennae, head, thorax, and abdomen), and developmental stages (egg, lar

116 6-(18)F-fluorodopamine scanning of the head, thorax, and abdomen, with or without treatment with desi

117 ding false-positive PET imaging in the neck, thorax, and abdomen.

118 nitor the circadian clock in explanted head, thorax, and abdominal tissues.

119 twice as many SOPs in the abdomen as in the thorax, and do so at the expense of an abdomen-specific

120 rotein levels of ALAT1 or ALAT2 in fat body, thorax, and Malpighian tubules compared with dsRNA firef

121 tail, monofilaments around the head and the thorax, and more complex featherlike structures around t

122 r fluid volume (ECFV), and ECFV of the neck, thorax, and right leg before and after sleep.

123 eased bristle number occurs in the head, the thorax, and the anterior and posterior abdomen.

124 wings evolved as an extension of the dorsal thorax, and the gill-exite hypothesis, which proposes th

125 inations include portions of the lungs, bony thorax, and upper abdomen.

126 development and at the same level in heads, thoraxes, and abdomens.

127 otype, in which most head structures and the thorax are deleted, as are the three most posterior abdo

128 t germ' embryogenesis, wherein only head and thorax are patterned in a syncytial environment while th

129 mably increase power and flexibility of head-thorax articulation, emphasizing that workers are not si

130 on of alternating current applied across the thorax as a function of blood volume in the heart and gr

131 ction of a new pupal cuticle on the head and thorax as well as on the abdomen.

132 CUP metastases in the thorax associated with a relative's cancers in the upper

133 gnant pulmonary nodules underwent PET of the thorax at 2 time points: scan 1 at 70 min (range, 56-110

134 tude alternating current of 5 mA through the thorax at a frequency of 35 kHz.

135 n of depth the heart and the skeleton of the thorax at the same time.

136 s high-resolution computed tomography of the thorax, BAL cell patterns and other characteristics freq

137 g pads that were medially articulated to the thorax but also broadly contiguous with the notum anteri

138 re in CT images was first extracted from the thorax by marking manually the regions of interest on th

139 d with sagittal and coronal diameters of the thorax by using the Student t test, Fisher exact test, a

140 sion of the trunk gap genes so that head and thorax can properly form.

141 that a single dose of 15 Gy of x-rays to the thorax causes severe pneumonitis in rats by 6-8 wk.

142 Smn reduce dSMN protein levels in the adult thorax, causing flightlessness and acute muscular atroph

143 e fusion, embryonic dorsal closure and pupal thorax closure in Drosophila are useful experimental mod

144 icroscopy of the breathing lung under sealed thorax conditions was combined with multispectral oximet

145 lung apices or subpleural alveoli under open thorax conditions.

146 blade and surrounding regions of the dorsal thorax cuticle, providing tissue for subsequent modifica

147 In the thorax, D(W)versus D(eff) had an R(2) of 0.51 (n = 200,

148 xcluded from the anterior to permit head and thorax development [1,2].

149 sion of unlocalized nos mRNA suppresses head/thorax development, emphasizing the importance of spatia

150 whereas mis-specified cells in the head and thorax die, presumably because equivalent survival signa

151 ncreased the temperature of the butterflies' thorax dramatically, showing that the V-shaped basking p

152 lesions plus breasts containing activity; no thorax), due to the effects of increased scatter and att

153 pel is expressed in a gap-like domain in the thorax during the blastoderm and germband stages of embr

154 eloped to enhance the return of blood to the thorax during the chest decompression phase.

155 e was designed to create a vacuum within the thorax during the decompression phase of cardiopulmonary

156 mesochrysopids exhibit a uniquely prolonged thorax, elongate legs, and dramatically reduced hind win

157 uccessfully estimates blast tolerance of the thorax, fails to capture the brain mechanical response t

158 Two woman underwent a CT examination of the thorax for different thoracic pathologies.

159 In the thorax, Grh prolongs neural proliferation by maintaining

160 had radiotherapy to the head, neck, or upper thorax have an increased risk of subsequent primary thyr

161 cation of helical computed tomography of the thorax (HCTT) for the diagnosis of blunt aortic injury (

162 specification of body wall identities in the thorax; however, contrasting with results from other spe

163 of senseless loss-of-function clones in the thorax implicates Senseless not in the primary SO precur

164 entrations, and they accumulate fat in their thorax in a manner analogous to mammalian obesity.

165 s from the campaniform fields project to the thorax in a region-specific manner.

166 dge, a structure that separates the head and thorax in all insects.

167 cant role in the development of the head and thorax in Drosophila melanogaster.

168 , results of computed tomography (CT) of the thorax in each case were highly suggestive of septic pul

169 ly onset, and manifests predominantly in the thorax in lung transplant and heart-lung transplant reci

170 nal-tactile information from the head to the thorax in the cricket Gryllus bimaculatus.

171 cadavers and the propericardial space of the thorax in two cadavers.

172 erior (A-A) position (left and right lateral thorax) in nine dogs.

173 phology of joints connecting the legs to the thorax, in bristle patterns, and in the positioning of s

174 ces in the contributions of each disc to the thorax, in the morphology of joints connecting the legs

175 p to total occlusion of central veins of the thorax including superior vena cava (SVC), brachiocephal

176 Enhancer of split mutations in the wing and thorax indicate that Suppressor of Hairless and Notch re

177 Thorax inoculation results in increased bacterial prolif

178 mal mortality and lower bacterial loads than thorax inoculation.

179 ranscriptional regulators that subdivide the thorax into expression domains (prepattern) required for

180 73(-/-) mice received a single dose of whole thorax irradiation (WTI, 15 Gy).

181 L/6 mice to a single dose (15 Gray) of whole thorax irradiation triggered a progressive increase in C

182 CT of the thorax is clinically useful in selected situation in pat

183 the boundary between the embryonic head and thorax is formed by the dorsal ridge, a fused structure

184 which reflects the atrial orientation in the thorax, is altered by the relationship between atria and

185 rosophila notum, the dorsal body wall of the thorax, is subdivided genetically into longitudinal doma

186 the cardiopulmonary system, mediastinum, and thorax it will help to guide therapeutic decisions.

187 gions of nonuniform attenuation, such as the thorax, it is possible that foci of increased tracer upt

188 n is expanding the applications of CT of the thorax, its role as a diagnostic tool still needs to be

189 to direct proper development of the head and thorax, leading to embryonic lethality.

190 ive effects of seminal receptacle length and thorax length in both experiments.

191 Neither thorax length nor wing size and its cellular components

192 etic correlation between ovariole number and thorax length was positive, but the strength of this cor

193 ovariole number, and body size, measured as thorax length, are developmentally plastic traits with r

194 Thorax length, testis mass, sperm length, egg-to-adult d

195 nd cause lethality following high-dose whole-thorax lung irradiation (WTLI).

196 urs after exposure to a single dose of whole thorax lung irradiation sufficient to cause minor to maj

197 ed within each sample at 180 days post whole-thorax lung irradiation.

198 e oesophagectomy with two-field (abdomen and thorax) lymphadenectomy was done within 4-6 weeks of com

199 in the development of sensory organs in the thorax, mainly in the positioning of specific proneural

200 We analyzed thorax morphology of queens and workers in species from

201 omography (PET)/computed tomography (CT) and thorax MR examinations.

202 y (n = 130), sacrococcygeal region (n = 98), thorax (n = 23), and other (n = 47).

203 al FOV D(W) increased from 54% to 90% in the thorax (n = 3602 images) and from 95% to 100% in the abd

204 g the anteroposterior axis of the Drosophila thorax (notum).

205 ing Pathways in Evaluation of Cancers of the Thorax) NSCLC data set.

206 by age, were implanted subcutaneously in the thorax of 18 nude (nu/nu) mice.

207 wide gene expression changes in the head and thorax of adult Indy mutant with control flies over the

208 The distribution of sensory bristles on the thorax of Diptera (true flies) provides a useful model f

209 , two-dimensional pattern of bristles on the thorax of Drosophila has been intensively investigated a

210 The polarity of sensory bristles on the thorax of Drosophila is linked to the orientation of the

211 otal, 75 muscles have been identified in the thorax of Epiophlebia.

212 en DFDBA was implanted subcutaneously in the thorax of nude mice, there was no histologic evidence of

213 The spiders attacked the lateral side of the thorax of termites and immobilised them within 1 min.

214 oid (Bcd) morphogen establishes the head and thorax of the Drosophila embryo.

215 ogen responsible for patterning the head and thorax of the Drosophila embryo.

216 of Bicoid protein that patterns the head and thorax of the embryo.

217 nt secreted from the "building organ" on the thorax of the worm.

218 Thorax operator dose did not differ for right radial (84

219 of fungus-infected fluid collections in the thorax or abdomen treated by using percutaneous catheter

220 ing and possibly contrast-enhanced CT of the thorax or abdomen-pelvis.

221 brain scans and 5 subjects had scans of the thorax or abdomen.

222 g childhood who received radiotherapy to the thorax or head and neck region.

223 s in other body part representations such as thorax or leg muscles.

224 mine DLM identity, to locate the DLMs in the thorax, or to specify the total DLM fiber volume.

225 eggs, embryos, larvae, pupae, adult head and thorax, ovary, testis, and S2 tissue culture cells, as w

226 FV of the right leg (P = 0.044), ECFV of the thorax (P = 0.001), and ECFV of the neck (P = 0.003).

227 of abnormalities of the central veins in the thorax, particularly with regard to selection of venous

228 of a resolution phantom, an anthropomorphic thorax phantom and a human subject.

229 The long scan images of the thorax phantom and human subject demonstrated the high r

230 For the thorax phantom and human subject, short (2-min) and long

231 f a uniform tracer distribution in a cardiac-thorax phantom configured to simulate a large patient.

232 were acquired using both an anthropomorphic thorax phantom containing a cardiac insert and a human v

233 A nonuniform heart-thorax phantom was filled with 111 MBq of (82)Rb injecte

234 A thorax phantom was imaged with spheres of 3 sizes simula

235 different experiments: in a realistic heart-thorax phantom, in a uniformity-resolution phantom, and

236 polarized fashion such that bristles on the thorax point posteriorly.

237 ed that 13 or more operators, each wearing a thorax (primary endpoint), wrist, and head (secondary en

238 fractures and a compression deformity of the thorax, probably acquired while encased in the glacier,

239 ue-equivalent anthropomorphic phantom of the thorax (Radiology Support Devices, Inc., Long Beach, CA)

240 unt of scatter and tissue attenuation in the thorax region depends on source distribution and body at

241 ) and cell death in the presumptive head and thorax regions.

242 tumors combined with a low background in the thorax resulted in a statistically higher tumor to backg

243 ronchoscopy in an anesthetized adult sheep's thorax: section thickness (2, 4, 8 mm), pitch (1.0, 1.5,

244 ssed against the uveal region of the TM, the thorax securely inserted within the TM, and the head loc

245 eal that ants invest in the relative size of thorax segments according to their tasks.

246 e structural dimensions of the diaphragm and thorax show substantial variability, some of which is sy

247 We found that fractionated radiation to the thorax significantly reduced circulating T and B cells a

248 T) of an image of the considered transversal thorax slice.

249 In the thorax, spalt and spalt-related are expressed in a restr

250 However, in the thorax specific larval muscle fibers do not histolyze at

251 Moreover, we identified three thorax-specific neuroblasts not previously characterized

252 Data regarding the thorax, spine, face, limbs, hands, and feet were compare

253 In all patients, the thorax station was examined with free-breathing radial V

254 In the thorax, sternocostal connections were arranged asymmetri

255 y the projection of anatomic features in the thorax, such as ribs and pulmonary vessels, can greatly

256 -specified cells in the presumptive head and thorax survive and continue to develop, but they are tra

257 es, which cause cyclical deformations of the thorax that are amplified through the intricate wing hin

258 tify specific mechanical linkages within the thorax that passively mediate both wing-wing and wing-ha

259 In the larval thorax, the majority of imaginal myoblasts are associate

260 any of five different regions of the head or thorax; they are curved, straight, branched or bladed; a

261 rs and thorax tissue of workers, followed by thorax tissue of female alates and abdomen tissue of mal

262 tissue of both female alates and workers and thorax tissue of workers, followed by thorax tissue of f

263 men tissues were similar (i.e. lower in head+thorax tissues and higher in abdomen tissues) in both th

264 CYP4G19 mRNA were readily detectable in head+thorax tissues and increased ( approximately 5-fold) in

265 of CYP4G19 mRNA were relatively low in head+thorax tissues and were about 7-fold increase in the abd

266 ntises first rotated their abdomen about the thorax to adjust the center of mass and thus regulate sp

267 ody imaging and SPECT/CT were performed from thorax to pelvis using a double-head 16-slice SPECT/CT s

268 l and Smith in 2003, as the inability of the thorax to support normal respiration and growth.

269 a broad dorsal vessel extending through the thorax to the brain where anastomosing branches overlap

270 We estimate that the loom of a kite's thorax towards a locust at these speeds should be charac

271 In the thorax, Ubx is necessary for gill development and for re

272 on and scatter properties of the adult human thorax was employed to assess eight imaging systems in a

273 res and most normal anatomic features in the thorax was statistically significantly improved with sel

274 viding attenuation equal to that of an adult thorax was used.

275 respiratory distress syndrome, scans of the thorax were obtained in nine patients between June 1994

276 nt dedicated computed tomography (CT) of the thorax were prospectively recruited into the study.

277 om 14 subjects with malignant lesions in the thorax were registered.

278 e patients with renal cell metastases in the thorax were studied using [15O]water and dynamic PET.

279 rnum bone lies at the ventral midline of the thorax where it provides a critical attachment for the p

280 proper development of the head and anterior thorax, which is the counterpart of the ANTC in Drosophi

281 similar result is obtained for patients with thorax widths of <40 cm.

282 of tumor quantification in PET images of the thorax with ACT.

283 stic whole-body phantom consisting of brain, thorax with lungs and liver, and pelvis with bladder was

284 computed tomographic (CT) angiography of the thorax with retrospective electrocardiographic gating.

285 We used a rat model of whole thorax x-ray irradiation to profile the microRNA (miRNA)