ライフサイエンスコーパス: pelvis

1 region, such as head, chest, or abdomen and pelvis).

2 ith primary or recurrent malignancies of the pelvis.

3 went magnetic resonance imaging (MRI) of the pelvis.

4 conventional and DW MR imaging of the entire pelvis.

5 lity to detect positive findings outside the pelvis.

6 ract, such as the bladder, ureter, and renal pelvis.

7 long manual claws, and a wide, opisthopubic pelvis.

8 extending from the xiphisternum down to the pelvis.

9 trast computed tomography of the abdomen and pelvis.

10 and primitively small, muscularly supported pelvis.

11 ocomotion to control a robot attached at the pelvis.

12 lla, where they release urine into the renal pelvis.

13 causing dilation of the ureter and/or renal pelvis.

14 h much of the skull, hands, feet, limbs, and pelvis.

15 0.48 (95% CI: 0.41, 0.56) (P = .004) in the pelvis.

16 is and mild metaphyseal abnormalities in the pelvis.

17 te disease extent in the chest, abdomen, and pelvis.

18 prostate volume first followed by the whole pelvis.

19 ogic examination results for the abdomen and pelvis.

20 diagnosis of hip and nonhip pathology in the pelvis.

21 ly when WOPN extends to paracolic gutters or pelvis.

22 rocholine followed by 1-h delayed PET of the pelvis.

23 -dimensional axial images of the abdomen and pelvis.

24 tropic 16-detector row CT of the abdomen and pelvis.

25 The other regulates the shape of the pelvis.

26 iagnostic acceptability at CT of abdomen and pelvis.

27 e volumetric acquisitions of the abdomen and pelvis.

28 nces performed through the lower abdomen and pelvis.

29 5, 30, or 35 cm above the level of the renal pelvis.

30 e traumatic injury to the chest, abdomen, or pelvis.

31 xtend from the spleen downward deep into the pelvis.

32 ontrast-enhanced CT of the thorax or abdomen-pelvis.

33 ficient bipedal locomotion requires a narrow pelvis.

34 mputed tomography of the chest, abdomen, and pelvis.

35 l appearance in inlet and size of the female pelvis.

36 uriac syndrome whose liver extended into his pelvis.

37 as tested using an implanted orthosis at the pelvis.

38 the small bowel, ovaries, breast, and renal pelvis.

39 t-of-phase axial rotations of the thorax and pelvis.

40 inations of the combined chest, abdomen, and pelvis.

41 th elevated uptake in the thorax and abdomen/pelvis.

42 d tomography (CT) of the chest, abdomen, and pelvis.

43 abdomen and pelvis; and chest, abdomen, and pelvis.

44 he birth-relevant dimensions of the maternal pelvis.

45 d tomography (CT) of the chest, abdomen, and pelvis.

46 leton clearance: skull, 13.3%; spine, 16.6%; pelvis, 17.2%; arms, 11.1%; legs, 23.7%.

47 re most commonly found in the abdomen (56%), pelvis (18%), and thorax (11%).

48 ve staging by computed tomography of abdomen/pelvis; (2) positron-emission tomographic scans not rout

49 (43%), back (24%), chest (22%), abdomen and pelvis (5%), extremity (3%), and unknown (4%).

50 t CT examinations of the chest, abdomen, and pelvis (500 images).

51 ges) and from 95% to 100% in the abdomen and pelvis (6181 images).

52 ttenuation was lower in the obstructed renal pelvis (7.4 HU) than in the bladder (11.4 HU) (P < .005)

53 joints were assessed on AP radiograms of the pelvis according to the modified New York criteria for a

54 Images of the chest, abdomen, and pelvis, acquired with computed tomography (CT), positron

55 d tomography (CT) of the chest, abdomen, and pelvis after intravenous administration of 120 mL of ioh

56 = 6) underwent 65-min dynamic PET/CT of the pelvis after intravenous injection of 300-410 MBq anti-(

57 Robot impedance control at the pelvis allowed hindlimb, trunk, and forelimb mechanical

58 scanning ranges: chest alone; abdomen alone; pelvis alone; chest and abdomen; abdomen and pelvis; and

59 ic resonance (MR) imaging of the abdomen and pelvis also was performed.

60 nds and in paraspinal locations from neck to pelvis and (b) high urinary levels of catecholamines in

61 5.2 mSv +/- 0.5 (standard deviation) for the pelvis and 0.6 mSv +/- 0.2 for the lower extremities.

62 sease characterized by dilation of the renal pelvis and calices, resulting in loss of kidney function

63 nt timing measurements were performed in the pelvis and calves followed by MR angiography of the calv

64 clinical applications in the female and male pelvis and can easily be added to any routine MR protoco

65 X-ray of the pelvis and computerised tomography helped in confirming

66 highest posttransplant recognition for renal pelvis and cortex specific antigens.

67 wed down their transport from the medulla to pelvis and enhanced the cellular uptake.

68 c injection of a DNA solution into the renal pelvis and found that luciferase expression was strong i

69 PD experienced a disabling discomfort in her pelvis and genital region for 3 years.

70 l uterine buds were located laterally in the pelvis and had a constant caudal relationship with their

71 strial vertebrates has been knowledge of the pelvis and hind appendage of their closest fish relative

72 ophy is a rare, complex defect of the entire pelvis and its contents that occurs during embryogenesis

73 tion, and anteroposterior radiographs of the pelvis and lateral radiographs of the lumbar spine, whic

74 In addition, CT venography of the pelvis and lower extremities is often incorporated into

75 fective radiation doses for CT venography of pelvis and lower extremities were calculated.

76 tomography scans of the chest, abdomen, and pelvis and magnetic resonance imaging scans of the brain

77 Likewise, a complete pelvis and partial pelvic fin have been recovered in ass

78 evelopment of neurogenic inflammation in the pelvis and pelvic organ cross-sensitization.

79 or penetrating trauma to the lower abdomen, pelvis and perineum.

80 than that of (18)F-choline for exploring the pelvis and prostatic bed.

81 mitive or australopith-like trunk, shoulder, pelvis and proximal femur.

82 Ultrasound examination of the abdomen, pelvis and scrotum was performed together with routine l

83 X-ray of the pelvis and spine revealed spondylarthropathic changes of

84 The T2 maps and mean T2 of 18 muscles in the pelvis and thighs were analyzed to identify the most sev

85 ans that drinking-water arsenic causes renal pelvis and ureter cancer.

86 For renal pelvis and ureter cancers, the adjusted odds ratios by a

87 ed 76 renal cell, 24 transitional cell renal pelvis and ureter, and 22 other kidney cancers.

88 ion causes abnormal development of the renal pelvis and ureter, leading to defective pyeloureteral pe

89 The contrast medium in the renal pelvis and ureters was virtually removed from excretory

90 T scans of the thorax and of the abdomen and pelvis and was also measured for maximal field of view (

91 neck (0.1 [0.01-0.6] for scalp/neck vs trunk/pelvis), and BRAF+ melanoma was associated with younger

92 induction of elevated pressure in the renal pelvis, and after the pressure was returned to normal.

93 he T7 vertebral body and left pedicle, ribs, pelvis, and calvarium.

94 severe cases dilatation of the ureter, renal pelvis, and calyces might be seen.

95 the upper urinary tract, namely the ureter, pelvis, and calyces, could be depicted with radiography.

96 ation should include a CT of the abdomen and pelvis, and chest imaging (CT preferred).

97 e resolution of MR imaging in head and neck, pelvis, and colorectal cancers and of CT in lung and med

98 needle was inserted into the opacified renal pelvis, and double-contrast pyelography was performed by

99 Low uptake in the brain, neck, chest, pelvis, and extremities will facilitate tumor localizati

100 ent clinical applications in the abdomen and pelvis, and future opportunities of dual-energy CT.

101 ographs of the cervical spine, lumbar spine, pelvis, and hips were scored by using the Bath Ankylosin

102 ver, contralateral axilla, lung, chest wall, pelvis, and the subpectoral, supraclavicular, internal m

103 omen; pelvis; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pelvis, respectively.

104 pelvis alone; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pelvis.

105 d tomography (CT) of the chest, abdomen, and pelvis; and fluorine 18 ((18)F) fluorodeoxyglucose (FDG)

106 fracture of the lower ribs, lumbar spine, or pelvis are objective predictors of missed abdominal inju

107 rding PET/CT applications in the abdomen and pelvis are reviewed, and the strengths and limitations o

108 performing DW imaging of the female and male pelvis are standardization of the DW imaging technique,

109 high-grade serous carcinomas (HGSCs) of the pelvis are thought to originate in the distal portion of

110 onal values of K(bone) for the skull, spine, pelvis, arms, and legs.

111 uted tomography (CT) of thorax, abdomen, and pelvis as part of protocol-specified follow-up policy fo

112 body CT screening of the chest, abdomen, and pelvis at an outpatient imaging center from January to J

113 single lumped reflection site (lower abdomen/pelvis) at baseline was replaced by two discrete sites (

114 maging was performed through the abdomen and pelvis before and after one and three cycles of chemothe

115 aging study, with imaging of the abdomen and pelvis being the most common.

116 (7%) had PSMA-11-positive lesions within the pelvis but not covered by the consensus CTVs.

117 provided evidence for neutral effects in the pelvis, but has been limited in regard to shape data (sm

118 ons of 32 CT examinations of the abdomen and pelvis by 10 radiologists.

119 erence values of the main planes of the true pelvis by 3D CT pelvimetry in a relatively large group o

120 Analysis of the pelvis by microCT shows decreases in bone volume fractio

121 also underwent CT of the chest, abdomen, and pelvis (C7 through L5).

122 lion pediatric CT scans of the head, abdomen/pelvis, chest, or spine performed each year are projecte

123 d 6%, for the scan ranges of chest; abdomen; pelvis; chest and abdomen; abdomen and pelvis; and chest

124 s-two to the inferior cranium and one to the pelvis-could have been fatal.

125 Measured organ doses for a chest-abdomen-pelvis CT protocol were less than 32 mGy for all organs

126 computed tomography of thorax, abdomen, and pelvis (CT TAP) to identify distant metastases.

127 o a clinical target volume consisting of the pelvis (CTV1) (45.0 Gy) followed by a boost to the prost

128 Fifteen DCE MR imaging studies of the female pelvis defined the study group.

129 d tomography scan of the chest, abdomen, and pelvis, demonstrated rectal wall thickening in the midre

130 This obstetrically capacious pelvis demonstrates that pelvic shape in H. erectus was

131 puzzling that females have not evolved wider pelvises despite the high maternal mortality and morbidi

132 Routine screening with CT of the abdomen and pelvis did not provide a clinically significant benefit.

133 , development of glomerular cysts, and renal pelvis dilation.

134 ess than 20, LR+, 3.4 (95% CI, 1.4-8.0); rib-pelvis distance less than 2 finger breadths, LR+, 3.8 (9

135 l-occiput distance greater than 0 cm and rib-pelvis distance less than 2 fingerbreadths suggest the p

136 limentary tract, retention of urine in renal pelvis, distension of bladder, and the development of en

137 CT venography of the pelvis during CT pulmonary angiography does not signific

138 In the female pelvis, DW imaging allows improvement of staging in endo

139 Resections of the bony pelvis, especially the sacrum, are becoming more common

140 ong TtD were older age and some tumor sites (pelvis, extremities of limbs).

141 d tomography (CT) of the chest, abdomen, and pelvis followed by cardiac magnetic resonance (MR) imagi

142 ced by two discrete sites (upper abdomen and pelvis) following hemorrhage, which only recovered follo

143 ent, an annual CT of the chest, abdomen, and pelvis for 10 years carries an estimated lifetime attrib

144 with magnetic resonance (MR) imaging of the pelvis for local staging and computed tomography of thor

145 uthors undertook a case-control study of 192 pelvis fracture cases (men and women) and 2,402 controls

146 pear to be associated with increased risk of pelvis fracture.

147 irtual reconstruction of a female Neandertal pelvis from Tabun, Israel.

148 te early Pleistocene adult female H. erectus pelvis from the Busidima Formation of Gona, Afar, Ethiop

149 ancer includes CT of the chest, abdomen, and pelvis; gastroscopy; and laparoscopy.

150 y-three of 605 patients were positive in the pelvis (group A), distant metastasis (group B) were dete

151 Overall, the pelvises had features of female pelvic bony structure al

152 Overall, the pelvises had transverse oval appearance in inlet and siz

153 quence of bipedalism, the shape of the human pelvis has changed, leading to a reduced gestation perio

154 ation of the head, neck, chest, abdomen, and pelvis) has become an essential element in the early eva

155 Pelvis/hip fractures declined slightly from 29.6 to 20.6

156 ility ranged from 28% (ribs/sternum) to 47% (pelvis/hip).

157 patient-year and were highest for vertebral, pelvis/hip, and femur fractures.

158 Pelvis/hip, vertebral, and lower leg fractures were the

159 ns, such as assessment of the ribs, sternum, pelvis, hips, and joints, should be guided by the streng

160 ere principally located in the tibia, femur, pelvis, humerus, and spine and, in most cases, presented

161 (1)R)-deficient mice exhibit a dilated renal pelvis (hydronephrosis) and a small papilla.

162 computed tomography scan of the abdomen and pelvis (ie, stages II to III disease), and adjuvant fluo

163 m and optimize MR imaging of the abdomen and pelvis in infants, children, and adolescents and describ

164 computed tomography (CT) of the abdomen and pelvis in patients who had a first unprovoked venous thr

165 s and point to the central role of the renal pelvis in urine transport.

166 females directly, and the true versus false pelvis, in order to examine potential obstetrical effect

167 Tc-diphosponate SPECT/CT examinations of the pelvis including the bladder were acquired.

168 nt of gynecologic disorders of the pediatric pelvis, including ambiguous genitalia, prepubertal bleed

169 This pelvis indicates that neither adaptations to tropical en

170 s (head, cervical spine, chest, abdomen, and pelvis) individually.

171 Hydrodynamic renal pelvis injection enables transposon mediated-kidney spec

172 expression quickly decreased following renal pelvis injection, the use of the piggyBac transposon sys

173 assess renal injury, we performed the renal pelvis injections on uninephrectomised mice and found th

174 Therefore, the potentially fatal pelvis injury was probably received post mortem, meaning

175 Urothelial carcinoma of the renal pelvis is a deadly disease with an unclear tumorigenic m

176 The pelvis is greatly enlarged relative to other finned tetr

177 ion of the Hip Joint Centre (HJC) within the pelvis is thus critical to ensure accurate data interpre

178 luding radiographs of the dorsolumbar spine, pelvis, knees, elbows, and wrists, and all cases were sc

179 fluid and located in the deep region of the pelvis likely is not a sign of bowel and/or mesenteric i

180 sion in the lateral mesoderm may account for pelvis loss in fugu.

181 lopmental genetic basis for the evolution of pelvis loss in the pufferfish Takifugu rubripes (fugu),

182 d initiation fail to occur in fugu, and that pelvis loss is associated with altered expression of Hox

183 Cross-sensitization in the pelvis may contribute to etiology of functional pelvic p

184 o sacroiliac joint, sacrum, and remainder of pelvis), mean lesion attenuation, subjective lesion atte

185 icate that population variation in the human pelvis might be used to address important questions conc

186 ere primary selective factors in determining pelvis morphology in H. erectus during the early Pleisto

187 foot (n = 574), proximal humerus (n = 467), pelvis (n = 150), and shaft of the tibia/fibula (n = 141

188 h ribs (n = 216), lumbar spine (n = 105), or pelvis (n = 174).

189 id in the left and right upper quadrants and pelvis (n = 4, 29%); the second most common pattern was

190 of the liver (n = 6), right extraperitoneal pelvis (n = 7), hepatoduodenal ligament (n = 3), mesente

191 linical CT images of the chest, abdomen, and pelvis obtained with a reduced-dose protocol were identi

192 serted into the vertebrae and forty into the pelvis of a steer, a safe distance apart.

193 The bony pelvis of adult humans exhibits marked sexual dimorphism

194 The femur and pelvis of Ardipithecus ramidus have characters indicativ

195 sed in nascent urothelia in ureter and renal pelvis of human embryos, and it is suggested that pertur

196 kinetics of the AuNPs in cortex, medulla and pelvis of the normal and injured kidneys, we found that

197 spite the enlargement and robusticity of the pelvis of Tiktaalik, it retains primitive features such

198 The effect of radiation therapy (RT) to the pelvis on circulating T cells was studied in prostate ca

199 ith chemotherapy without radiotherapy to the pelvis or brain, given that chemotherapy-specific effect

200 Transitional cell carcinoma of the renal pelvis or distal ureter has been extirpated with success

201 computed tomography scan of the abdomen and pelvis or magnetic resonance imaging should be performed

202 Gy in 35 to 39 fractions to the prostate and pelvis or prostate alone.

203 tients who underwent CT scans of the abdomen/pelvis or spine than for patients who underwent other ty

204 g renal cell cancer and cancers of the renal pelvis or ureter.

205 lon puncture with stool contamination of the pelvis), or shock + contamination (40% blood volume for

206 the peritoneum of the right iliac fossa and pelvis, or 20 mL 0.9% NaCl control.

207 id gland but not in the liver, spleen, renal pelvis, or salivary glands.

208 n (PSA) level after radiation therapy of the pelvis, or serial MR imaging findings of increased tumor

209 ing on a wearable robotic device (the Active Pelvis Orthosis, APO) aimed at facilitating balance reco

210 anter (P = 0.006), hip neck (P = 0.044), and pelvis (P = 0.049) after flight.

211 reated [prostate fossa (PF) only versus PF + pelvis (P)] before knowledge of the RIS findings were ch

212 ns from repeated 20-mAs scans of a pediatric pelvis phantom to the original scans obtained with a sta

213 e come to realize the critical role that the pelvis plays in the maintenance of posture.

214 rmation of a lymphoid aggregate in the renal pelvis precedes the invasion of the kidney by inflammato

215 material-enhanced computed tomography of the pelvis prior to a diagnosis of unilateral DVT.

216 which SLNs are generally located deep in the pelvis, procedures are preferably performed via a (robot

217 arcoma of the skull base, head and neck, and pelvis, promising data were obtained for other tumours,

218 A chest-abdomen-pelvis protocol was used for this study.

219 four anatomic locations); in the abdomen and pelvis, R(2) was 0.90 (n = 150, 50 patients at three ana

220 asurements can be made on an anteroposterior pelvis radiograph, which is an inexpensive and commonly

221 Pelvis radiographs obtained at year 2 were analyzed for

222 On anteroposterior pelvis radiographs, we measured "pistol grip deformity"

223 drogen deprivation in combination with whole pelvis radiotherapy confers a clinical benefit.

224 non-Hodgkin lymphoma, pancreas, kidney/renal pelvis, rectum, and melanoma.

225 Patients treated to the abdomen and pelvis region were more likely to undergo a single-event

226 One regulates the size of the pelvis relative to dimensions of the limb bones.

227 For the size of the pelvis relative to limb bones, we describe four QTLs loc

228 tient because of poor fat suppression in the pelvis, requiring manual correction.

229 abdomen and pelvis; and chest, abdomen, and pelvis, respectively.

230 most common tumor sites were vagina (n = 7), pelvis/retroperitoneum (n = 6), and bladder (n = 4).

231 gnetic resonance imaging of his prostate and pelvis revealed two suspicious intraprostatic lesions wi

232 cted to result from every 300 to 390 abdomen/pelvis scans, 330 to 480 chest scans, and 270 to 800 spi

233 igher was delivered by 14% to 25% of abdomen/pelvis scans, 6% to 14% of spine scans, and 3% to 8% of

234 ated by 2-6 wk, including brain and torso or pelvis scans.

235 CT of the abdomen and pelvis (section thickness, 5 mm) was performed after ing

236 ot take sex or age into account, even though pelvis shape is known to differ between sex, and gait an

237 t humans have evolved a complex link between pelvis shape, stature, and head circumference that was n

238 d tomography scan of the chest, abdomen, and pelvis should be performed.

239 graphy (PET) scan of the chest, abdomen, and pelvis showed hydronephrosis and hydroureter with marked

240 one scan and computed tomography scan of the pelvis showed no evidence of metastatic disease, and the

241 mputed tomography of the chest, abdomen, and pelvis showed no evidence of metastatic disease.

242 will aid in the interpretation of (18)F-FDG pelvis studies.

243 A frontal radiograph of the pelvis taken six months before showed a widening of the

244 hritis predominantly affecting the spine and pelvis that occurs in approximately 5 out of 1,000 adult

245 utaneous biopsy specimens of the abdomen and pelvis, the combination of cytologic examination and tel

246 In the male pelvis, the detection of prostate cancer in the peripher

247 In the Hoxb6Cre; Islet1 mutant pelvis, the proximal element that is formed in a Shh-ind

248 ccuracy of bolus-chase MR angiography at the pelvis-thigh level was slightly higher when it was perfo

249 giography of the calves and, subsequently, a pelvis-thigh stepping-table acquisition.

250 ctively propels tubular fluid from the renal pelvis to the bladder, and this peristalsis, which start

251 peristaltic waves, pump urine from the renal pelvis toward the urinary bladder.

252 elvic junction (UPJ) region, where the renal pelvis transitions to the ureter, is the most commonly o

253 ed cervical cancer clinically limited to the pelvis treated with concurrent cisplatin-based chemother

254 ng events, such as traumatic injuries to the pelvis, upper and lower extermities, immobilization, int

255 e for all urothelial cancers combined (renal pelvis, ureter, and bladder cancers: adjusted IRR 2.2, 9

256 lopment affecting the renal parechyma, renal pelvis, ureter, bladder and urethra; they show evidence

257 ears) with urothelial carcinoma of the renal pelvis, ureter, bladder, or urethra at 16 sites in Finla

258 elial cancer, including cancers of the renal pelvis, ureter, bladder, or urethra, from eight hospital

259 ase (OR, 1.6; 95% CI, 0.8-3.0) and for renal pelvis/ureter cancers (OR, 1.7; 95% CI, 0.5-5.4).

260 g and SPECT/CT were performed from thorax to pelvis using a double-head 16-slice SPECT/CT scanner 4 h

261 Quantitative FDG-PET of the abdomen and pelvis was acquired before treatment and after the first

262 5 MBq/kg 1-(11)C-acetate, dynamic PET of the pelvis was acquired for 20 min.

263 The location of the HJC within the pelvis was determined and regression equations to locate

264 e in the detection of VTE whether or not the pelvis was included (P = .92).

265 The whole pelvis was irradiated to 39.6 Gy.

266 inical investigation by imaging from neck to pelvis was offered to mutation-positive registrants and

267 Ultrasonography (US) of the abdomen and pelvis was performed 6 days after birth.

268 Ultrasonography (US) of the abdomen and pelvis was performed and was followed by contrast materi

269 clinic visit, and CT of thorax, abdomen, and pelvis was performed at 12 and 24 months after commencem

270 ic resonance (MR) imaging of the abdomen and pelvis was performed at 84 days of life.

271 computed tomography (CT) of the abdomen and pelvis was performed, and findings were abnormal.

272 computed tomography scan of the abdomen and pelvis was performed, revealing a 3.2 x 3 x 2.9-cm contr

273 ographic (CT) examination of the abdomen and pelvis was performed.

274 tomography (CT) of the thorax, abdomen, and pelvis was requested to depict lymphadenopathy and organ

275 tomography (CT) of the thorax, abdomen, and pelvis was requested to enable exclusion of any extramed

276 While spatial orientation of the pelvis was similar in both groups, five of the eight tru

277 The abdomen and pelvis was the most frequently performed examination in

278 ays of water, fat, and contrast media in the pelvis was used to optimize the IFS algorithm.

279 Additional SPECT/CT scans of the abdomen or pelvis were acquired if suggestive findings were noted o

280 ody CT and for CT of the chest, abdomen, and pelvis were calculated using Monte Carlo simulation stud

281 rticles related to PET/CT in the abdomen and pelvis were identified, reviewed, and summarized.

282 raphy (CT) images of the chest, abdomen, and pelvis were normal (not shown).

283 3 years; CT scans of the chest, abdomen, and pelvis were performed every 6 months for 2 years, then a

284 -body PET/CT scans including the abdomen and pelvis were performed for clinical indications by our nu

285 CT and multiparametric 3T MRI (mpMRI) of the pelvis were performed in 36 subjects with a rising prost

286 of patients with no known malignancy in the pelvis were retrospectively reviewed.

287 years), CT scans of the chest, abdomen, and pelvis were reviewed by a single radiologist.

288 graphic (CT) images of the lower abdomen and pelvis were then obtained to further evaluate the urinar

289 ing of the brain, spine, chest, abdomen, and pelvis, were reviewed for both of these groups.

290 -brained/large-bodied babies requires a wide pelvis, whereas efficient bipedal locomotion requires a

291 ncreased sensitivity in both the abdomen and pelvis while maintaining high specificity.

292 the association of malrotation of the renal pelvis with calculus increases the risk of hematuria and

293 ne-time cross-sectional imaging from head to pelvis with computed tomographic angiography or magnetic

294 staging with a CT of the chest, abdomen, and pelvis with contrast redemonstrated disease that was loc

295 t preoperative MR imaging of the abdomen and pelvis with intravenous gadolinium-based and intralumina

296 antageous biodistribution in the abdomen and pelvis with little renal excretion and bladder activity-

297 inal hernia; (2) imaging of the groin and/or pelvis with US, CT, and MRI; and (3) an operation to add

298 35:27) underwent follow-up CT of abdomen and pelvis with use of a 16-section multi-detector row scann

299 ion multi-detector row CT of the abdomen and pelvis with z-axis modulation at noise indexes of 10.5,

300 based on CT scans of the chest, abdomen, and pelvis within the previous 30 days, and with a clear col