ライフサイエンスコーパス: abdomen

1 linical condition which can present as acute abdomen.

2 with pain and discharging sinus in the upper abdomen.

3 splasia, pulmonary hypoplasia and protruding abdomen.

4 phadenopathy around the major vessels of the abdomen.

5 he chest, and 12 mGy (IQR, 8-17 mGy) for the abdomen.

6 forations presenting with non-specific acute abdomen.

7 ad and 25% those for adults in the chest and abdomen.

8 omputed tomography (MDCT) examination of the abdomen.

9 shift in concert within the confines of the abdomen.

10 rance, and substantial pain in her chest and abdomen.

11 ho chemical shift-encoded acquisition of the abdomen.

12 ere identified on the face, neck, chest, and abdomen.

13 ined in any patient presenting with an acute abdomen.

14 enhanced dual-energy multidetector CT of the abdomen.

15 o be located within the middle ear or in the abdomen.

16 n, and kidney on computed tomography scan of abdomen.

17 rowth of some dorsal flaps in the thorax and abdomen.

18 on was remarkable for a palpable mass in the abdomen.

19 ltiple spleens in the normal location in the abdomen.

20 I for assessment of the spinal canal and the abdomen.

21 d multifocal cystic lesions on the chest and abdomen.

22 ology involving multiple compartments of the abdomen.

23 r, and extends into the anterior part of the abdomen.

24 rwent a single cycle of cryolipolysis to his abdomen.

25 cular relaxation, or the presence of an open abdomen.

26 l closure in casualties managed with an open abdomen.

27 stomach and paucity of gases in rest of the abdomen.

28 who underwent routine CT examinations of the abdomen.

29 y an anterior image over the gallbladder and abdomen.

30 nderwent equilibrium MR imaging of the upper abdomen.

31 magnetic resonance (MR) imaging of the upper abdomen.

32 n was placed and the kidney was dropped into abdomen.

33 tion and incision followed by closure of the abdomen.

34 nd abdominal-A mediate leg repression in the abdomen.

35 as achieved thorough a water column over the abdomen.

36 li and to air puffs directed at the head and abdomen.

37 vealed suspicious findings in the left upper abdomen.

38 m mass occupying the entire left part of the abdomen.

39 posterior rectus sheath to enable closure of abdomen.

40 enteric tissues, and solid organs within the abdomen.

41 omputed tomographic imaging of the chest and abdomen.

42 ateral muscular patterning of the thorax and abdomen.

43 dual-energy computed tomography (CT) of the abdomen.

44 n was for sensitivity and specificity in the abdomen.

45 of the ingested blood before it reaches the abdomen.

46 , voiding cysto-urethrography and MRI of the abdomen.

47 there was evidence of audible bruit over the abdomen.

48 sixth intersegmental sternal glands of their abdomens.

49 lation with waist to hip ratio (Spearman's r abdomen -0.986, p<0.0001; femoral -0.928, p=0.008).

50 12-29 mSv), and 11 mSv (IQR, 6-18 mSv); and abdomen, 10 mSv (IQR, 6-16 mSv), 22 mSv (IQR, 15-32 mSv)

51 10.7 +/- 2.5 [mean +/- standard deviation]; abdomen, 11.8 +/- 3.4) had substantially less objective

52 se than did FBP images (chest, 13.3 +/- 3.8; abdomen, 13.8 +/- 5.2) (P = .001, P =.006, respectively)

53 Computed tomography (CT) abdomen (23%) and chest (16%) accounted for the most com

54 ources of infection were the lungs (44%) and abdomen (38%).

55 8.4%), arms/legs (18.2% v 10.2%), and chest/abdomen (38.1% v 9.1%), as well as hair loss (14.0% v 6.

56 patients with metastatic disease outside the abdomen, 4 patients had less than 35% of their disease b

57 , and 550 mGy .cm (IQR 320-830 mGy .cm); and abdomen, 580 mGy .cm (IQR, 360-860 mGy .cm), 1220 mGy .c

58 ranges of chest; abdomen; pelvis; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pel

59 lone; abdomen alone; pelvis alone; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pel

60 venile wingless mantises first rotated their abdomen about the thorax to adjust the center of mass an

61 unted for the most common exposures, with CT abdomen accounting for 46% of overall cohort RE.

62 ues of various anatomic regions of the upper abdomen, ADC values of the gallbladder, pancreas, spleen

63 of ECF, EAF, or IAS in patients with an open abdomen after damage control laparotomy.

64 was collected, as well as head, thorax, and abdomen AIS, and timing of prophylaxis (within 48 hours,

65 x hypothetical scanning ranges: chest alone; abdomen alone; pelvis alone; chest and abdomen; abdomen

66 CECT of the abdomen also showed a small peripheral splenic infarct,

67 Magnetic resonance (MR) imaging of the abdomen also was performed to further evaluate a focal a

68 Soft tissues in the thorax and abdomen (alveolar lungs and liver) suggest the presence

69 s 0.50 (95% CI: 0.43, 0.58) (P = .01) in the abdomen and 0.65 (95% CI: 0.57, 0.72) versus 0.48 (95% C

70 a communication between a cystic mass in the abdomen and a right scrotal hydrocele - an abdominoscrot

71 shock represses multiple immune genes in the abdomen and additionally showed that wounding the cuticl

72 ed the greatest amount of recurrences in the abdomen and among pT1Nx-0 patients.

73 PET/CT had the advantage of allowing chest, abdomen and bone to be examined in a single session.

74 s to pediatric patients during CT for chest, abdomen and brain.

75 ive dose was, 2.05, 1.8, 1.08 mSv for brain, abdomen and chest respectively.

76 Gy.cm, 79.93 mGy.cm, 66.63 mGy.cm for brain, abdomen and chest respectively.

77 fy hepatosplenic infiltration, MRI/CT of the abdomen and different ultrasound techniques (PD US, US D

78 ptive behaviors to mechanical probing of the abdomen and electrical stimulation of the pancreas.

79 As seen on open abdomen and excised tumors views and confirmed by optica

80 formats that are compatible with the body's abdomen and extremities, as well as the deep brain, sugg

81 Tactile cues delivered to the abdomen and genitalia play the larger role in females, a

82 r of the Drosophila oocyte defines where the abdomen and germ cells form in the embryo.

83 l lymph node and drained atypically into the abdomen and into dermal lymphocele-like vesicles on the

84 measurement of mechanical sensitivity of the abdomen and nocifensive behavior to electrical stimulati

85 n = 3602 images) and from 95% to 100% in the abdomen and pelvis (6181 images).

86 Magnetic resonance (MR) imaging of the abdomen and pelvis also was performed.

87 n 50 adult CT scans of the thorax and of the abdomen and pelvis and was also measured for maximal fie

88 mographic imaging study, with imaging of the abdomen and pelvis being the most common.

89 to evaluations of 32 CT examinations of the abdomen and pelvis by 10 radiologists.

90 Routine screening with CT of the abdomen and pelvis did not provide a clinically signific

91 omprehensive computed tomography (CT) of the abdomen and pelvis in patients who had a first unprovoke

92 A multiphase computed tomography scan of the abdomen and pelvis or magnetic resonance imaging should

93 Patients treated to the abdomen and pelvis region were more likely to undergo a

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

95 Ultrasonography (US) of the abdomen and pelvis was performed and was followed by con

96 many) magnetic resonance (MR) imaging of the abdomen and pelvis was performed at 84 days of life.

97 ial-enhanced computed tomography (CT) of the abdomen and pelvis was performed, and findings were abno

98 A subsequent computed tomography scan of the abdomen and pelvis was performed, revealing a 3.2 x 3 x

99 The abdomen and pelvis was the most frequently performed exa

100 omputed tomographic (CT) images of the lower abdomen and pelvis were then obtained to further evaluat

101 nificantly increased sensitivity in both the abdomen and pelvis while maintaining high specificity.

102 ndicated advantageous biodistribution in the abdomen and pelvis with little renal excretion and bladd

103 ned anatomic region, such as head, chest, or abdomen and pelvis).

104 inical evaluation should include a CT of the abdomen and pelvis, and chest imaging (CT preferred).

105 ples of current clinical applications in the abdomen and pelvis, and future opportunities of dual-ene

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

107 T and pathologic examination results for the abdomen and pelvis.

108 f chest; abdomen; pelvis; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pelvis, resp

109 omen alone; pelvis alone; chest and abdomen; abdomen and pelvis; and chest, abdomen, and pelvis.

110 partment for an ultrasound evaluation of the abdomen and scrotum.

111 er bacterial inoculation into two sites--the abdomen and the thorax.

112 than 35% of their disease burden outside the abdomen and these patients had a more durable partial bi

113 viduals underwent computed tomography of the abdomen and thigh with a calibration phantom.

114 Two-phase oesophagectomy with two-field (abdomen and thorax) lymphadenectomy was done within 4-6

115 ity solely by the sensorimotor system of the abdomen and thorax.

116 ted tomography examination of the thorax and abdomen and tissue Doppler echocardiography with myocard

117 tumor nodules propagate diffusely within the abdomen and tumors are characterized by distinct phenoty

118 Patients with the GI panel had 0.18 abdomen and/or pelvic imaging studies per patient compar

119 increase in the odds of CUA involving lower abdomen and/or upper thigh areas (odds ratio, 1.49; 95%

120 lates), tissues (antennae, head, thorax, and abdomen), and developmental stages (egg, larvae, and pup

121 acic type legs along what would have been an abdomen, and abd-A disruption generating a simplified bo

122 visit (not for an illness), palpation of the abdomen, and expenditure of money in ANC.

123 ubcutaneous tumors scattered over the chest, abdomen, and extremities.

124 eral flank pain spreading to her lower back, abdomen, and extremities.

125 re affected by lower doses than in the upper abdomen, and in single cases large photopenic areas can

126 ction in eight CT examinations of the chest, abdomen, and pelvis (500 images).

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

128 l staging and computed tomography of thorax, abdomen, and pelvis (CT TAP) to identify distant metasta

129 ector computed tomography (CT) of the chest, abdomen, and pelvis after intravenous administration of

130 nual computed tomography scans of the chest, abdomen, and pelvis and magnetic resonance imaging scans

131 rwent computed tomography (CT) of the chest, abdomen, and pelvis followed by cardiac magnetic resonan

132 year-old patient, an annual CT of the chest, abdomen, and pelvis for 10 years carries an estimated li

133 Clinical CT images of the chest, abdomen, and pelvis obtained with a reduced-dose protoco

134 phase computed tomography scan of the chest, abdomen, and pelvis should be performed.

135 emission tomography (PET) scan of the chest, abdomen, and pelvis showed hydronephrosis and hydrourete

136 ction, and computed tomography of the chest, abdomen, and pelvis showed no evidence of metastatic dis

137 and computed tomography (CT) of the thorax, abdomen, and pelvis was requested to depict lymphadenopa

138 nced computed tomography (CT) of the thorax, abdomen, and pelvis was requested to enable exclusion of

139 s for whole-body CT and for CT of the chest, abdomen, and pelvis were calculated using Monte Carlo si

140 omputed tomography (CT) images of the chest, abdomen, and pelvis were normal (not shown).

141 6 months for 3 years; CT scans of the chest, abdomen, and pelvis were performed every 6 months for 2

142 Complete staging with a CT of the chest, abdomen, and pelvis with contrast redemonstrated disease

143 e metastases based on CT scans of the chest, abdomen, and pelvis within the previous 30 days, and wit

144 ing a computed tomography scan of the chest, abdomen, and pelvis, demonstrated rectal wall thickening

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

146 utive CT examinations of the combined chest, abdomen, and pelvis.

147 anced computed tomography (CT) of the chest, abdomen, and pelvis.

148 and abdomen; abdomen and pelvis; and chest, abdomen, and pelvis.

149 idol) computed tomography (CT) of the chest, abdomen, and pelvis.

150 t-enhanced computed tomography of the chest, abdomen, and pelvis.

151 anced computed tomography (CT) of the chest, abdomen, and pelvis; and fluorine 18 ((18)F) fluorodeoxy

152 for gastric cancer includes CT of the chest, abdomen, and pelvis; gastroscopy; and laparoscopy.

153 hronous (Sync) passive VT on their hands and abdomen, and the other half asynchronous (Async).

154 64-section multidetector CT of the chest and abdomen, and who had surgical confirmation of findings d

155 and variable involvement of the arms, legs, abdomen, and/or trunk.

156 graphic and radiographic examinations of the abdomen are insufficient for determination of the nature

157 ody (18)F-FDG PET/CT or CT of the thorax and abdomen as the imaging modality.

158 on findings were unremarkable, with a normal abdomen at both visual inspection and palpation; urogeni

159 sensors were inserted into the fetal brain, abdomen, bladder, and amniotic fluid of miniature pigs (

160 nsfield units were measured in the thigh and abdomen by using computed tomography.

161 h the timely use of ultrasound and CT of the abdomen can play an important role in preoperative diagn

162 , pT3/4Nx-0, and pTanyN1), relapse location (abdomen, chest, bone, and other), age (< 50, 50 to 59, 6

163 CT scan of the abdomen confirmed multiple hypervascular lesions and cen

164 A magnetic resonance imaging scan of the abdomen demonstrated a mass arising from the left kidney

165 CT of the thorax and abdomen demonstrated changes in the liver, spleen, and s

166 ced age and pain in the left quadrant of the abdomen, diverticular disease causing mortality and morb

167 le patient presenting with pain to the upper abdomen due to a large FNH was managed with TAE.

168 was predominantly expressed in both head and abdomen during the winter months and was moderately expr

169 es in cases within the defined categories of abdomen, endocrine, head and neck, basic laparoscopy, co

170 She also suffers from pain in the upper abdomen, especially when rising from the bed.

171 ited volume during manual compression of the abdomen, expressed as percentage of tidal volume to eval

172 Abbreviated Injury Scale (for head, thorax, abdomen, extremities), and occurrence of prehospital sho

173 CT imaging of the chest and abdomen ( Fig 2 ) revealed periaortic and retroperitonea

174 en Abdomen registry of patients with an open abdomen following damage control laparotomy was used to

175 bleeding), should undergo evaluation of the abdomen for bowel wall thickening of >4 mm, the hallmark

176 sented with recurrent pain in his lower left abdomen for one month and an episode of hematuria 3 days

177 JHEH gene was detectable in head, thorax and abdomen from all life stages.

178 ; P = .01), Abbreviated Injury Score for the abdomen greater than 2 (64.5% vs 42.3%; P = .02), and we

179 1.37-8.03), Abbreviated Injury Score for the abdomen greater than 2 (OR, 2.77; 95% CI, 1.19-6.45), an

180 rax") and a region with reduced appendages ("abdomen") has evolved convergently in several groups, e.

181 Higher closure rates of the open abdomen have been reported with NPWT compared with other

182 Prior to his presentation with acute abdomen he had upper and lower endoscopy showing areas o

183 review, we explore the crosstalk between the abdomen, heart, and kidneys in congestive heart failure.

184 olved into a more comprehensive study of the abdomen, heart, chest, and inferior vena cava, and many

185 based on 3D reconstructions of the animal's abdomen, imaged in different lighting environments.

186 l study of 578 patients treated with an open abdomen in 105 hospitals in the United Kingdom between J

187 e head and thorax across all castes, and the abdomen in male and female alates.

188 P = .04), nor was physical well-being of the abdomen in patients who underwent autologous reconstruct

189 The indications for an open abdomen in the United Kingdom appear to be significantly

190 escent AV-750 accumulation in the thorax and abdomen (in vivo), in isolated organs (ex vivo), and in

191 rrying a load on the legs rather than in the abdomen increases a bee's moment of inertia about the ro

192 In contrast, abdomen inoculation results in minimal mortality and low

193 rapods expand this pattern in the thorax and abdomen into four.

194 Formation of the Drosophila adult abdomen involves a process of tissue replacement in whic

195 Acute abdomen is a diagnostic challenge to a clinician and rad

196 Its utility in the abdomen is limited by uptake in normal structures.

197 NPWT in patients with an open abdomen is not associated with an increase in mortality

198 is thought to be particularly useful if the abdomen is tense, distended, obese, or very tender.

199 ricted to the non-mammal tetrapod thorax and abdomen, is observed in the mammalian perineum to regula

200 of sudden onset and often mistaken for acute abdomen leading to unnecessary surgery.

201 The abdomen magnetic resonance imaging and gallium68-DOTATOC

202 Conclusion IVIM parameters in the upper abdomen may differ substantially across MR imagers.

203 However, intense uptake in the upper abdomen may limit the diagnostic utility of (11)C-methio

204 the implementation of dipole band model and abdomen model, the performances of four electrodes in te

205 patient's history together with high quality abdomen MRI allowed the correct diagnosis.

206 se were lung (n = 5), tumor bed (n = 4), and abdomen (n = 2), with one metachronous tumor in the cont

207 The most common indication for an open abdomen (n = 398, 68.9%) was abdominal sepsis.

208 d from the forearm and revascularized on the abdomen (n = 4), or used to close the abdomen while stil

209 Whereas nectar is stored in the abdomen near the bee's center of mass, pollen is carried

210 or routine screening examinations of breast, abdomen, neck, and other soft tissues, as well as for th

211 rring randomly on their heads, thoraces, and abdomens, obtained from diverse, nectar-bearing plants.

212 de torso-shaped water phantom simulating the abdomen of a medium-sized patient.

213 al compartments, can help explain the dorsal abdomen of adult Drosophila.

214 y and metastasize when transplanted into the abdomen of adult hosts.

215 hadows the adult melanization pattern in the abdomen of both species, suggesting that changes in the

216 ponding to the entire thorax and most of the abdomen of insects-and that they have lost the Hox genes

217 The abdomen of the fossil mosquito was shown to contain very

218 e organs such as the infrared sensors on the abdomens of some beetles or photoreceptors on the genita

219 palpis on the same or different sites on the abdomen on 2 consecutive days or by artificial feeding o

220 Leaving the abdomen open (laparostomy) is an option following laparo

221 ules with different weights implanted in the abdomen or s.c. on the back, reversibly decreases the bi

222 have an acute traumatic injury to the chest, abdomen, or pelvis.

223 than 35% of their disease burden outside the abdomen (P < 0.05).

224 of PFS for patients with sarcoma outside the abdomen (P = 0.048; HR, 0.13; 95% CI, 0.02-0.98).

225 delayed gastric emptying (P = 0.062), burst abdomen (P = 0.480), wound infection (P = 0.758), and ho

226 mind in patients presenting with acute upper abdomen pain and discharging sinus.

227 Ultrasound examination of the abdomen, pelvis and scrotum was performed together with

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

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

230 ssibly contrast-enhanced CT of the thorax or abdomen-pelvis.

231 r for patients who underwent CT scans of the abdomen/pelvis or spine than for patients who underwent

232 is projected to result from every 300 to 390 abdomen/pelvis scans, 330 to 480 chest scans, and 270 to

233 mSv or higher was delivered by 14% to 25% of abdomen/pelvis scans, 6% to 14% of spine scans, and 3% t

234 y, 4 million pediatric CT scans of the head, abdomen/pelvis, chest, or spine performed each year are

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

236 eoperative staging by computed tomography of abdomen/pelvis; (2) positron-emission tomographic scans

237 %, 4%, and 6%, for the scan ranges of chest; abdomen; pelvis; chest and abdomen; abdomen and pelvis;

238 Results The first abdomen phantom showed a detailed reproduction of the pa

239 same correction procedure was applied to the abdomen phantom, linear correlation of phantom and patie

240 The AAST Open Abdomen registry of patients with an open abdomen follow

241 sential for the patterning of the thorax and abdomen, respectively [8, 9].

242 ally showed that wounding the cuticle of the abdomen results in decreased expression of multiple HSR

243 ed tomographic (CT) images of a real patient abdomen scan.

244 dequate for rendering other diagnoses in the abdomen (score, 2.0), as opposed to FBP images (score, 1

245 ea, and pain and abdominal mass in the lower abdomen secondary to haematocolpos and/or haematometra.

246 The image quality in the mid abdomen seems to be more affected by lower doses than in

247 ings and laser vibrometry show that the male abdomen shakes ("quivers"), generating substrate-borne v

248 With decreasing doses, regions in the mid abdomen showed a stronger decrease of SUVmean and noise-

249 Computed tomography of her abdomen showed diffused bowel wall thickening without ev

250 Plain radiography of the abdomen showed normal air-fluid level in the stomach and

251 ng in initial computerized tomography of the abdomen showing rectal wall thickening, and her clinical

252 child presented to casualty with severe pain abdomen since 1 day.

253 n 2006 and 2009 and who had a CT scan of the abdomen specifically for preoperative planning.

254 ent counting rates than regions in the upper abdomen (SUVmean, -45% and -15% on average in the small

255 confluent to plaques on his breast and lower abdomen that had been present for 1 month.

256 ophila, nearly all of the 30 species have an abdomen that is light in color with distinct markings; D

257 His physician noted a mildly distended abdomen that was diffusely tender on palpation, with reb

258 On CECT abdomen the findings of omental cysts and torsion of gre

259 momentum in four stages between the jointed abdomen, the two raptorial front legs, and the two propu

260 nts showed the average dose delivered to the abdomen to be 13.8 cGy+/-0.74 and 0.97 cGy+/-0.05 for st

261 Time resolved SAXS studies showed the abdomen to be the best site of implantation to achieve i

262 eveloped by placing fluid filled bags on the abdomen to describe changes of lung mechanics, lung morp

263 nt syndrome and prophylactic use of the open abdomen to prevent intra-abdominal hypertension after DC

264 Patients were excluded if they had an open abdomen treatment in their medical histories.

265 whole body planar images and SPECT/CT of the abdomen up to 168 h after injection of (111)In-[Lys40(Ah

266 The abdomen was closed with an identical technique in both g

267 MDCT of the abdomen was done which revealed atrophic pancreas with o

268 ficant difference compared with EID when the abdomen was evaluated in a conventional scan mode.

269 On physical examination, the abdomen was mildly distended with moderate tenderness.

270 Ultrasonography (US) of the abdomen was performed to evaluate the cause of abdominal

271 Contrast-enhanced MR imaging of the abdomen was performed to narrow the diagnostic considera

272 ow computed tomography (CT) of the chest and abdomen was performed with a 64-section CT scanner (Ligh

273 The abdomen was soft and tender at physical examination.

274 achs to PCP in the Drosophila wing, eye, and abdomen, we define where Dachs-Spiny-legs and Dachsous-S

275 anar whole-body and SPECT/CT images over the abdomen were acquired at 24, 96, and 168 h after the inf

276 Planar and SPECT images of the abdomen were acquired at 30 min and 4 h after the inject

277 tumor manifestations in the thorax and upper abdomen were acquired on a simultaneous hybrid PET/MR sy

278 orsion of greater omentum with free fluid in abdomen were confirmed.

279 neurysms in other arteries in the thorax and abdomen were diagnosed, and in 48%, arterial tortuosity

280 USG and CECT abdomen were done subsequently.

281 Seventy-one patients managed with an open abdomen were identified from records at Landstuhl Region

282 However, large photopenic areas in the mid abdomen were observed in 2 patients.

283 uted tomography (CT) images of the chest and abdomen were obtained.

284 ET/CT and contrast-enhanced CT (CECT) of the abdomen were performed 2 to 6 days after intravenous (12

285 examination rigidity and tenderness all over abdomen were present.

286 Abdomens were definitively closed downrange (11%), at La

287 SIR was 1.63 for CUP with metastases in the abdomen when a relative was diagnosed with ovarian cance

288 jected to plain radiographic examinations of abdomen which revealed large epigastric tumours, with ad

289 on the abdomen (n = 4), or used to close the abdomen while still vascularized on the forearm (n = 2).

290 achia infection diagnosis using dry mosquito abdomens while field study results using an artificial n

291 detector row computed tomography (CT) of the abdomen with 100 mL of iohexol (300 mg iodine per millil

292 atients underwent computed tomography of the abdomen with 64-row multi- detector CT at baseline and a

293 h are uncommon but important causes of acute abdomen with a difficult clinical diagnosis due to nonsp

294 ned with sequential imaging of the chest and abdomen with a three-dimensional sequence optimized for

295 al examination revealed a distended tympanic abdomen with generalized tenderness but no evidence of p

296 xception in that it has a completely melanic abdomen with no visible markings.

297 wed two well defined cystic lesions in lower abdomen with presence of some internal echogenic debris

298 eoperatively on colour Doppler and CT of the abdomen with subsequent confirmation on surgery.

299 ver metastases underwent body CT (thorax and abdomen) with a 64-section multidetector unit.

300 berus discoidalis through incisions into its abdomen yielded maximum values of ca. 55 muW/cm(2) at 0.