ライフサイエンスコーパス: whole-body

1 to properly coordinate the activities of the whole body.

2 with diverse FDG PET findings throughout the whole body.

3 or detection of inflammatory activity in the whole body.

4 s, focused-field-of-view SPECT/CT scans, and whole-body (124)I-MIBG PET scans found 25, 32, and 87 to

5 imaging, focused-field-of-view SPECT/CT, and whole-body (124)I-MIBG PET/CT (1.05 MBq/kg).

6 Patients underwent whole-body (18)F-DCFPyL PET/CT (299.9 +/- 15.5 MBq) at 2

7 Patients received 2 whole-body (18)F-DCFPyL PET/CT scans (median dose, 317 M

8 Patients underwent whole-body (18)F-DCFPyL-PET/CT (299.9+/-15.5 MBq) at 2 h

9 ignancies in the thorax or abdomen underwent whole-body (18)F-FDG CBM PET/CT using DDG and BG.

10 e investigated the diagnostic performance of whole-body (18)F-FDG imaging using a PET/MRI scanner wit

11 Whole-body (18)F-FDG PET and CT scans did not show neopl

12 Methods: In total, 144 whole-body (18)F-FDG PET/CT examinations were acquired,

13 Conclusion: Whole-body (18)F-FDG PET/CT identifies the extent of LVA

14 to localize and classify uptake patterns of whole-body (18)F-FDG PET/CT images in patients with lung

15 fty-seven LVAD-carrying patients received 85 whole-body (18)F-FDG PET/CT scans for the work-up of dev

16 at content (FF) and glucose uptake (GU) from whole-body [(18)F]FDG-PET/MR images.

17 Twelve subjects underwent whole-body [(18)F]FDG-PET/MRI during hyperinsulinemic-eu

18 FERM, a stable in vivo cell tracer, enabling whole-body (89)Zr PET and (19)F MRI after a single intra

19 tate bed (1-8 min after injection), standard whole-body acquisitions (60 min after injection), and li

20 Results: Whole-body activity was reduced on average by 66.7% (ran

21 ol) catabolism is a mechanism for regulating whole-body alpha-tocopherol.

22 These data suggest that whole-body alterations in glucose transport may be organ

23 ate work for the center of mass (COM) of the whole body and individually for the hip, knee and ankle

24 lly, The radiologist, nurse and radiographer whole body and lens exposure was estimated in a simulate

25 Methods: (11)C-(R)-rolipram whole-body and brain PET scans were performed on 6 indiv

26 n fiber plates to shoe soles slightly alters whole-body and calf muscle biomechanics but may not impr

27 Whole-body and neuronal-specific downregulation of enzym

28 F compared with an energy-matched control on whole-body and skeletal muscle insulin and anabolic sens

29 e and tyrosine tracer enrichments from which whole-body and splanchnic amino acid and protein kinetic

30 Whole-body and vascular specific knockout of Lztr1 resul

31 131)I-GMIB-anti-HER2-VHH1 was assessed using whole-body (anterior and posterior) planar images obtain

32 q/kg) was performed on 7 patients, including whole-body (anterior-posterior) planar imaging, focused-

33 ngement is ischemia-reperfusion (I/R) of the whole body as well as during selective I/R to organs suc

34 oth inflammation and malignancy and offers a whole-body assessment.

35 dy using a unique post-mortem cohort wherein whole body autopsy reports and brain tissue were availab

36 Whole body autopsy reports were used to develop a global

37 Whole-body autopsy studies of COVID-19 patients have bee

38 determine the relationship between the peak whole-body averaged specific absorption rate (SAR) and c

39 Importantly, the whole body biodistribution and organ clearance of GBCAs

40 signalling pathways in diseased organs using whole-body bioluminescence imaging, in conscious, freely

41 Importantly, whole-body bioluminescence persisted up to 240 days.

42 Moreover, hepatic in vitro rates scaled to whole body biotransformation rates (k(B)) were compared

43 concerns, and significantly improved LS and whole body BMD compared to participants on vitamin D/cal

44 Lumbar spine and whole body BMD z-scores remained below baseline 48 weeks

45 Similar improvements were seen for whole body BMD.

46 investigated whether noise can be removed in whole-body bone scans using convolutional neural network

47 Whole-body, breath, and dermal emissions were assessed.

48 compartments is becoming more frequent, the whole-body burden (i.e., internal concentrations) in non

49 nformation (e.g., peak concentration and the whole-body burden recovery after a spill), then the nons

50 arm, we find that motor learning affects the whole body, changing motor-control from head to toe.

51 cid synthesis plays a key role in regulating whole body cholesterol homeostasis.

52 te time point liver uptake, bone uptake, and whole-body clearance between chelator-linker types, wher

53 The mean whole-body clearance half-time was 44.98 +/- 16.29 h.

54 Whole-body clearance of (203)Pb-L1-(203)Pb-L5 was fast.

55 the regional trauma centre and subjected to whole-body computed tomography (WBCT) due to injuries.

56 of impairments in multijoint, interlimb, and whole-body coordination in the two mutants.

57 next 8 days, as well as blood chemistry and whole-body counts, to determine safety, tracer biodistri

58 butions were simulated for 22 patients after whole-body CT during Positron Emission Tomography-CT.

59 Whole-body CT examinations were read by two double-blind

60 l epithelium is the most sensitive tissue to whole-body deletion of Bccip but also point to Bccip as

61 Background Whole-body diffusion-weighted (DW) MRI can help detect c

62 Conclusion Whole-body diffusion-weighted MRI showed significant agr

63 vorable dosimetry profile, with an estimated whole-body dose of 5.3 mSv for an administration of 200

64 n and fat distribution were determined using whole-body dual-energy X-ray absorptiometry.

65 ssessments after induction chemotherapy with whole-body DW MRI and FDG PET/MRI (alpha = 0.88).

66 rpose To compare tumor therapy response with whole-body DW MRI and FDG PET/MRI in children and young

67 The authors evaluated agreements between whole-body DW MRI- and FDG PET/MRI-based response classi

68 Body composition was assessed by a whole-body DXA scan.

69 Results: The average whole-body effective dose for the experimental radiophar

70 The whole-body effective dose was 33.3 +/- 2.1 muSv/MBq for

71 Organ doses and the whole-body effective dose were calculated using OLINDA 2

72 idine yields acceptable individual organ and whole-body effective doses, as well as modest tumor-to-b

73 rgan (eg, contractility and metabolism), and whole-body (eg, physical activity and appetite) levels.

74 ght some of these adverse effects, including whole-body endocrinology and disturbances in the gut mic

75 these tissues impact glucose homeostasis and whole-body energy balance during development of obesity,

76 ation of plantarflexor muscles and influence whole-body energy cost differently across walking speeds

77 o analyze fascicle contraction mechanics and whole-body energy expenditure across three walking speed

78 Following transplantation, BAs increase whole-body energy expenditure and oxygen consumption, wh

79 (2+) cycling fat thermogenesis and increases whole-body energy expenditure without cold stimuli.

80 piration and loss of this metabolite impairs whole-body energy expenditure, leading to obesity.

81 c activity, respiratory exchange ratios, and whole-body energy expenditure.

82 te adipose tissue thermogenesis and increase whole-body energy expenditure.

83 d brown adipose tissue (BAT) are involved in whole-body energy homeostasis and metabolic regulation.

84 play significant roles in the regulation of whole-body energy homeostasis, but they have not evolved

85 uts and controls beige APC proliferation and whole-body energy homeostasis.

86 arnessing beige-fat biogenesis and improving whole-body energy homeostasis.

87 (CaMKK2) is a key regulator of cellular and whole-body energy metabolism.

88 ments were conducted at heights to reflect a whole body estimate and an estimate to the lens of the e

89 on detection and classification in oncologic whole-body examinations and to investigate radiation exp

90 plied in more than 2 million voxels from the whole-body examinations by automated interindividual def

91 or controls despite significantly lower peak whole-body exercise heart rates.

92 e of locomotor muscle during single-limb and whole-body exercise modalities.

93 ited investigation has been performed during whole-body exercise.

94 les compared to males during single-limb and whole-body exercise.

95 Whole-body exposures were carried out for 3 h/d, 7 d/wee

96 1 signaling in SAT endothelium in regulating whole-body fat distribution for metabolic health and hig

97 One important determinant of whole-body fat storage is whether an animal is male or f

98 technology to medical imaging by designing a whole-body FFC Magnetic Resonance Imaging (FFC-MRI) scan

99 In this retrospective study, 110 whole-body fluorodeoxyglucose (FDG) PET/CT studies acqui

100 terium dilution, and total body potassium by whole-body gamma counting were combined to calculate fat

101 high-fat, high-calorie (HFHC) diet decreases whole body glucose clearance without impairing skeletal

102 A high-fat, high-calorie (HFHC) diet reduces whole body glucose clearance without impairing skeletal

103 ar role in regulating beta-cell function and whole body glucose homeostasis.

104 ly, weightlifting training profound improved whole-body glucose clearance and skeletal muscle insulin

105 Whole-body glucose disposal was ~18% lower on the exerci

106 ouse muscle, whereas PAK1 is dispensable for whole-body glucose homeostasis and insulin-stimulated mu

107 he relative requirement for PAK1 and PAK2 in whole-body glucose homeostasis and insulin-stimulated mu

108 indings support that arsenite has effects on whole-body glucose homeostasis, insulin-stimulated gluco

109 ulin action in adipose tissue is crucial for whole-body glucose homeostasis, with insulin resistance

110 f Gpr27 in energy metabolism, we generated a whole body gpr27 knockout zebrafish line.

111 e-body scintigraphy, thyroid, half-life, and whole-body half-life were significantly shorter in the r

112 An automated whole-body high-uptake segmentation algorithm identified

113 rrow adipocyte also has an endocrine role in whole body homeostasis through its varied secretome that

114 lineage cells that have an essential role in whole body homeostasis.

115 The PennPET Explorer, a prototype whole-body imager currently operating with a 64-cm axial

116 t on the development of the PennPET Explorer whole-body imager.

117 onal SPECT/CT images were obtained after the whole-body images at 2 and 24 h if there was relevant up

118 (PSMA(TV50)), SUV(max), SUV(mean), and other whole-body imaging biomarkers were calculated for each p

119 Planar whole-body imaging was performed at 2 and 24 h after inj

120 naive CD4 T-cell precursor enumeration, and whole-body imaging, we report that DO affects the repert

121 Methods: Twenty-three patients underwent whole-body immuno-PET after injection of 150 MBq of (68)

122 In CON, the training intervention increased whole-body insulin action by 26% and insulin-stimulated

123 , the effect of a single bout of exercise on whole-body insulin action depends on the balance between

124 e data suggest that the impaired increase in whole-body insulin action in women with PCOS with traini

125 ies find that this translates into increased whole-body insulin action, suggesting that insulin actio

126 tissues, and exacerbates tissue-specific and whole-body insulin resistance in high-fat-diet-induced o

127 s to the unintended metabolic consequence of whole-body insulin resistance.

128 Training increased VO2peak (P < 0.001), whole-body insulin sensitivity (P = 0.033) and flow-medi

129 When compared with CON:CR, eTRF improved whole-body insulin sensitivity [between-group difference

130 ze was the strongest individual predictor of whole-body insulin sensitivity and also a marker of visc

131 Under free-living conditions, eTRF improves whole-body insulin sensitivity and increases skeletal mu

132 In LCSFA-HFD, whole-body insulin sensitivity and peripheral insulin-st

133 Liver and whole-body insulin sensitivity was assessed using the hy

134 d glucose concentrations, and both liver and whole-body insulin sensitivity were determined in indivi

135 NL was inversely correlated with hepatic and whole-body insulin sensitivity, but directly correlated

136 e relationship between TRLP subfractions and whole-body insulin sensitivity, hepatic and visceral fat

137 e mechanism that bridges WAT inflammation to whole-body insulin sensitivity.

138 d was positively associated with hepatic and whole-body insulin sensitivity.

139 AT oxygen partial pressure (pO2); liver and whole-body insulin sensitivity; AT expression of genes a

140 ally, we leveraged these results to create a whole-body intracortical brain-computer interface that s

141 findings have implications for renal health, whole-body iron homeostasis, and pathologies arising fro

142 of GT3-Nano was assessed after acute (137)Cs whole-body irradiation at a sublethal (4 Gy), a lethal (

143 will be exposed to a low dose rate, uniform, whole body, irradiation.

144 We recorded whole-body kinematics of subjects with varying skill lev

145 t-induced obese mice, including wild-type or whole body knockout (KO) of PPARalpha, GPR119, and CD36,

146 Mice with whole-body knockout (KO) of 11beta-HSD1 developed signif

147 re lower than whole-body knockouts, and only whole-body knockouts exhibited manganese-induced neurobe

148 endoderm-specific knockouts were lower than whole-body knockouts, and only whole-body knockouts exhi

149 Whole body lean mass (WBLM) is a heritable trait predict

150 CB1R(-/-) mice had increased muscle mass and whole-body lean/fat ratio in obesity and aging.

151 ultimodal detection using FERM yields robust whole-body lesion detection and leverages the strengths

152 nt flux between muscle and liver to maintain whole-body lipid and glucose homeostasis.

153 g SHBG with higher impedance of the arms and whole body, lower pulse rate, lower bone density, higher

154 a manganese efflux transporter critical for whole-body manganese excretion.

155 ity measurements from blood samples and with whole-body measurements that were regularly repeated dur

156 to validate the prognostic value of baseline whole-body metabolic active tumor volume (WB-MATV) and t

157 Adipocyte DICER is required for whole-body metabolic adaptations to aerobic exercise tra

158 nates signals from working muscle to promote whole-body metabolic adaptations.

159 -DOPA PET/CT (i.e.,(123)I-MIBG WBS score and whole-body metabolic burden [WBMB], respectively) and ev

160 cardiomyocyte ploidy across species, linking whole-body metabolic control to endothermics and to thyr

161 expression changes in the liver that impact whole-body metabolic profile.

162 of adipose tissues, insulin sensitivity, and whole-body metabolic state.

163 Baseline whole-body metabolically active tumor volume (WB-MATV) m

164 cial role of the autonomic nervous system in whole body metabolism with major regulatory effects of t

165 Diet-mediated changes in whole-body metabolism and systemic nutrient availability

166 on between adipose glucocorticoid action and whole-body metabolism is incompletely understood.

167 aling as a homeostatic mechanism maintaining whole-body metabolism under overnutrition.

168 Adipose glucocorticoid action influences whole-body metabolism via modulation of hepatic insulin

169 PRADC1 is dispensable for whole-body metabolism when mice are fed a low-fat diet.

170 n have profound effects on energy intake and whole-body metabolism.

171 has revealed the impact of glucose uptake on whole-body metabolism.

172 Using whole-body miR-155 knockout mice and endothelial cell-sp

173 human biology, from single-cell analyses to whole-body monitoring.

174 We computed changes in whole-body motion and angular momentum across the two co

175 describe a Matlab-based software that allows whole-body motion characterization using optical flow es

176 Here, we characterize a whole-body mouse knockout of Gpr27.

177 were performed using tissue sections from a whole-body mouse pup.

178 ptors to investigate their role in affective whole-body movement perception.

179 ulations directed at objects, to large-scale whole-body movements directed at distant locations.

180 em (MaCaQuE) for investigating goal-directed whole-body movements of unrestrained monkeys.

181 ent adipose tissue compartments derived from whole-body MR images is of high interest in research con

182 13 of 26) with bone progression at CT and/or whole-body MRI (P < .001, McNemar test).

183 sensus proposes a core clinical protocol for whole-body MRI and an extended protocol for advanced ass

184 There was only slight agreement between whole-body MRI and CT (Cohen kappa, 0.15).

185 y and 33% (11 participants) had PD at CT and whole-body MRI concurrently; none had PD at CT only (P <

186 cision (92.1%), and accuracy (98.4%) from 3D whole-body MRI datasets (field of view coverage, 450 x 4

187 dipose tissue segmentation is feasible in 3D whole-body MRI datasets and is generalizable to differen

188 ng and vascular endothelial function and the whole-body MRI depiction of metabolic syndrome consequen

189 Conclusion Whole-body MRI enabled identification of progressive dis

190 Purpose To evaluate whether whole-body MRI enables identification of progressive dis

191 owledging the increasingly important role of whole-body MRI for directing patient care in myeloma, a

192 cquisition, interpretation, and reporting of whole-body MRI in myeloma and allow response assessment.

193 and hematologists with specific expertise in whole-body MRI in myeloma convened to discuss the techni

194 ing, 67% (22 participants) had PD evident at whole-body MRI only and 33% (11 participants) had PD at

195 Baseline whole-body MRI was performed within 2 weeks of entry; th

196 CT and whole-body MRI were performed every 12 weeks until defin

197 techniques, including SPECT/CT, PET/CT, and whole-body MRI with diffusion-weighted imaging, have imp

198 ission tomography [PET], PET/CT, PET/MRI, or whole-body MRI) according to the clinical scenario.

199 ts independently interpreted images from CT, whole-body MRI, or bone scintigraphy and were blinded to

200 ar and hybrid imaging techniques, as well as whole-body MRI, promise an earlier and more accurate pre

201 cal evidence of liver metastases at baseline whole-body MRI, two participants were excluded because t

202 alf of participants with bone progression at whole-body MRI.

203 dergone CI-that is, CT plus bone scanning or whole-body MRI.

204 ing methods, including SPECT/CT, PET/CT, and whole-body MRI.

205 Whole-body net protein balance and dietary protein-deriv

206 Whole-body net protein balance increased dose-dependentl

207 g ER- and PR-specific radioligands enables a whole-body, noninvasive assessment of receptor expressio

208 H2A1, becoming evident at 24 hpf, within the whole body of the embryo proper.

209 Without ozone, the whole-body OH reactivity was dominated by breath emissio

210 tarting 3 days before 3 x 2 Gy or 4 x 0.5 Gy whole-body or tumor-focused radiation.

211 over a variety of spatial scales, including whole body, organ, suborgan, and voxel, the last 3 of wh

212 Whereas sensory and whole-body output properties of LH cell populations have

213 ic (rectal temperature, BAT temperature, and whole-body oxygen consumption) response to acute cold ex

214 Interestingly, whole body P2Y(6)R knockout mice showed metabolic improv

215 ory exchange ratio was largely unaffected in whole-body PAK1 knockout (KO), muscle-specific PAK2 KO a

216 tion of p21-activated kinase (PAK)2, but not whole-body PAK1 knockout, impairs glucose tolerance in m

217 e-specific PAK2 KO and in mice with combined whole-body PAK1 KO and muscle-specific PAK2 KO.

218 er, was developed to noninvasively determine whole-body PD-L1 expression by PET.

219 he uptake of [(18)F]FDG in dbPET compared to whole-body PET (wbPET) in a cohort of ten patients with

220 lunteers (3 men, 3 women) underwent multiple whole-body PET acquisitions at scheduled time points up

221 ceived 1 tracer administration and underwent whole-body PET for dosimetry calculation.

222 Whole-body PET images were taken from rats over 240 min

223 body, can stably be labeled with (89)Zr for whole-body PET imaging and quantification.

224 Deep learning-based direct ASC at whole-body PET is feasible and potentially can be used t

225 The latest digital whole-body PET scanners provide a combination of higher

226 During each imaging session, 9 whole-body PET scans were obtained at 5, 10, 20, 30, 40,

227 The estimated mean effective dose for whole-body PET/CT amounted to 17.6 +/- 8.7 mSv, in compa

228 tially monitored by dynamic PET, followed by whole-body PET/CT at 1 and 24 h after infusion.

229 For each patient, 3 whole-body PET/CT image series were acquired after a sin

230 er, renal cell cancer, or leukemia underwent whole-body PET/CT imaging 90 min after injection of (18)

231 A subset of 3 patients had a delayed whole-body PET/CT scan at 180 min.

232 ET/CT scan was started, followed by a 30-min whole-body PET/CT scan.

233 , spleen, and kidney (n = 2) or three 10-min whole-body PET/CT scans (n = 3) immediately after inject

234 urate quantification of (18)F-FDHT uptake in whole-body PET/CT scans.

235 Human image data acquired on a conventional whole-body PET/CT system with a typical clinical protoco

236 CT system are comparable to state-of-the-art whole-body PET/CT systems with the exception that the pe

237 Methods: Six healthy men underwent dynamic whole-body PET/CT.

238 ipid metabolism and the consequent impact on whole-body physiology, we performed lipidomics, metabolo

239 Whole-body planar imaging was acquired at 1, 2, 3, 6, an

240 Results: (123)I-MIBG whole-body planar scans, focused-field-of-view SPECT/CT

241 erformed, and at both 4 and 24 h after PRLT, whole-body planar scintigraphy was performed.

242 challenges, lung function was determined by whole-body plethysmography and bronchoalveolar lavage fl

243 eofluoroscopy, ultrasonic vocalizations, and whole-body plethysmography were used to assess VF motion

244 r 360 min of postexercise recovery to assess whole-body protein metabolism and both MyoPS and MitoPS

245 ary protein co-ingested with carbohydrate on whole-body protein metabolism, and skeletal muscle myofi

246 protein intake resulted in a higher fasting whole-body protein turnover with a resultant mean +/- SE

247 a protein-rich meal on, protein absorption, whole-body protein turnover, and splanchnic amino acid m

248 Whole-body quadruple-knockout mice lacking all four TIMP

249 Materials and Methods Whole-body quantitative water-fat MRI was performed in a

250 In animal models, whole-body receptor Notch3 deficiency protects from leuk

251 Whole-body REE was higher, without changes in body weigh

252 dians are the only chordates able to undergo whole body regeneration (WBR), during which entire new b

253 A6+ Candidate stem cells are responsible for whole body regeneration and give rise to regenerating ti

254 to reduce blood Gd content that facilitates whole body removal of Gd using a hemoperfusion system co

255 Whole-body respiratory exchange ratio was largely unaffe

256 Whole-body retention half-time averaged 198 +/- 75 h.

257 disease processes within the context of the whole body, revealing novel cancer biology and therapeut

258 ystematic understanding of immune aging on a whole-body scale is currently lacking.

259 PET/CT scan of the pelvis and a delayed 1-h whole-body scan.

260 turing the initial distribution phase in the whole-body scan; later time points showed residual (89)Z

261 ults were compared with those of (123)I-MIBG whole-body scanning (WBS).

262 Combined with the ability to perform whole-body scanning, (18)F-FDG has revolutionized the ev

263 iduals with MAS (3 for brain scans and 6 for whole-body scans) and 9 healthy controls (7 for brain sc

264 ealthy controls (7 for brain scans and 6 for whole-body scans).

265 Methods: Serial whole-body scintigraphic images (4 time points) were obt

266 Whole-body scintigraphy has shown rapid mIBG elimination

267 When patients returned for whole-body scintigraphy, thyroid, half-life, and whole-b

268 s originally intended to create an inducible whole-body SDH-loss mouse model of tumorigenesis, we gen

269 st, nurse and radiographer were exposed to a whole-body shielded dose of 0.36muSv, 0.1muSv and 0.05mu

270 ly expressed in sites of erythropoiesis, and whole-body Slc25a37 deletion leads to lethality.

271 we exposed 6-month-old C57BL/6J male mice to whole-body space radiation and subsequently assessed the

272 ted iDISCO tissue clearing to process large, whole-body specimens for an unprecedented view of the na

273 Then, the data of 28 whole-body SPECT/CT scans of 7 patients who underwent (1

274 More recently, the design of whole-body SPECT/CT systems has taken another major leap

275 helping to promote fast, efficient local and whole-body staging in 1 step, when additional MRI is rec

276 iratory and cardiac motion is visible, and a whole-body survey.

277 ions, such as data-driven motion estimation, whole-body surveys, quick reconstructions of gated data

278 Dynamic (17)O MRI was performed with a 7.0-T whole-body system.

279 ability to utilize the redundant DoFs in the whole-body system.

280 n in a detailed and intuitive fashion in the whole body, the voxel-wise analysis provided additional

281 DNA isolated from lungs of A/J mice exposed whole-body to environmental cigarette smoke for 10 weeks

282 77Lu in delaying tumor growth and decreasing whole-body toxicity.

283 ment over untreated controls and resulted in whole-body toxicity.

284 valent survival to 82 d but with significant whole-body toxicity.

285 compared with untreated controls, because of whole-body toxicity.

286 he gonad and in neurons in the regulation of whole-body triglyceride homeostasis.

287 ts, in these cell types in the regulation of whole-body triglyceride homeostasis.

288 ow that bmm function in the fat body affects whole-body triglyceride levels in both sexes, in males,

289 Exposure to all three chemicals decreased whole body triiodothyronine (T3) concentrations, either

290 The whole-body tumor volume (PSMA(TV50)), SUV(max), SUV(mean

291 t be because semiautomated quantification of whole-body tumor volume as a PSMA PET biomarker is an un

292 Yet, the implications of PSMA PET-derived whole-body tumor volume for overall survival are poorly

293 uantification of PSMA PET biomarkers such as whole-body tumor volume.

294 For each MRI pulse sequence, the calculated whole-body values for SAR, dB/dt, and scan duration were

295 udy aimed to investigate the acute effect of whole-body vibration (WBV) on the reflex and non-reflex

296 With the rise in popularity of whole-body vibration training exercise, it is important

297 mented case of vitreous hemorrhage following whole-body vibration training, he is the first to show a

298 a retinal tear and vitreous hemorrhage with whole-body vibration training.

299 us hemorrhages after completing a session of whole-body vibration training.

300 is approach that uses image registration for whole-body voxel-wise analysis could provide additional

301 Whole-body voxel-wise analysis of tissue volume and fat