ライフサイエンスコーパス: extremities

1 days (face or scalp) and 274 days (trunk or extremities).

2 ia at MR lymphangiography (13 of 33 affected extremities).

3 % for face and scalp and 0.05% for trunk and extremities).

4 clearer with lymphoscintigraphy (five of 60 extremities).

5 gins (such as low-grade lesions in the lower extremities).

6 n hemimelia (lack of formation of the distal extremities).

7 s from the dorsolateral pole to ventromedial extremities.

8 of the body, with predominance for the lower extremities.

9 n the hamstring and adductor muscles of both extremities.

10 (75%) displayed cyanotic acral edema of the extremities.

11 sulting in increased blood flow to the lower extremities.

12 the face or scalp and 86.8% for the trunk or extremities.

13 p or for 2 consecutive days for the trunk or extremities.

14 nderstudied topic, particularly in the lower extremities.

15 t (4-15 lesions), primarily of the trunk and extremities.

16 l 180 hrs after ingestion when she moved all extremities.

17 hermal stimuli and painful sensations in the extremities.

18 affecting motor neuron function in the lower extremities.

19 ple vascular territories including the lower extremities.

20 xcision of primary cutaneous melanoma of the extremities.

21 the pelvis and 0.6 mSv +/- 0.2 for the lower extremities.

22 on in selected patients with ischemia of the extremities.

23 multislice computed tomography of the lower extremities.

24 gene families modify RNA molecules at their extremities.

25 daptive motor behaviors involving the distal extremities.

26 ion, hardening, and tethering of skin on the extremities.

27 activity differs between the lower and upper extremities.

28 d arterial reactivity in lower but not upper extremities.

29 n that may develop following injuries of the extremities.

30 a phenotype that is more severe in the upper extremities.

31 marily one monomer at a time and only at the extremities.

32 confluent plaques predominantly on the lower extremities.

33 short, sparse hairs on the scalp, trunk, and extremities.

34 ose regions of SII that represent the distal extremities.

35 e is a sensory or motor deficit in the lower extremities.

36 populations of patients with ischemia of the extremities.

37 right posture and venous stasis in the lower extremities.

38 he conspicuous absence of bony tissue in the extremities.

39 by congenital defects in the heart and upper extremities.

40 ed arteries and veins in the upper and lower extremities.

41 or bone infections, especially in the lower extremities.

42 en with venous thromboembolism involving the extremities.

43 ons that covered places other than the lower extremities.

44 gh cell mixing may occur at the most sternal extremities.

45 multiarticular evolution of OA of the lower extremities.

46 order of keratinization affecting the distal extremities.

47 s treatment in patients with melanoma of the extremities.

48 or a permanent vascular access in both upper extremities.

49 nt of patients with tumours of the limbs and extremities.

50 f acute embolism and thrombosis of the lower extremities.

51 osis associated with a catheter in the upper extremities.

52 hycardia, and cutaneous ulcers on his distal extremities.

53 missing central digits and claw-like distal extremities.

54 sistent, culture-negative boils on the lower extremities.

55 ent warmth, erythema, and pain in the distal extremities.

56 ting, abdominal pain, and edema of the lower extremities.

57 patients with critical ischemia of the lower extremities.

58 tomatic bone scan abnormalities in the lower extremities.

59 nt driving morphological diversity in distal extremities.

60 of extensor and flexor muscles of upper the extremities.

61 ical resection of soft-tissue sarcoma of the extremities.

62 nk, 9% at unknown sites, and 7% on the lower extremities.

63 ous, scaly plaques on the trunk and proximal extremities.

64 sions were detected in clinically unaffected extremities.

65 ent warmth, erythema, and pain in the distal extremities.

66 of limbs is the presence of digits at their extremities.

67 ttled pigmentation on the trunk and proximal extremities.

68 t evaluated deficits in both upper and lower extremities.

69 that results in ischemia mostly in the lower extremities.

70 nce in systolic blood pressure between upper extremities.

71 y a postural and kinetic tremor of the upper extremities.

72 n patients with soft-tissue sarcoma in their extremities.

73 e major conduit arteries supplying the lower extremities.

74 umors scattered over the chest, abdomen, and extremities.

75 ive defects larger than 8 mm on the trunk or extremities.

76 into a shell-like structure by loading their extremities.

77 for circular or oval wounds on the trunk and extremities.

78 remities, including the weight-bearing lower extremities.

79 ntary movements of the right upper and lower extremities.

80 in spreading to her lower back, abdomen, and extremities.

81 chronic pain condition usually affecting the extremities.

82 gressive paralysis of the upper and/or lower extremities.

83 opathic pain characterized by burning in the extremities.

84 ed tomographic (CT) angiography of the lower extremities.

85 g the appearance of new macules on her upper extremities.

86 n sites of thromboses were deep veins of the extremities (10 of 23; 43%), pulmonary embolism (five of

87 rring on the head and neck, 32% on the upper extremities, 16% on the trunk, 9% at unknown sites, and

88 aris telangiectodes of Majocchi on the lower extremities 2 months after initiating isotretinoin for t

89 res (~40%), genito-urinary track (~25%), and extremities (~20%).

90 non-ultraviolet-exposed hairless skin of the extremities (3 and 14 per megabase (Mb) of genome), inte

91 in the head/neck region (4/33, 12%) than in extremities (3/245, 1.2%) and trunk (2/154, 1.3%) (P < 0

92 Primary lesions were more often on the extremities (40%) than the head and neck (33%) or the tr

93 s (face, 41.0 vs 61.0 days [P = .001]; upper extremities, 46.0 vs 69.0 days [P = .003]).

94 The tumors were located in the lower extremities (94%) and retroperitoneum (6%).

95 For the face and upper extremities, a significantly higher percentage of patien

96 d, while polarity markers are lost from cell extremities, actin patches and cables are reorganized in

97 ltiple lesions on sun-exposed areas of their extremities after a median of 13 months (range, 4-18 mon

98 ivation coupling between the upper and lower extremities after stroke.

99 ed, especially sensory symptoms in the lower extremities among those treated with oxaliplatin.

100 sticity of the primary motor cortex in upper-extremities amputees and to determine if the acquisition

101 nversion coefficients are provided for lower extremities and allow estimation of ED for commonly used

102 ongenital amputations of the upper and lower extremities and aplasia of the hands and feet.

103 muscle hernias are not uncommon in the lower extremities and are a rare cause of chronic leg pain.

104 ally characterized by burning pain in distal extremities and autonomic dysfunction, is a disorder of

105 n was defined as pain in the upper and lower extremities and axial pain with moderate or severe pain

106 ge attenuation by 7 HU (P <.05) in the lower extremities and decreased average attenuation by 42 HU (

107 aster is not affected by proximity to intron extremities and differs between transcribed DNA and flan

108 marked early involvement of the upper distal extremities and displayed a mild reduction of nerve cond

109 isease causing spastic weakness of the lower extremities and eventual axonal degeneration.

110 at young age, large vessel thrombosis of the extremities and multiple organ systems, and consumptive

111 c neuropathy, contributing to loss of axonal extremities and neuronal dysfunction.

112 ial to develop new skills in their remaining extremities and practice may further enhance this potent

113 ized by a stellate ulceration over the upper extremities and reported association with neuromuscular

114 neuropathy typically manifest pain in distal extremities and severe autonomic dysfunction.

115 disease characterized by loss of feeling in extremities and severe pain.

116 g a standard of care for those who have lost extremities and suffered large tissue defects.

117 Our patient's distribution of lesions on the extremities and the finding of suppurative folliculitis

118 lts in studies of the transplantation of pig extremities and the information exchanged at an internat

119 loss of subcutaneous adipose tissue from the extremities and trunk but by excess fat deposition in th

120 ratotic-affected skin on the upper and lower extremities and trunk, and identified a single, protein-

121 erwent duplex ultrasonography of their lower extremities and upper extremities every 7 days.

122 d rashes of the face, neck, chest, back, and extremities and were often associated with swelling, ery

123 zes were identified on the scalp, trunk, and extremities and were reported to have been present since

124 40 to lower than 50 Gy appears adequate for extremities and/or trunk stage I to III MCC, with OS equ

125 ears or older with stage I to III MCC of the extremities and/or trunk treated with definitive surgery

126 ted Injury Scale (for head, thorax, abdomen, extremities), and occurrence of prehospital shock.

127 proportion of total-body SM is found in the extremities, and a large proportion of extremity lean so

128 g anatomic views by region, the heart, head, extremities, and abdominal views were completely seen in

129 with an eczematous dermatitis on her torso, extremities, and buttocks and who subsequently developed

130 ay/intellectual disability (DD/ID), abnormal extremities, and hirsutism.

131 and superficial venous systems of the lower extremities, and suggest the need for addition clinical

132 characterized by a long narrow chest, short extremities, and variable occurrence of polydactyly.

133 sented for evaluation of bowing of his lower extremities, and was ultimately diagnosed with X-linked

134 aneurysm; fractures of the face, spine, and extremities; and acute stroke.

135 monitoring of comparable sites in both upper extremities appears to be an effective preventive measur

136 RNA is produced and bears the same 5' and 3' extremities as in wild-type plants.

137 t are compatible with the body's abdomen and extremities, as well as the deep brain, suggesting that

138 aterial-enhanced MR angiography of the lower extremities at 3.0 T.

139 e found that elongating the helices at their extremities by adding monomers remote from the tartaric

140 s to evaluate vascular function in the lower extremities by making direct time-course measurement of

141 Soft tissue and bone sarcomas of the extremities can be difficult to eradicate, and standard

142 Evaluation of the upper extremities can be more challenging and requires a highe

143 The defining functions of chromosome extremities can be summarized in two main categories.

144 erythema that typically affects the proximal extremities, can be disfiguring, and is often resistant

145 modalities, i.e. brain parenchyma, bones and extremities, can be evaluated in one examination.

146 tient with chronic skin lesions of the lower extremities caused by P. cyclothyrioides.

147 refill time >2 secs, knee mottling, or cool extremities), central venous pressure, fluid output, and

148 ts (face or scalp) and 71 patients (trunk or extremities) completed all 12 months.

149 ed that the presence of multiple nevi on the extremities conferred the highest relative risk for MMIS

150 ing pain, vasodilatation, and redness of the extremities consistent with erythromelalgia.

151 nagement of soft tissue sarcoma (STS) of the extremities, controversy exists regarding adjuvant chemo

152 At the bilayer extremities, densities for some of the inter-helix hydro

153 of the lymphatics resulting in edema of the extremities due to altered lymphatic flow.

154 atients, and anaemia, back pain, and pain in extremities, each of which occurred in three patients (1

155 ography of their lower extremities and upper extremities every 7 days.

156 ed CCC as a diffuse rash involving the body, extremities, face or scalp, and/or funisitis, presenting

157 quently recommended radiography of the lower extremities ( Fig 3 ).

158 is (four episodes), flaccid paralysis of all extremities (four episodes), tremors (two episodes), apn

159 acterized by uncomfortable sensations in the extremities, generally at night or during sleep, which o

160 of serial targeted molecular images of lower extremities, has applicability to other targeted SPECT o

161 the transplantation of face, bilateral upper extremities, heart, 1 lung, liver (split for 2 recipient

162 Low cardiac index correlated with cool extremities, high central venous pressure, and low 24-hr

163 that other painful conditions of the distal extremities (ie, neuropathy related to human immunodefic

164 , and variant anatomy, were seen in 12 lower extremities in 10 patients.

165 the deep and superficial veins of the lower extremities in a small cohort of healthy subjects and pa

166 compartment syndrome of the upper and lower extremities in adults and children, discuss the underlyi

167 enous thrombosis (DVT) of the proximal lower extremities in children in whom plasma factor VIII activ

168 keletal muscles weakness and numbness of the extremities in exposed human and laboratory animals.

169 time frame for revascularization of procured extremities in limb transplantation.

170 s earlier onset and more severe in the lower extremities in nearly all patients.

171 in proximal and distal muscles of the upper extremities in nine patients with multifocal high freque

172 ropathy characterized by burning pain in the extremities in response to mild warmth, has been linked

173 isorder characterized by burning pain in the extremities in response to warm stimuli or moderate exer

174 techniques for the maintenance of functional extremities in these patients.

175 atory sense loss at both the upper and lower extremities in these subjects compared with controls.

176 d to painful and hyperalgesic skin of distal extremities, in absence of sympathetic vasomotor denerva

177 ons), retinal manifestations, and defects on extremities including congenital contractures and hypert

178 in patients with early-onset pain in distal extremities including joints and gastrointestinal distur

179 T scanner capable of imaging upper and lower extremities (including weight-bearing examinations) prov

180 By contrast, DC migration from body extremities, including ear and forepaws, was ablated.

181 y skin lesions involving the head, trunk and extremities, including palms of hands and soles of feet.

182 T scanner has been developed for imaging the extremities, including the weight-bearing lower extremit

183 When involving the extremities, increased compartment pressure requiring fa

184 his supplementary interaction at the aptamer extremities induced stabilizing effects on the ternary c

185 ts who underwent CT angiography of the lower extremities integrated with multiphasic torso CT for tra

186 The second defining function of chromosome extremities involves self-preservation.

187 terial occlusive disease affecting the lower extremities is also known as peripheral artery disease (

188 , impaired physical performance of the lower extremities is common in CKD and strongly associates wit

189 ition, CT venography of the pelvis and lower extremities is often incorporated into the CT angiograph

190 Acute compartment syndrome of the extremities is well known, but diagnosis can be challeng

191 e skin and intermittent burning sensation of extremities, is not known, two mutations of Na(v)1.7, a

192 e therapeutic effect on both upper and lower extremities, its role in motor control and coordination

193 We found that local image fragments such as extremities (limbs), curved boundaries, and parts of the

194 ng with disrupted lymphatics in the affected extremities may explain this complication of SRL.

195 n and had severe weakness of upper and lower extremities measured by a 5-point muscle strength score

196 en patients (11.1%) had calcinosis, with the extremities most commonly involved.

197 progresses to involve other lower and upper extremities' muscles, with marked sparing of the quadric

198 mors were predominantly located in the lower extremities (n = 163; 90%) and had a median size of 9 cm

199 e head and neck (n = 64), spine (n = 5), and extremities (n = 7).

200 Tumor sites included the extremities (n=60), and trunk (n=26).

201 (IEM), characterized by burning pain in the extremities; Na(V)1.7 mutations that impair inactivation

202 ies and microvascular landmarks in the lower extremities of 10 healthy volunteers.

203 Lower extremities of 20 (12 male, eight female; mean age, 51 y

204 omplex with two guest molecules bound at the extremities of a double helix formed by the host, as sho

205 ven that the method was only tested on upper extremities of a veteran population, further testing mus

206 EC20 concentrated in the arthritic extremities of diseased rats but not in the extremities

207 ctivity of somatosensory gating in the lower extremities of healthy human participants.

208 extremities of diseased rats but not in the extremities of healthy rats.

209 een 4 degrees C and 28 degrees C, but at the extremities of its Arrhenius growth profile, namely -2.5

210 were older age and some tumor sites (pelvis, extremities of limbs).

211 In practice, it refers to the extremities of linear chromosomes.

212 hat assembly of this adhesion complex at the extremities of migrating oligodendroglial processes prom

213 ed a bivalent signaling design where the two extremities of one split aptamer fragment were conjugate

214 s of connective tissue nevi on the trunk and extremities of patients with tuberous sclerosis complex.

215 is study examined VPT at the upper and lower extremities of subjects with hip OA compared with subjec

216 ular endothelial growth factor, to the lower extremities of subjects with unilateral PAD.

217 otecting layers of [Pd(dmgH)(2)] closing the extremities of the [Ni(dmgH)(2)] filaments.

218 onfer protection than those that bind at the extremities of the antigen.

219 tial recondensation of ices near the coldest extremities of the cap.

220 -N transition with the I and N phases at the extremities of the channel, starting from an initially s

221 application of an electric potential to the extremities of the device.

222 inity site seen as binding to the beta-sheet extremities of the fibril.

223 evidence indicating that the upper and lower extremities of the limb have different evolutionary orig

224 Similar structures of covalently linked extremities of the linear DNA genome are found in the Af

225 identify host factors that interact with the extremities of the MNV genome.

226 The force to keep the extremities of the molecule at a fixed distance, the kin

227 ost factors that interact with the 5' and 3' extremities of the norovirus RNA genome.

228 re discriminating than mismatches toward the extremities of the probe and mismatches toward the attac

229 compared with 3-4 mM), isolated areas on the extremities of the roots contained concentrations of org

230 ed clear clusters of PSD-95gfp, often at the extremities of the short dendritic trees.

231 ted promoters and terminators present at the extremities of transcriptional unit as predictors, with

232 the 2 key FA proteins, are localized to the extremities of ultrafine DNA bridges (UFBs), which link

233 more often occur as localized lesions in the extremities of younger patients and are associated with

234 ogression of OA in other joints of the lower extremities, often requiring additional joint replacemen

235 on relationships in both the upper and lower extremities--optimal strategies are not yet clear.

236 ially resectable soft tissue sarcomas of the extremities or body wall.

237 disease; location of the primary other than extremities or torso; earlier year of diagnosis; and pre

238 following resection of localized MCC of the extremities or trunk.

239 age-dependent vascular lesions in the skin, extremities, oral cavity and in the internal organs (lun

240 rer vibration perception in the distal lower extremities (P = .008, adjusting for age, height, and te

241 disease), brain (ischemic stroke), or lower extremities (peripheral vascular disease).

242 Passive motion of lower extremities (PMLE) elicits significant increases in alve

243 at promotes electrochemical reactions at its extremities (poles) even in the absence of a direct ohmi

244 ry of peripheral artery disease of the lower extremities (previous peripheral bypass surgery or angio

245 ce of dermal thickening, particularly in the extremities, progressive fibrosis of internal organs, va

246 vein thrombosis in both the lower and upper extremities, pulmonary embolism, and mortality.

247 of the lips and oral mucosa, changes in the extremities, rash, and cervical lymphadenopathy.

248 the musculoskeletal kinematics of the lower extremities remain poorly understood.

249 ested muscle weakness in the lower and upper extremities, resembling mice lacking the farnesylated CA

250 atherosclerotic disease affecting the lower extremities, resulting in skeletal muscle ischemia, inte

251 y BMD as well as subtotal BMD and BMD of the extremities, ribs, and trunk subregions) was inversely a

252 A patient who presents with nodules on the extremities should be questioned regarding contact with

253 ped pruritic, brown plaques on the trunk and extremities showing a distinctive epidermal hyperplasia

254 alities of the face, the oral cavity and the extremities, some due to mutations in proteins of the tr

255 better musculoskeletal function in the lower extremities than are concentrations < 40 nmol/L.

256 vary gland, the sciatic nerve, and along the extremities that histologically resemble malignant perip

257 thy characterized by pain and redness of the extremities that is triggered by warmth.

258 to June 2002, all chronically ischemic lower extremities that met standard indications for revascular

259 Ts) develop polarization potentials at their extremities that readily drive electrochemical reactions

260 oped palpable purpura on the bilateral lower extremities that resolved after discontinuation of sirol

261 is of the two trials involving the trunk and extremities, the rate of complete clearance was also hig

262 muscle tone and increased muscle tone in her extremities; the latter was more severe.

263 st commonly arise from primary tumors in the extremities, they may arise from almost any primary site

264 ique microenvironments found at the cortical extremities, thus modulating the relative proximity of p

265 CT venography may be limited to the lower extremities, thus reducing radiation dose.

266 oses on the face or scalp or on the trunk or extremities to receive ingenol mebutate or placebo (vehi

267 ied anatomical sites (face, scalp, and upper extremities) twice daily for 4 consecutive days.

268 ents with malignant melanoma on the trunk or extremities (upper and lower) who were scheduled to unde

269 correlation with innervation density of the extremities using noninvasive laser reflectance confocal

270 All subjects reported pain and heat in the extremities (usually feet and/or hands), with pain attac

271 SMS (n = 5, involving the low back and lower extremities), variant SMS (n = 2, limited to 1 limb [wit

272 of lymphatic capillaries in the skin of body extremities was more severely impacted by a mutant copy

273 At examination, strength in both lower extremities was slightly reduced, sensation and reflexes

274 y difference of more than 0.1 Hz between two extremities, was demonstrated for symptomatic tremors in

275 4 MBq 99mTc-TPPS4, scintiphotos of the lower extremities were acquired and repeat scintiphotos were o

276 doses for CT venography of pelvis and lower extremities were calculated.

277 discarded terminal hairs from the trunk and extremities were collected from 2 adult volunteers.

278 ma and lymph vessel transplants of the lower extremities were examined with 3.0-T fat-saturated three

279 Ten upper extremities were harvested from the nonembalmed cadavers

280 Upper extremities were imaged separately with at least two exp

281 Lower extremities were imaged separately with at least two exp

282 Both lower extremities were involved in seven patients, and a singl

283 body surface area involvement of both upper extremities were recruited from the Albuquerque, NM Vete

284 Procedures on the lower extremities were the most common (30%).Common contributi

285 The extremities were the most common injury site regardless

286 tients with primary and recurrent STS of the extremities were treated at our institution and were pro

287 ut the pathology among innervation to distal extremities, where symptoms start earliest and are most

288 lusters locate relatively closer to the cell extremities, whereas in anucleated cells (deletion mutan

289 y forming highly mobile regions at the outer extremities, which collapse around the DNA when the MTas

290 ith MR lymphangiography (five of 24 affected extremities), while they were not detectable with lympho

291 es to the abdomen, neck/spine/back, or lower extremities, while children in seat belts alone had inju

292 ptake in the brain, neck, chest, pelvis, and extremities will facilitate tumor localization in those

293 proton and phosphorus MRI of the human lower extremities with high spatial and temporal resolution.

294 ive peripheral vasoconstriction of dependent extremities with redistributive hypovolemia.

295 etic resonance (MR) angiography of the lower extremities with segmented volume acquisition is present

296 ion was induced by irradiation of both lower extremities with shielding of the abdomen.

297 Radiotracer imaging of the lower extremities with techniques such as PET and SPECT can pr

298 Fifty consecutive patients (100 lower extremities) with known or suspected intermittent claudi

299 capping condition appears to affect only the extremities, with no other systemic manifestations repor

300 ever and an acute eruption of plaques on her extremities within 2 weeks of starting treatment with az