ライフサイエンスコーパス: thoracic

1 ntly in patients undergoing vascular (7.7%), thoracic (6.5%), and transplant surgery (6.3%).

2 were increased in human sporadic descending thoracic AAD (TAAD) samples.

3 Anterior-posterior thoracic amplitude, SUVmax, and SUVpeak (SUVmean in a 1-

4 8.9+/-10.3 years), who underwent noncontrast thoracic and abdominal multidetector computed tomography

5 ility and safety of the recovery of multiple thoracic and abdominal organs with multiple vascular com

6 y of Transplantation Liver and Intestine and Thoracic and Critical Care Communities of Practice, prov

7 ly localizes vertebral body fractures in the thoracic and lumbar spine on CT images with a high sensi

8 A total of 210 thoracic and lumbar vertebrae showed compression fractur

9 ession fractures and measure bone density of thoracic and lumbar vertebral bodies on computed tomogra

10 Overall, the patients underwent 2103 thoracic and nonthoracic MRI examinations that were deem

11 or muscle and a wide spectrum of ipsilateral thoracic and upper extremity deformities.

12 pinal cord and migrate caudally to the lower thoracic and upper lumbar regions.

13 mation and progression within the ascending, thoracic, and abdominal aorta.

14 ons (25 [17%] vs 21 [14%]), and respiratory, thoracic, and mediastinal disorders (13 [9%] vs 17 [12%]

15 LPA2, LPA4, and LPA6 In endothelium-denuded thoracic aorta (TA) and abdominal aorta (AA) segments, 1

16 alloon Occlusion of the Aorta (REBOA) at the thoracic aorta (Zone 1) can limit subdiaphragmatic blood

17 Enlarged ascending thoracic aorta and descending thoracic aorta were not si

18 pG hypermethylation within the dilated human thoracic aorta and in SMCs cultured from these tissues,

19 Progressive disease course (P=0.017), thoracic aorta involvement (P=0.009), and retinopathy (P

20 The ascending thoracic aorta is designed to withstand biomechanical fo

21 repair of aortic aneurysms of the descending thoracic aorta thoracic endovascular aortic repair (TEVA

22 rged ascending thoracic aorta and descending thoracic aorta were not significantly associated with CV

23 symphysis pubis to aortic zone I (descending thoracic aorta) and zone III (infrarenal aorta).

24 , including aneurysms and dissections of the thoracic aorta, are a major cause of morbidity and morta

25 cumulation of aggrecan and a dilation of the thoracic aorta, confirming that aggrecanase activity reg

26 natomically defined locations: the ascending thoracic aorta, descending thoracic aorta, the infrarena

27 siform enlargement of the root and ascending thoracic aorta, leading to ascending aortic dissections.

28 ns: the ascending thoracic aorta, descending thoracic aorta, the infrarenal abdominal aorta, and lowe

29 n the mesenteric circulation compared to the thoracic aorta.

30 ng electron microscopic images of normal rat thoracic aorta.

31 less newly synthesis of IkappaBalpha mRNA in thoracic aortas (gestational day 20, postnatal week 7 an

32 We examined by immunofluorescence microscopy thoracic aortas from 16 simian immunodeficiency virus (S

33 in-angiotensin system (RAS) over-activity in thoracic aortas, resulting in reduced blood pressure in

34 el tone of porcine coronary arteries and rat thoracic aortas.

35 issection (AoD) is a serious complication of thoracic aortic aneurysm (TAA).

36 iscusses published data on genes involved in thoracic aortic aneurysm and attempts to explain diverge

37 A genetic predisposition to thoracic aortic aneurysm has been established, and gene

38 modern understanding of the pathogenesis of thoracic aortic aneurysm is quite limited.

39 genes known to be associated with BAV and/or thoracic aortic aneurysm was performed.

40 condition, which is commonly associated with thoracic aortic aneurysm.

41 Genetic aortopathy (GA) underlies thoracic aortic aneurysms (TAA) in younger adults.

42 Thoracic aortic aneurysms and acute aortic dissections (

43 al registry of GenTAC (Genetically Triggered Thoracic Aortic Aneurysms and Cardiovascular Conditions)

44 lood Institute GenTAC (Genetically Triggered Thoracic Aortic Aneurysms and Cardiovascular Conditions)

45 most common genetic alterations for familial thoracic aortic aneurysms and dissections (TAAD) are mis

46 Thoracic aortic aneurysms and dissections (TAAD) represe

47 Heritable thoracic aortic aneurysms and dissections (TAAD), includ

48 patients with conditions that predispose to thoracic aortic aneurysms and dissections, including MFS

49 SNPs at the FBN1 locus associated with both thoracic aortic aneurysms and dissections.

50 esponsible for 25% of families with familial thoracic aortic aneurysms and dissections.

51 mutation responsible for a large family with thoracic aortic aneurysms and dissections.

52 ACTA2, are the most common cause of familial thoracic aortic aneurysms that lead to dissection (TAAD)

53 smooth muscle isoform of alpha-actin, cause thoracic aortic aneurysms, acute aortic dissections, and

54 at underwent elective surgery for descending thoracic aortic aneurysms.

55 ective Aortic Arch Perfusion (SAAP) combines thoracic aortic balloon hemorrhage control with intra-ao

56 echocardiography and gated contrast-enhanced thoracic aortic computed tomography or magnetic resonanc

57 The altered genes predisposing to thoracic aortic disease either disrupt smooth muscle cel

58 Risk factors for thoracic aortic disease include increased hemodynamic fo

59 he Diagnosis and Management of Patients With Thoracic Aortic Disease" and the "2014 AHA/ACC Guideline

60 lly defective aorta is the primary driver of thoracic aortic disease, and that TGF-beta overactivity

61 significantly associated with development of thoracic aortic disease.

62 t rare genetic variants in LOX predispose to thoracic aortic disease.

63 nal molecular pathway that leads to familial thoracic aortic disease.

64 fied potential therapeutic agents to prevent thoracic aortic disease.

65 Thoracic aortic diseases, including aneurysms and dissec

66 nters worldwide that specialize in heritable thoracic aortic diseases, was used to gather data on 441

67 ing specifically with non-familial, sporadic thoracic aortic dissection (STAD) and compared them to t

68 conditions in abdominal aortic aneurysms and thoracic aortic dissections to thrombosis in stenotic ar

69 ion associated with spinal cord injury after thoracic aortic ischemia-reperfusion (TAR) in mice.

70 RATIONALE: The thoracic aortic wall can degenerate over time with catas

71 ture SMC senescence, with relevance to human thoracic aortopathy.

72 loss of specialization in both abdominal and thoracic appendages.

73 Bilateral internal thoracic arteries (BITA) have demonstrated superior pate

74 to compare survival after bilateral internal thoracic artery (BITA) over single left internal thoraci

75 ; stenosis was quantified for 7,903 internal thoracic artery (ITA) grafts and 20,066 saphenous vein g

76 g (MAG) vs the standard use of left internal thoracic artery (LITA) supplemented by saphenous vein gr

77 score-matched recipients of a right internal thoracic artery (n=1576) or a radial artery (n=4290).

78 acic artery (BITA) over single left internal thoracic artery (SITA).

79 with similar mortality rates (right internal thoracic artery 10.3% versus radial artery 10.7% at 7 ye

80 terial conduits other than the left internal thoracic artery are seldom used in the United States.

81 A right internal thoracic artery graft offered no benefit over that of a

82 on with radial artery grafts, right internal thoracic artery grafts were associated with similar mort

83 ed a second arterial conduit (right internal thoracic artery or radial artery, n=5866) or a venous co

84 rtery bypass grafting with the left internal thoracic artery, and who received a second arterial cond

85 ence between those receiving single internal-thoracic-artery grafts and those receiving bilateral int

86 rafts and those receiving bilateral internal-thoracic-artery grafts with regard to mortality or the r

87 s compared with the use of a single internal-thoracic-artery plus vein grafts.

88 /Japanese Respiratory Society/Latin American Thoracic Association guidelines (81.3%), usual interstit

89 metabolized less quercetin and produced less thoracic ATP, the energy source for flight muscles.

90 F) is a common side effect for patients with thoracic cancer receiving radiation therapy.

91 al information is available at: www.asco.org/thoracic-cancer-guidelines and www.asco.org/guidelineswi

92 thoracic duct of these mice could enter the thoracic cavity by retrograde flow into enlarged paraver

93 ume between 60 and 250 mL suctioned from the thoracic cavity in a period of 5 minutes) were randomize

94 se models, the path chyle takes to reach the thoracic cavity is unclear.

95 ravasates from these plexuses and enters the thoracic cavity through exfoliated regions of the pleura

96 io 1.0 or less and liver herniation into the thoracic cavity.

97 acting pulmonary embolism (PE) findings from thoracic computed tomography (CT) reports from two insti

98 4 cm, who also had a gated contrast-enhanced thoracic computed tomography or magnetic resonance angio

99 metry, chest radiograph, and high-resolution thoracic computerized tomography scans.

100 Patients with isolated thoracic cord myelitis at the time of pain onset were si

101 ammatory disease with a predilection for the thoracic cord.

102 Persistent, caudally located (ie, thoracic) cord lesions in AQP4-Ab-positive patients asso

103 (1) global calcification (defined by aortic, thoracic, coronary, and valvular calcification); (2) adi

104 In all thoracic CT examinations of the chest at least parts of

105 nty eight patients with pleural effusions on thoracic CT who underwent thoracentesisis within two wee

106 is unknown how patients with smoking-related thoracic diseases or their surrogates display future-ori

107 d injections of dextran-amine were made into thoracic DRGs (T8-T12).

108 : 2 patients (8%) with traumatic leak from a thoracic duct (TD) branch, 14 patients (56%) with pulmon

109 Intranodal lymphangiogram and thoracic duct catheterization was successful in all pati

110 sults from retrograde flow of chyle from the thoracic duct into lymphatic tributaries with defective

111 Although retrograde flow of chyle from the thoracic duct is considered a potential mechanism underl

112 phatic network in the zebrafish, whereas the thoracic duct is initially dispensable for lymphatic fun

113 luorescent tracer revealed that lymph in the thoracic duct of these mice could enter the thoracic cav

114 either lymphatic embolization procedures or thoracic duct stenting with covered stents to exclude re

115 onstrated retrograde lymphatic flow from the thoracic duct toward lung parenchyma.

116 f trunk lymphatic vessels and did not form a thoracic duct.

117 as well as in the genetic diseases short-rib thoracic dysplasia, Mohr-syndrome and amyotrophic latera

118 d in mainland China between 2008 and 2015 on thoracic endovascular aortic repair (TEVAR) for type B a

119 c aneurysms of the descending thoracic aorta thoracic endovascular aortic repair (TEVAR) is relativel

120 eating type A (ascending aorta) AAS, whereas thoracic endovascular aortic repair may be optimal for t

121 tive of this randomized trial was to compare thoracic epidural analgesia (TEA) to intravenous patient

122 Thoracic epidural anesthesia resulted in a significant d

123 ry, was tested before and after induction of thoracic epidural anesthesia using combined pressure-con

124 sed afterload were the same before and after thoracic epidural anesthesia.

125 ignals from the brain to the spinal cord (or thoracic ganglia in insects).

126 neurons projecting to the labrum, brain, and thoracic ganglion have received less attention.

127 s who underwent inpatient general, vascular, thoracic, genitourinary, neurosurgical, orthopedic, or s

128 ed 24 adult-specific NB lineages within each thoracic hemineuromere of the larval ventral nervous sys

129 was assessed by means of serial cardiac and thoracic imaging.

130 that is possible that neuroglial loss from a thoracic inflammatory process results in anterograde and

131 examination, 39% (574 of 1461) had signs of thoracic injuries (men, 74.0% [425 of 574]; mean age, 46

132 in lung transplant recipients from the same thoracic intensive care unit (ICU).

133 We report the discovery of male-specific thoracic interneurons-the TN1A neurons-that are required

134 patients with mesothelioma after large-bore thoracic interventions is not justified.

135 leotidase CD73 in fibrosis development after thoracic irradiation.

136 s a potentially lethal late adverse event of thoracic irradiation.

137 ting side effect that occurs in up to 30% of thoracic irradiations in breast and lung cancer patients

138 n a mouse model of inducible pneumonia, high thoracic lesions that interrupt sympathetic innervation

139 Cervical and thoracic lesions that persisted from pain onset to 'out

140 ervation to major immune organs, but not low thoracic lesions, significantly increased bacterial load

141 ogenic effect was more pronounced after high-thoracic level (Th1) SCI disconnecting adrenal gland inn

142 adrenal gland innervation, compared with low-thoracic level (Th9) SCI.

143 bjects at the aqueduct, in 11/12 subjects at thoracic level 2, and in 4/12 subjects at thoracic level

144 ury (SCI) at high spinal levels (e.g., above thoracic level 5) causes systemic immune suppression; ho

145 at thoracic level 2, and in 4/12 subjects at thoracic level 5.

146 a transition in facet morphology at the 11th thoracic level.

147 all had zygapophyseal facets that shift from thoracic-like to lumbar-like at the penultimate rib-bear

148 Over the course of infection, granulomas and thoracic lymph nodes experienced dynamic changes in affi

149 nectomy, and group 3-a minimal abdominal and thoracic lymphadenectomy.

150 Purpose To summarize existing evidence of thoracic magnetic resonance (MR) imaging in determining

151 The use of bilateral internal thoracic (mammary) arteries for coronary-artery bypass g

152 occasional asphyxia over 10 seconds with no thoracic motion after a desaturation episode.

153 ime a thoracic surgeon ordered a nonvascular thoracic MR imaging study via radiology order entry, he

154 propriate cases, assessment with nonvascular thoracic MR imaging substantially affects the clinical d

155 A thorough visual inspection of the thoracic MR-AC map and Dixon images from which it is der

156 uated the quality of current vendor-provided thoracic MR-AC maps and further investigated the reprodu

157 Artifacts occur frequently in standard thoracic MR-AC maps, affecting the reproducibility of PE

158 During larval life most of the thoracic neuroblasts (NBs) in Drosophila undergo a secon

159 the larval hemilineage tracts for all three thoracic neuromeres through metamorphosis into the adult

160 g to 3 groups: group 1-exclusion of proximal thoracic nodes, group 2-a minimal abdominal lymphadenect

161 or the formation of the insect wing from the thoracic notum as well as the already known pleural elem

162 s), supporting their overall origin from the thoracic notum as well as the expected medial, pleural s

163 ne of wings representing an extension of the thoracic notum, the other stating that they are appendic

164 , from inside and outside of the Assembly on Thoracic Oncology.

165 ns, continues to affect a high proportion of thoracic organ transplant recipients.

166 by increased age, white race, male sex, and thoracic organ transplantation.

167 es (3%), paroxysmal atrial tachycardia (3%), thoracic pain (3%), upper gastrointestinal hemorrhage (3

168 increasingly complex abdominal injuries and thoracic, peripheral vascular, and orthopedic injuries.

169 ble non-small cell lung cancer underwent 2-5 thoracic PET/MRI scan-rescan examinations within 22 d.

170 gh-mortality inpatient general, vascular, or thoracic procedures.

171 bstructive pulmonary disease (COPD) based on thoracic quantitative computed tomographic (QCT) paramet

172 chemotherapy regimens used concurrently with thoracic radiation for patients with unresectable IIIA a

173 ts with non-small-cell lung cancer receiving thoracic radiation.

174 A thoracic radiologist annotated 89 semantic image feature

175 For each tumor, a thoracic radiologist recorded 87 semantic image features

176 Three experienced thoracic radiologists identified true locations of nodul

177 The reproducibility and accuracy of thoracic radiologists in classifying whether or not a no

178 een no previous study on the efficacy of the thoracic radiotherapy (TRT) in oligometastatic or polyme

179 ) of 24 patients who had previously received thoracic radiotherapy had any recorded pulmonary toxicit

180 Three (13%) patients with previous thoracic radiotherapy had treatment-related pulmonary to

181 therapy and 24 (25%) of 97 patients received thoracic radiotherapy.

182 sus 29 (40%) of 73 patients with no previous thoracic radiotherapy.

183 They increase thoracic rigidity [8], which decreases speed of locomoti

184 vents were relatively common after high-dose thoracic RT and were independently associated with both

185 ithin the largest cerebral artery after high-thoracic SCI, leading to increased stiffness and possibl

186 y hominins, to date, no complete cervical or thoracic series has been recovered.

187 tored by bending specialised elements of the thoracic skeleton that are composites of the rubbery pro

188 activation of afferent nerves in the dorsal thoracic skin of the mouse.

189 The American Thoracic Society (ATS) created a multidisciplinary ad ho

190 The goals of this Official American Thoracic Society (ATS) Research Statement are to discuss

191 a collaborative effort between the American Thoracic Society and the American College of Chest Physi

192 a collaborative effort between the American Thoracic Society and the American College of Chest Physi

193 The Pediatric Assembly of the American Thoracic Society assembled an interdisciplinary workgrou

194 The American Thoracic Society committee on Proficiency Standards for

195 The American Thoracic Society convened a multistakeholder committee w

196 measured FE NO50 in accordance with American Thoracic Society guidelines, 2005 (off-line excluded); r

197 18 years or older in Malawi, using American Thoracic Society standard spirometry, internationally va

198 A task force supported by the American Thoracic Society, Centers for Disease Control and Preven

199 the NHLBI, in partnership with the American Thoracic Society, convened a workshop of investigators i

200 American Academy of Pediatrics, the Canadian Thoracic Society, the International Union Against Tuberc

201 An American Thoracic Society-sanctioned guideline development commit

202 d according to the standards of the American Thoracic Society.

203 ording to the mapping system of the American Thoracic Society.

204 The American Thoracic Society/American College of Chest Physicians re

205 ions between SA (as defined by 2014 American Thoracic Society/European Respiratory Society guidelines

206 ally classified as IPF according to American Thoracic Society/European Respiratory Society/Japanese R

207 NTM disease was defined by 1) American Thoracic Society/Infectious Disease Society of America c

208 We applied the American Thoracic Society/Infectious Disease Society of America c

209 emarkable for mild cerebellar and noticeable thoracic spinal cord atrophy.

210 The thoracic spinal cord is intrinsically susceptible to isc

211 MNs) and Renshaw cells (RCs) is disrupted by thoracic spinal cord transection at postnatal day 5 (P5T

212 OEC transplants acutely after a complete low-thoracic spinal cord transection in adult rats.

213 At the lesion epicenter (mid-thoracic spinal cord), the microenvironment created by C

214 l branches but sympathetically denervated by thoracic spinal pithing, cardiac chronotropic vagal tone

215 umbar and pelvic) studies, especially in the thoracic spine and thoracic wall, pelvic and shoulder gi

216 o our facility for evaluation of findings on thoracic spine radiographs obtained at a peripheral hosp

217 pondylodiscitis included: involvement of the thoracic spine, involvement of 2 or more adjacent verteb

218 (fl/fl) mice had a severely deformed curved thoracic spine, with an associated loss of trabecular bo

219 Thus, thoracic staging with PET/MRI bears a risk of missing sm

220 homeotic transformation of the fly head into thoracic structures.

221 uly 16, 2013, and July 13, 2015, each time a thoracic surgeon ordered a nonvascular thoracic MR imagi

222 e stroke was defined according to Society of Thoracic Surgeons (STS) criteria as any confirmed neurol

223 Clinical data were obtained and Society of Thoracic Surgeons (STS) score was calculated.

224 raphy data were recorded, and the Society of Thoracic Surgeons (STS) score was calculated.

225 (7) years; 582 (59.1%) men; mean Society of Thoracic Surgeons (STS) score, 11.4% (4.0%); and mean LV

226 The Society of Thoracic Surgeons (STS)/American College of Cardiology T

227 US Census, US News Top Hospitals, Society of Thoracic Surgeons composite rating for coronary artery b

228 al heart disease operation in the Society of Thoracic Surgeons Congenital Heart Surgery Database betw

229 essive intervention with skilled cardiac and thoracic surgeons may improve chances of stroke-free sur

230 theter Valve Therapy Registry and Society of Thoracic Surgeons National Database linked to Medicare a

231 (mean age, 79+/-9 years; 44% men; Society of Thoracic Surgeons predicted risk mortality score, 6.7+/-

232 We hypothesized that if the Society of Thoracic Surgeons Predicted Risk of Mortality (STS PROM)

233 .1% (IQR 3.6-12.8) and the median Society of Thoracic Surgeons predicted risk of mortality for mitral

234 ched intermediate- and high-risk (Society of Thoracic Surgeons Predicted Risk of Mortality score >/=3

235 n age 82 years, 48% women, median Society of Thoracic Surgeons Predicted Risk of Mortality score 5.6%

236 considered an alternative to the Society of Thoracic Surgeons Predicted Risk of Mortality score for

237 Compared with the Society of Thoracic Surgeons Predicted Risk of Mortality score, the

238 its predictive accuracy with the Society of Thoracic Surgeons Predicted Risk of Mortality score.

239 years, 64.9% were women, the mean Society of Thoracic Surgeons Predicted Risk of Mortality was 5.5 +/

240 The Society of Thoracic Surgeons Predicted Risk of Mortality was 7.3 +/

241 The Society of Thoracic Surgeons predicted risk of mortality was 9.6 +/

242 at intermediate risk for surgery (Society of Thoracic Surgeons Predicted Risk of Mortality, 4.5+/-1.6

243 , nonagenarians had a higher mean Society of Thoracic Surgeons Predicted Risk of Operative Mortality

244 Addition of gait speed to the Society of Thoracic Surgeons predicted risk resulted in a C statist

245 filtration rate, and higher mean Society of Thoracic Surgeons score (9.0% vs. 8.0%; all p < 0.001).

246 On Cox analysis, a higher Society of Thoracic Surgeons score (hazard ratio 1.55), higher base

247 nsformed BNP to a clinical model (Society of Thoracic Surgeons score and baseline right ventricular s

248 Society of Thoracic Surgeons score and cardiovascular death were re

249 orsening eGFR had a higher median Society of Thoracic Surgeons score and left ventricle mass.

250 Society of Thoracic Surgeons score and right ventricular systolic p

251 A total of 248 patients with mean Society of Thoracic Surgeons score of 8.9 +/- 6.8% underwent TMVR.

252 f % age-sex-predicted METs to the Society of Thoracic Surgeons score resulted in significant reclassi

253 nclusion of GDF-15 and CRP to the Society of Thoracic Surgeons score significantly improved C index (

254 was 78.9 +/- 10.2 years, and mean Society of Thoracic Surgeons score was 9.1 +/- 4.7%.

255 Society of Thoracic Surgeons score was calculated.

256 The Society of Thoracic Surgeons score was calculated.

257 lity included alternative access, Society of Thoracic Surgeons score, and disabling stroke.

258 statistic for the clinical model (Society of Thoracic Surgeons score, degree of aortic regurgitation,

259 /=10 cm(2)/m to a clinical model (Society of Thoracic Surgeons score, inherited aortopathies, hyperte

260 The Society of Thoracic Surgeons score, left ventricular ejection fract

261 Mean Society of Thoracic Surgeons score, left ventricular ejection fract

262 At baseline, mean Society of Thoracic Surgeons score, LV ejection fraction, mean aort

263 on of mortality when added to the Society of Thoracic Surgeons score.

264 ar Angiography and Interventions, Society of Thoracic Surgeons, and American Association for Thoracic

265 tion Physician Masterfile and the Society of Thoracic Surgeons-Congenital Heart Surgery Database to e

266 After adjustment for Society of Thoracic Surgeons-recognized risk factors, women had sig

267 decision making and diagnostic certainty of thoracic surgeons.

268 tient data were obtained from the Society of Thoracic Surgeons/American College of Cardiology Transca

269 National data from the Society of Thoracic Surgeons/American College of Cardiology Transca

270 ne 2014) and were included in the Society of Thoracic Surgeons/American College of Cardiology Transca

271 onal Cardiovascular Data Registry Society of Thoracic Surgeons/American College of Cardiology Transca

272 tenosis who underwent TAVR in the Society of Thoracic Surgeons/American College of Cardiology Transca

273 ODS AND We analyzed data from the Society of Thoracic Surgeons/American College of Cardiology Transca

274 METHODS AND Using the Society of Thoracic Surgeons/Transcatheter Valve Therapy Registry l

275 nary artery bypass surgery at 663 Society of Thoracic Surgery Database participating sites (January 1

276 from the Netherlands Association for Cardio-Thoracic Surgery database.

277 years (55.8% men), with a median Society of Thoracic Surgery predicted risk of mortality of 6.1% (in

278 The mean Society for Thoracic Surgery score was 6.4 +/- 5.5%; 86% of patients

279 ed with the early development of general and thoracic surgery to which he contributed.

280 racic Surgeons, and American Association for Thoracic Surgery, along with key specialty and subspecia

281 of the anticipated need for postchemotherapy thoracic surgery.

282 Data from the Society of Thoracic Surgery/American College of Cardiology Transcat

283 /-8.2 years; 60% women; mean STS [Society of Thoracic Surgery] score 8.1+/-5.5%).

284 s study was to examine the influence of high-thoracic (T3 spinal segment) SCI on cerebrovascular stru

285 /TSP patients followed longitudinally showed thoracic thinning followed by cervical thinning.

286 xons, leading to the temporal progression of thoracic to cervical atrophy described here.

287 In cases of recurrent CMV in thoracic transplant patients after a disease- and drug-f

288 pedics, otolaryngologic, plastic, podiatric, thoracic, transplant, urologic, and peripheral vascular.

289 y, combining the fracture with an additional thoracic trauma.

290 ions and 19.9% (114 of 574) in patients with thoracic trauma.

291 nockout of Abd-B resulting in an animal with thoracic type legs along what would have been an abdomen

292 een clear is whether Australopithecus had 12 thoracic vertebrae as in most humans, or 13 as in most A

293 inal cord, which terminates midway along the thoracic vertebrae before giving rise to a long and exte

294 vical vertebrae and provides evidence for 12 thoracic vertebrae with a transition in facet morphology

295 The exceptions were the atlas and mid-thoracic vertebrae, which remained at the 5- to 6-year s

296 the only known complete hominin cervical and thoracic vertebral column before 60,000 years ago.

297 sites of dorsal amniotic closure and ventral thoracic wall formation.

298 tudies, especially in the thoracic spine and thoracic wall, pelvic and shoulder girdles, and peripher

299 the body of the embryo and distribute to the thoracic wall, pharyngeal arches and heart.

300 carina and the aortic valve, divided by the thoracic width, was found to be the best performing rati