ライフサイエンスコーパス: neck

1 masses underwent computed tomography of the neck.

2 rom the parent dendritic shaft by their thin neck.

3 in anaphase, where it accumulates at the bud neck.

4 of proteins that localize to the constricted neck.

5 omain, which couples the motor domain to the neck.

6 atic squamous cell carcinoma of the head and neck.

7 atic squamous cell carcinoma of the head and neck.

8 atic squamous cell carcinoma of the head and neck.

9 del for the function of EHDs at the caveolar neck.

10 a key role for the formation of narrow spine necks.

11 multiple anatomical sites, including femoral neck (-0.08%/year per one interquartile increase; 95% CI

12 c (219/100,000 population, IRR=26), head and neck (143; 16), lung cancers (83; 9) and was lowest in b

13 Most BCCs were on the head and/or neck (1547 [40.2%]) and the trunk (1305 [33.9%]); most S

14 For the femoral neck (18 RCTs, n = 1604), isoflavone treatment showed a

15 more likely to have melanoma on the head and neck (21% vs 15%, P = .003).

16 P < 0.00001; 95% CI: 0.02, 0.05) and femoral neck (4 RCTs, n = 524) to 0.03 (P < 0.05; 95% CI: 0.00,

17 [33.9%]); most SCCs were on the head and/or neck (435 [33.4%]) and upper limbs (455 [34.9%]).

18 k enhanced the affinity of ELC1 for the MyoA neck 7- and 8-fold, respectively.

19 Upon GTP hydrolysis, dynamin breaks these necks, a reaction called membrane fission.

20 and brain injury severity using the head and neck Abbreviated Injury Score.

21 atic squamous cell carcinoma of the head and neck after disease progression on or after one previous

22 p who died from a secondary tumour (head and neck anaplastic embryonal rhabdomyosarcoma), all patient

23 in a series of patients with vessel-depleted neck anatomy.

24 ior paraspinal mediastinum, retroperitoneum, neck and adrenal gland.

25 e risk of later malignancies of the head and neck and anogenital area.

26 partment but is particularly enriched in the neck and base of dendritic spines and largely absent fro

27 as used as an indicator of patient size; for neck and body examinations, water-equivalent diameter wa

28 nting an adaptation compensating for limited neck and head mobility.

29 rfhSP-D, containing homotrimeric neck and lectin domains, was expressed in Escherichia co

30 des of the shell and the longer extension of neck and legs of the saddlebacks could have evolved to o

31 amous-cell carcinomas (oesophageal, head and neck and lung) significantly promote cancer cell prolife

32 mplanted in the SMA, covering the aneurysmal neck and overlapping the previously implanted covered st

33 grity during spindle movement across the bud neck and suggest a potential link between regulation of

34 followed by constriction of the nascent bud neck and ultimately ILV generation by vesicle fission.

35 Phenomena such as perturbation growth, necking and budding of offspring droplets from a bulk bo

36 Patients with vessel-depleted necks and failed reconstructions require alternative rec

37 ar spine, 7.4% at total hip, 7.1% at femoral neck, and 2.3% at one-third radius.

38 ar spine, 9.2% at total hip, 9.0% at femoral neck, and 2.7% at the one-third radius.

39 he 10 most commonly performed adult CT head, neck, and body examinations from 583 facilities were ana

40 ex, chemotherapy, and radiotherapy (cranial, neck, and chest) exposures achieved an area under the cu

41 otein (hsCRP) on BMD at the forearm, femoral neck, and lumbar spine.

42 living in the US with hematologic, head and neck, and lung cancers had a 9-fold higher rate of devel

43 BMD) at the lumbar spine, total hip, femoral neck, and one-third radius.

44 A and the need for grafting of the arm, head/neck, and trunk were significant predictors of HO develo

45 riate for endovascular coiling, such as wide-necked aneurysms located at branch points of major vesse

46 Each spherule's necked aperture is crowned by a striking cupped ring str

47 sy-proven LM and LMM located on the head and neck area who sought consultation for surgical managemen

48 ng function of Gin4 is taken over by the bud neck-associated protein Nba1.

49 The means +/- SDs of femoral neck BMD loss were -0.02 +/- 0.05 and 0.0 +/- 0.03 g/cm(

50 d sexual maturity, anthropometry and femoral neck BMD Z-score to control confounding effects.

51 as associated with a greater loss of femoral neck BMD.

52 esiosaurs repeatedly evolved long- and short-necked body plans [1, 2].

53 Similarly, changes in spine and femoral neck bone mineral contents (BMCs) were not significantly

54 an brown fat cells differentiated from human neck brown preadipocytes.

55 s on the management of adults after head and neck cancer (HNC) treatment, focusing on surveillance an

56 In patients with head and neck cancer (HNC), the surrounding normal salivary gland

57 +) flux on TIL effector function in head and neck cancer (HNC).

58 ents with resected locally advanced head and neck cancer (LAHNC) with negative surgical margins (SM n

59 e routinely obtained in the care of head and neck cancer and are clearly associated with patient outc

60 ty as well as invasive potential in head and neck cancer and breast cancer cells.

61 stay of treatment for patients with head and neck cancer and has traditionally involved a stage-depen

62 ese two genes, Ubiquitin C (UBC) in head and neck cancer and Transferrin receptor (TFRC) and beta-Glu

63 reatment for patients with advanced head and neck cancer can be associated with many side-effects, an

64 d with outcome when considering all head and neck cancer cases (HR for serology,0.49; 95% CI, 0.23-1.

65 sensitivity of the cisplatin-resistant head-neck cancer cell line Cal27CisR by almost 7-fold.

66 psilon led to increased survival of head and neck cancer cells under hypoxia, providing evidence that

67 med RNA-Seq of normoxic and hypoxic head and neck cancer cells.

68 al carcinoma (NPC) is an aggressive head and neck cancer characterized by Epstein-Barr virus (EBV) in

69 hods to reduce SSI in patients with head and neck cancer have been intensely researched, yielding evo

70 nagement of locoregionally confined head and neck cancer in elderly patients and propose a practical

71 Head and neck cancer in elderly patients represents a major healt

72 In head and neck cancer in particular, proton beam therapy is unique

73 n-based study of 1054 patients with head and neck cancer in the greater Boston, Massachusetts, area (

74 Head and neck cancer is one of the most prevalent cancers around

75 e for predicting patient outcome in head and neck cancer is unknown.

76 Recurrent and/or metastatic head and neck cancer is usually incurable.

77 The heterotopic syngeneic murine head and neck cancer model (mEER) caused systemic inflammation an

78 are-as-usual (CAU) in patients with head and neck cancer or lung cancer who have psychological distre

79 ng distress levels of patients with head and neck cancer or lung cancer.

80 n of chemo-radiation treatments for head-and-neck cancer patients from different risk groups.

81 One hundred twenty head and neck cancer patients underwent 0- to 30-min (18)F-FMISO

82 ility of multiparametric imaging in head and neck cancer patients.

83 rrelates with prostate, breast, and head and neck cancer recurrence.

84 mproved patient survival across all head and neck cancer sites: HR for oropharynx cancer, 0.26; 95% C

85 frequently reported in cervical and head and neck cancer specimens.

86 Head and neck cancer surgery is often a complex multi-step proced

87 the molecular profiles of many rare head and neck cancer types are unknown.

88 s have elucidated relevant genes in head and neck cancer, but HPV-related tumors have consistently sh

89 atments for patients with recurrent head and neck cancer, we reviewed the evidence on commonly used p

90 nnaire-Core 30 (QLQ-C30), the EORTC head and neck cancer-specific module (EORTC QLQ-H&N35), and the t

91 (LR) and distant metastases (DM) in head-and-neck cancer.

92 non-small-cell lung cancer, and in head and neck cancer.

93 nary management of various types of head and neck cancer.

94 (HNSCC) accounts for nearly 90% of head and neck cancer.

95 r cervical cancer and oropharyngeal head and neck cancer.

96 ((18)F-FMISO) dynamic PET (dPET) in head and neck cancer.

97 formation is available at: www.asco.org/head-neck-cancer-guidelines and www.asco.org/guidelineswiki .

98 nformation is available at www.asco.org/head-neck-cancer-guidelines and www.asco.org/guidelineswiki .

99 biology of recurrent and metastatic head and neck cancers and review implementation of precision onco

100 Head and neck cancers positive for human papillomavirus (HPV) are

101 nonsquamous, squamous cell lung or head and neck cancers who were treated with the approved PD1-targ

102 ors are relatively inefficacious in head and neck cancers, despite an abundance of genetic alteration

103 found in subregions of cervical and head and neck cancers, enable HPV-positive cancer cells to escape

104 in T-cell-inflamed tumor models of head and neck cancers.

105 alignancies, including cervical and head and neck cancers.

106 constricting and destabilizing the membrane neck, causing scission.

107 ity was assessed using the Cochrane Back and Neck (CBN) Risk of Bias tool.

108 icant growth inhibition of multiple head and neck cell lines, an effect not observed with wild-type A

109 n in squamous cell carcinoma of the head and neck contributes to treatment resistance and disease pro

110 t aneurysmal perfusion due to the incomplete neck coverage.

111 , which resulted in an incomplete aneurysmal neck covering.

112 The black-necked crane (Grus nigricollis) is the only alpine crane

113 istribution model (SDM) to analyze the black-necked crane's breeding habitats.

114 , including patient age, contralateral/bulky neck disease, increasing number of positive lymph nodes,

115 Twenty-three (18.4%) had residual neck disease.

116 ng number of positive lymph nodes, and lower neck disease.

117 4-1.52; P = .02) and a 22% increased rate of neck dissection (incident rate ratio, 1.22; 95% CI, 1.07

118 A neck dissection of a minimum of 10 LNs was required.

119 larised tissue reconstruction, and extensive neck dissection.

120 after chemoradiation do not require elective neck dissection.

121 ard movements of the hyoid and larynx in the neck during swallowing vary in magnitude between individ

122 we analyze how Gps1 is recruited to the bud neck during the cell cycle.

123 regulation in spine heads, but not bases and necks, during consolidation.

124 d in ELC1 and prebinding of MLC1 to the MyoA neck enhanced the affinity of ELC1 for the MyoA neck 7-

125 DRLs and ADs were not as strong for head and neck examinations.

126 m the gland cells into the antennule via the neck extensions of the glands, and surrounded with micro

127 5) but no effect on total hip (TH), femoral neck (FN), or total body BMD or bone biomarkers.

128 are involved in maintaining Gps1 at the bud neck from late G1 phase until midanaphase.

129 any practice performing MMS on the head and neck, genitalia, hands, and feet region of Medicare Part

130 mber of stages per case for MMS for head and neck, genitalia, hands, and feet skin cancers, which may

131 Surface treatment of the implant neck had no significant influence on crestal bone change

132 chronically sun-damaged skin on the head and neck has favorable recurrence rates when melanoma margin

133 e of approximately 16 ms, which suggests the neck has low resistance.

134 atic squamous cell carcinoma of the head and neck have few treatment options and poor prognosis.

135 veraged) adhesion, adhesion height, pull-off neck height, detachment distance, and detachment energy

136 himpanzee-human split c.8 Ma among >120 head-neck (HN) and forelimb (FL) muscles there were only four

137 ing BMD loss at the lumbar spine and femoral neck in estrogen-deficient women.

138 computed tomography (FDG-PET/CT) scan of the neck in locoregionally advanced head-and-neck squamous c

139 for inheritance and transport across the bud neck in myo2 mutants.

140 diating the scission of constricted membrane necks in multiple biological pathways.

141 1; 95% CI, 1.20 to 1.65; P < .001) and lower neck involvement (HR, 1.16; 95% CI, 1.06 to 1.27; P < .0

142 age-gated sodium channels and that the spine neck is not a significant resistance barrier.

143 The FP neck is tightly associated with the flagellum via a seri

144 hotodamaged skin, especially on the head and neck, is often characterized by poorly defined clinical

145 nced squamous cell carcinoma of the head and neck (LA-SCCHN).

146 e, independent evolutionary origins of short-necked, large-headed "pliosauromorph" body proportions a

147 hyoid elevation was predicted by pharyngeal neck length and initial hyoid distance from the mandible

148 e examined for relationships with pharyngeal neck length, and initial hyo-laryngeal positions, length

149 r calculated using both spine neck width and neck length, as well as spine head size.

150 Suprahyoid neck lesions are difficult to assess only by means of cl

151 Kinesin neck linker (NL) functions as the central mechano-chemic

152 rigin of this velocity reduction is that the neck linker of a kinesin only detaches from the motor he

153 e to docking of the approximately 13-residue neck linker to the leading head (deemed to be the power

154 However, docking of the neck linker to the leading head constrains the extent of

155 1 and -2 family motors with different length neck-linker domains.

156 While the MKLP2 neck-linker is directed towards the microtubule plus-end

157 risks include male sex, pancreatic head and neck location, larger MCN, solid component or mural nodu

158 ved surgeon postprocedure pain scores in the neck, lower back, shoulders, upper back, wrists/hands, k

159 tween metastatic and non-metastatic head and neck lymph nodes.

160 tween metastatic and non-metastatic head and neck lymph nodes.

161 rapy in squamous cell Carcinomas of Head and neck (MARCH) showed that altered fractionation radiother

162 e we report the discovery of a pregnant long-necked marine reptile (Dinocephalosaurus) from the Middl

163 role to play in the evaluation of suprahyoid neck masses as it has an excellent correlation with post

164 AL/Sixty patients presenting with suprahyoid neck masses underwent computed tomography of the neck.

165 e, 79 treatment naive patients with head and neck masses underwent magnetic resonance imaging (MRI),

166 s/wounds, hernias/hydroceles, breast masses, neck masses, obstetric fistulas, undescended testes, hyp

167 case of a free ranging population of yellow-necked mice (Apodemus flavicollis) in northern Italy, wh

168 zed adenoma on the contralateral side of the neck, missed double adenoma, and absence of any abnormal

169 erior visual field to compensate for limited neck mobility as suggested for rhinoceroses and cetacean

170 Regardless of neck morphology, carotid waveforms were captured in all

171 domain, as well as model predictions of head-neck motions.

172 neck MRI (CXR/MRI) or chest CT plus head and neck MRI (CCT/MRI).

173 trategies based on chest x-ray plus head and neck MRI (CXR/MRI) or chest CT plus head and neck MRI (C

174 Head and some neck muscles do not derive from somites, but mainly form

175 e the diaphragmatic, intercostal, spine, and neck muscles.

176 rts of the myocardium and different head and neck muscles.

177 um for lumbar spine (n = 31,800) and femoral neck (n = 32,961) BMD, and from the arcOGEN consortium f

178 henosphere, and concentrated extension (rift necking) near the central TAM range front but with negli

179 Head and neck, non-small lung and pancreas cells were exposed to

180 including capsular adhesions at the femoral neck, obliteration of the paralabral sulcus, labral defe

181 m skins of the left forearm, lower back, and neck of 20 healthy volunteers.

182 Eps15 Homology Domain (EHD) proteins at the neck of caveolae.

183 TPase that assembles into a helix around the neck of endocytic buds.

184 ge GTPase that forms a helical collar at the neck of endocytic pits, and catalyzes membrane fission.

185 lncRNAs from normal hip cartilage donated by neck of femur fracture patients.

186 is possible to provide a seven-day fracture neck of femur service with no variation in thirty-day mo

187 at cholesterol mediates M2 clustering to the neck of the budding virus to cause the necessary curvatu

188 centrated on the negative Gaussian curvature neck of the nanoscale membrane buds.

189 TANGO1 remains at the neck of the newly forming transport carrier, which grows

190 an forms a membrane diffusion barrier at the neck of the protrusion, which enables protrusion growth.

191 dependent and another pool in the bases and necks of small spines that was initiation independent.

192 sequence regions of MFN1 and resembles the 'neck' of the bacterial dynamin-like protein.

193 pes, both predominant challenges in head and neck oncology.

194 toward implementation of precision head and neck oncology.

195 e of -2.5 or lower at the total hip, femoral neck, or lumbar spine; and a history of fracture.

196 ing a complex vascular allotransplant of all neck organs including skin.

197 L4 lumbar spine vertebra (P < 0.05), femoral neck (P < 0.01), and trochanter (P < 0.01) compared with

198 rs (back pain: aOR, 1.57; 95% CI, 1.42-1.75; neck pain: aOR, 1.22; 95% CI, 1.07-1.39; arthritis: aOR,

199 diagnostic accuracy of screening (including neck palpation and ultrasound), and the benefits and har

200 In 2 studies (n = 354), neck palpation was not sensitive to detect thyroid nodul

201 n carriers (79%), particularly with head and neck paraganglioma.

202 arl guinea fowl, chukar partridges, and ring-necked pheasants.

203 stence of an optimal ecomorphology for short-necked piscivorous plesiosaurs through time and across p

204 Systematic anastomosis neck placement or thoracotomy avoidance is not a relevan

205 Despite this postcranial plasticity, short-necked plesiosaur clades have traditionally been regarde

206 t study, mice treated with targeted head and neck radiation showed a significant increase in double-s

207 ffers improved outcomes for complex head and neck reconstruction.

208 afe and reliable option for salvage head and neck reconstruction.

209 s chimeric flap (PIMOC) for salvage head and neck reconstruction.

210 This ELC bound the MyoA neck region adjacent to the MTIP-binding site, and both

211 showed that, in addition to coordinating the neck region, ELC1 appears to engage the MyoA converter s

212 nodular subtype, and located in the head and neck region.

213 es of light chains MLC1 and ELC1 on the MyoA neck (residues 775-818) using a combination of hydrogen-

214 t the soma (0.5-1 mV) and that the estimated neck resistance (mean 420 MOmega) is large enough to gen

215 cordings from spines, the influence that the neck resistance has on synaptic transmission, and the ex

216 Squamous cell carcinomas of the head and neck (SCCHN) affect anatomical sites including the oral

217 A in squamous cell carcinoma of the head and neck (SCCHN) cells and resulted in enhanced DNA synthesi

218 Dsg2 was highly up-regulated in the head and neck SCCs, and EVs isolated from sera of patients with S

219 second most common tumour in the suprahyoid neck spaces.

220 ical type of masses involving the suprahyoid neck spaces.

221 re required to precisely evaluate suprahyoid neck spaces.

222 reast cancer cells, and LU-HNSCC-25 head and neck squamous carcinoma cells in phosphate buffered sali

223 promote invasion and metastasis in head and neck squamous carcinomas (HNSCCs), a finding that unveil

224 tandard of care in locally advanced head and neck squamous cell cancer (LAHNSCC).

225 mab-resistant colorectal cancer and head and neck squamous cell cancer cell lines and in tumors from

226 r the treatment of locally advanced head and neck squamous cell cancers.

227 NSD1 define an intrinsic subtype of head and neck squamous cell carcinoma (HNSC) that features pronou

228 Head and neck squamous cell carcinoma (HNSCC) accounts for nearly

229 y and cetuximab in locally advanced head and neck squamous cell carcinoma (HNSCC) and biomarkers that

230 the potential relationship between head and neck squamous cell carcinoma (HNSCC) and microbial dysbi

231 that is frequently overexpressed in head and neck squamous cell carcinoma (HNSCC) and other cancers.

232 e was to examine whether staging of head and neck squamous cell carcinoma (HNSCC) by upfront (18)F-FD

233 ned a panel of 49 established human head and neck squamous cell carcinoma (HNSCC) cell lines and repo

234 -Small Cell Lung Cancer (NSCLC) and Head and Neck Squamous Cell Carcinoma (HNSCC) cell lines and was

235 -like phenotypes in patient-derived head and neck squamous cell carcinoma (HNSCC) cells in vitro and

236 human papillomavirus (HPV)-positive head and neck squamous cell carcinoma (HNSCC) have better respons

237 Head and neck squamous cell carcinoma (HNSCC) includes epithelial

238 Head and neck squamous cell carcinoma (HNSCC) is the sixth most c

239 ximately 6,000 single cells from 18 head and neck squamous cell carcinoma (HNSCC) patients, including

240 man papillomavirus-related (HPV(+)) head and neck squamous cell carcinoma (HNSCC) samples.

241 vasive cell growth of p53-deficient head and neck squamous cell carcinoma (HNSCC) UM-SCC-1 cells both

242 immune and metabolic phenotypes in head and neck squamous cell carcinoma (HNSCC) were assessed and c

243 is a clinically validated target in head and neck squamous cell carcinoma (HNSCC), where EGFR-blockin

244 eal a defective molecular switch in head and neck squamous cell carcinoma (HNSCC).

245 d effectively inhibit the growth of head and neck squamous cell carcinoma (HNSCC).

246 ge in the survival of patients with head and neck squamous cell carcinoma (HNSCC).

247 r with the p53 family member p63 in head and neck squamous cell carcinoma (HNSCC).

248 Invasion is a hallmark of advanced head and neck squamous cell carcinoma (HNSCC).

249 the neck in locoregionally advanced head-and-neck squamous cell carcinoma (LAHNSCC) after concurrent

250 and patients with nonoropharyngeal head and neck squamous cell carcinoma (non-OP HNSCC).

251 ety profile in recurrent/metastatic head and neck squamous cell carcinoma previously treated with pla

252 treatments for recurrent/metastatic head and neck squamous cell carcinoma refractory to platinum and

253 Critically, in head and neck squamous cell carcinoma, Fxr1 overexpression correl

254 point to CHCT/MRI in patients with head and neck squamous cell carcinoma.

255 ohistochemistry in 96 patients with head and neck squamous cell carcinoma.

256 with poor prognosis in melanoma and head and neck squamous cell carcinoma.

257 t survival of five cancers, such as head and neck squamous cell carcinoma.

258 Head and neck squamous cell carcinomas (HNSCC) exhibiting resista

259 sembled by stromal fibroblasts from head and neck squamous cell carcinomas (HNSCC).

260 Human papillomavirus (HPV)-negative head and neck squamous cell carcinomas (HNSCCs) are deadly and co

261 Head and neck squamous cell carcinomas (HNSCCs) are refractory to

262 However, more recent studies of head and neck squamous cell carcinomas (HNSCCs) suggest that inte

263 -limiting toxicity in patients with head and neck squamous cell carcinomas.

264 kinase (PI3Kalpha), are frequent in head and neck squamous cell carcinomas.

265 orthopedic surgery, otolaryngology-head and neck surgery, and neurological surgery (n = 63).

266 n to reduce the chance of SSI after head and neck surgery.

267 y, multidisciplinary, collaborative head and neck survivorship care.

268 resenting with a history of multiple chronic neck swellings was thoroughly evaluated by ultrasound (U

269 gy, often featuring a bulbous head and small neck that connects to the dendritic shaft, has been show

270 min-independent scission of tubular membrane necks, the cutting mechanism has yet to be deciphered.

271 atic squamous cell carcinoma of the head and neck, these data support nivolumab as a new standard-of-

272 Gps1 resides at the bud neck to maintain Rho1 localization and restrict Cdc42 ac

273 g and clinical investigation by imaging from neck to pelvis was offered to mutation-positive registra

274 ranged from 1.33 (joint degeneration of back/neck) to 1.69 (chronic sinusitis) when compared with 1.7

275 spine makes the synapse, whereas the narrow neck transmits the incoming signals to the dendrite and

276 isks =7 versus 3), especially among head and neck tumor survivors (absolute excess risks =30 versus 1

277 eas at any age, every year, 0.2% of head and neck tumor survivors were hospitalized for a cerebral in

278 For head and neck tumor survivors, this excess risk remains high acro

279 Survivors of a CNS tumor, head and neck tumor, and leukemia are particularly at risk of hos

280 f age, 9%, 6%, and 5% of CNS tumor, head and neck tumor, and leukemia survivors, respectively, had be

281 95% confidence interval, 4.3-5.0), head and neck tumors (SHR=2.6, 95% confidence interval, 2.2-3.1),

282 Head and neck tumors were independently associated with a higher

283 with advanced, treatment-resistant head and neck tumors, including squamous cell carcinoma (HNSCC),

284 tation events in breast, liver, and head and neck tumors.

285 reduce intraoperative bleeding for head and neck tumours.

286 for all body sites evaluated (face, back of neck, upper chest, arms, and legs), the umbrella group s

287 Although ultrasonography of the neck using high-risk sonographic characteristics plus fo

288 ts the shoulder, the pelvic girdles, and the neck, usually in individuals older than 50 years.

289 ) in major splanchnic, thoracoabdominal, and neck vessels by using phase-contrast magnetic resonance

290 l in major splanchnic, thoracoabdominal, and neck vessels were estimated by using phase-contrast MR i

291 (68)Ga-DOTATATE PET/CT of the neck was performed before surgery.

292 s Capsular adhesions at the anterior femoral neck were present in 12 of the 34 patients (35%), and th

293 d capsular adhesions at the anterior femoral neck were present in 35% of patients in both groups.

294 d (GBAE) PS implants with and without a MACH neck were randomly inserted in each hemimandible, positi

295 Fracture loads at the femoral neck were significantly reduced for cecal ligation and p

296 , 806 patients with melanoma on the head and neck, where clinical occult extension is common, were st

297 mation of the constricted shape of the spine neck, which in turn controls communication between the s

298 atic squamous cell carcinoma of the head and neck who progressed within 6 months after platinum-based

299 zed shape factor calculated using both spine neck width and neck length, as well as spine head size.

300 fusion out to the dendrite through the spine neck with a half-removal time of approximately 16 ms, wh