ライフサイエンスコーパス: blood supply

1 by which cancer cells attract and maintain a blood supply.

2 ution process of SS1P that is independent of blood supply.

3 , and whether they represent a threat to the blood supply.

4 is used to calculate relative bone and organ blood supply.

5 e that directly regulates vasorelaxation and blood supply.

6 rs early placentation and development of its blood supply.

7 hould be based on tissue characteristics and blood supply.

8 to directly damaging target cells and their blood supply.

9 that restrict tumorigenesis by targeting the blood supply.

10 mated collection technologies to enhance the blood supply.

11 age the development of methods to screen the blood supply.

12 nd fetal trophoblast cells that remodels the blood supply.

13 ntain hypoxic subregions due to insufficient blood supply.

14 ariety of factors, including common coronary blood supply.

15 continuous trophic support for their retinal blood supply.

16 essures on the availability of an affordable blood supply.

17 demic areas represents a major threat to the blood supply.

18 all capable of isolating the retina from its blood supply.

19 e of vaso-occlusive thrombi that limit tumor blood supply.

20 spread fears about compromised safety of the blood supply.

21 cumulated in watershed areas of low arterial blood supply.

22 the embryo is exposed to oxygen through its blood supply.

23 el activator, directly into the EBZ coronary blood supply.

24 ux, is likely to be secondary to an impaired blood supply.

25 tivation steps to ensure a safe and adequate blood supply.

26 involved staged unifocalization of pulmonary blood supply.

27 esion with marked heterogeneity of pulmonary blood supply.

28 sification because of its exclusive arterial blood supply.

29 hy assessed stenosis severity and collateral blood supply.

30 ernal arteries to increase the fetoplacental blood supply.

31 sent a potential threat to the safety of the blood supply.

32 lid tumor growth through modulation of tumor blood supply.

33 and flow voids; and angiograms, for tumoral blood supply.

34 transmission, and securing the safety of the blood supply.

35 protect the brain during a transient loss of blood supply.

36 has both hepatic arterial and portal venous blood supply.

37 ng surgical trauma to the sinus node and its blood supply.

38 t public health, including the safety of the blood supply.

39 during tumor cell invasion and regulation of blood supply.

40 ls and closely influenced by innervation and blood supply.

41 m by which tumors cells may gain access to a blood supply.

42 dequate matching between metabolic needs and blood supply.

43 er strategy because neoplasms require a rich blood supply.

44 re entering the liver and the wider systemic blood supply.

45 FR2 trafficking and thereby starve cancer of blood supply.

46 at they must first secure adequate access to blood supply.

47 eatest immediate threat to the safety of the blood supply.

48 in nonhealing diabetic ulcers is an impaired blood supply.

49 se a significant contamination threat to the blood supply.

50 measurements of time-activity curves in the blood supply.

51 uction of costly control measures to protect blood supplies.

52 tumors initiate and maintain their aberrant blood supplies.

53 s that share portal, hepatic, and mesenteric blood supplies.

54 als and novel strategies for targeting tumor blood supplies.

55 d from its normal choroidal and intraretinal blood supplies.

56 grafts that receive both arterial and venous blood supplies.

57 forces in tumoural regions furthest from the blood supply act to favour cells whose metabolism is bes

58 manipulate the host vasculature to provide a blood supply adequate for their proliferation.

59 nt threat of the ZIKV epidemic to the global blood supply also demands novel therapeutics to stop vir

60 343 umbilical cords reflecting the newborn's blood supply and 5240 children aged 7 years were analyse

61 As tumors outgrow their blood supply and become hypoxic, their redox homeostasis

62 ur results indicate a tight coupling between blood supply and brain functional topology during rest a

63 chanisms that affect myocardial function and blood supply and by the tendency toward thrombosis in di

64 iate clotting, thereby occluding the tumor's blood supply and causing rapid tumor destruction.

65 Narial blood supply and cavernous tissue corroborate the rostra

66 We aimed to review the state of the blood supply and elucidate unique country-specific chall

67 e essential for monitoring the safety of the blood supply and evaluating the potential effect of new

68 functioning organ that must maintain its own blood supply and grow and respond to the physiologic nee

69 transmitted HCV infection in the battlefield blood supply and may lead to earlier diagnosis and linka

70 , a cardiac insult causes a mismatch between blood supply and metabolic demands of organs.

71 d integration of the root with the jaw bone, blood supply and nerve innervations.

72 c indicators and data points used to compare blood supply and safety across countries.

73 A mismatch between myocardial blood supply and systemic ventricular work demand has be

74 edical process because it can acutely reduce blood supply and tissue oxygenation.

75 ould be expected to block the existing tumor blood supply and to prevent tumor neovascularization.

76 h, in turn, depends on the size, morphology, blood supply and transporter abundance of the placenta a

77 Appropriate blood supply and vascular development are necessary in d

78 uced by DLL4-Notch signaling increased tumor blood supply and were insensitive to bevacizumab.

79 sis of tumor cells, destruction of the tumor blood supply, and activation of the immune system.

80 d procedures that improved the safety of the blood supply, and held criminal judicial investigations

81 e as the most important conduits for digital blood supply, and incompleteness may lead to digital isc

82 Neoplastic growth is usually dependent on blood supply, and it is commonly accepted that this is p

83 Adenosine coordinates organ metabolism and blood supply, and it modulates immune responses.

84 ytes survive, differentiate, grow, develop a blood supply, and spontaneously contract within the wall

85 nderlying pancreatic pathology, the regional blood supply, and surgeon's experience.

86 red to drive the blood flow, to maintain the blood supply, and to support smooth muscle tone.

87 itric oxide has a role in maintaining tumour blood supply, and we provide early clinical evidence tha

88 ors that enable them to commandeer their own blood supply (angiogenesis), and blocking the action of

89 ing from disease-specific intrinsic flaws in blood supply, angiogenesis, and matrix turnover to extri

90 ssion and sterility maintenance, the world's blood supplies are generally safe.

91 When conventional blood supplies are inadequate, allogeneic umbilical cord

92 Thus, anatomic compartments with ample blood supply are less frequently infected and recover mo

93 infectious agents that pose a threat to the blood supply are not limited to viruses, but include bac

94 The blood supply arose predominantly from the external carot

95 in may involve multiple factors, such as the blood supply (arteries), blood drainage (veins), and ske

96 r children and the elderly, who have limited blood supplies, as well as animal studies in small mamma

97 on endothelial cells not only for oxygenated blood supply but also for local protective signals that

98 "improvements" may reduce the safety of the blood supply by introducing new risks.

99 h SPECT and PET, the reserve capacity of the blood supply can be tested in obstructive arterioscleros

100 t the aorta cells themselves, apart from the blood supply, cause the induction of Ptf1a in dorsal end

101 for Health Research and Development, Sanquin Blood Supply, Chest Heart and Stroke Scotland, French Mi

102 stinal tract, as the majority of the liver's blood supply comes from the intestine through the portal

103 Ensuring the safety of the blood supply connects politics and science.

104 ate these cellular processes, limitations in blood supply could induce similar effects.

105 Because of public concern about blood-supply decisions made in the 1980s, developed coun

106 Second, inhibiting blood supply drives the intra-tumoural accumulation of h

107 ng a potential mechanism for regulating host blood supply during feeding.

108 is coopted vasculature serves as a source of blood supply during the initial phase of tumor growth.

109 rker, we characterized the early increase in blood supply (EIBS) in human beings in vivo.

110 tion in supporting matrix, showing increased blood supply even in the face of acute matrix metallopro

111 The choroid plexus calcifies and its blood supply falters.

112 brid vasculature that amplifies the maternal blood supply for fetal development.

113 Tumors require a blood supply for growth and hematogenous dissemination.

114 occurs when the heart receives insufficient blood supply for its metabolic demand (ischemia).

115 Both tumors and normal tissues need a blood supply for oxygen, nutrients, and waste removal.

116 Because endometriotic lesions require new blood supply for survival, inhibiting angiogenesis could

117 We hypothesize that IRI is avoidable if the blood supply for the organ is not stopped, thus resultin

118 ablation of the choriocapillaris, the major blood supply for the outer retina and photoreceptor cell

119 CM) of natural pulp and securing an adequate blood supply for the survival of cell transplants are ma

120 Pertinent muscles, blood supply, foramen, and nerve innervations that may b

121 epatic neoplasms preferentially derive their blood supply from an arterial source while the majority

122 DSA depicted a medium-sized nidus, receiving blood supply from multiple origins but with no dominant

123 s to that of the primate, with a centripetal blood supply from posterior ciliary arteries and drainag

124 that new tissues rely on limited sources of blood supply from the adjacent recipient bed.

125 Hepatic metastases derive most of their blood supply from the hepatic artery; therefore, for pat

126 Transplanted islets received blood supply from vasa vasorum and had access to drainag

127 unction) and irreversible tissue damage with blood supply further decreased (the threshold for infarc

128 Since 2003, the US blood supply has been screened by nucleic-acid tests (NA

129 ic factors have shown that eliminating tumor blood supply has dramatic antitumor effects in mice.

130 the blood flow capacity of a transmyocardial blood supply has not been studied in these hearts.

131 20% of the earth's population, and thus its blood supply has the potential to affect the global comm

132 al tissue proteins (metastasis) and disrupts blood supply (hemangiomas).

133 This contributed to preserving the blood supply, hemodynamics, and function of the RAS kidn

134 ocyte reduction treatment within their human blood supplies in order to mitigate the risk of human pr

135 hich is responsible for approximately 80% of blood supplies in the eye.

136 fection represents a potential threat to the blood supply in areas where B. microti is endemic.

137 l circulation provides a potential source of blood supply in coronary artery disease.

138 l of choice for assessment of the myocardial blood supply in DE CT.

139 icrospheres are commonly used to assess bone blood supply in large animals, but the technique is not

140 The blood supply in LMICs is of insufficient quantity and sa

141 for delineation of all sources of pulmonary blood supply in patients with complex pulmonary stenosis

142 The modification of fetal organ blood supply in response to acute hypoxia is well charac

143 reatment strategy based on generation of new blood supply in the diseased heart.

144 may interrupt the already tenuous epiphyseal blood supply in the growing child and contribute to the

145 een implemented to address the safety of the blood supply in the United States.

146 Generation of an adequate blood supply in tumors by production of new blood vessel

147 Addressing blood supply inadequacies requires focused attention at

148 iatives to further improve the safety of the blood supply, including more stringent donor qualificati

149 Recruiting a new blood supply is a rate-limiting step in tumor progressio

150 al trauma to the donor sinus node and/or its blood supply is a significant cause of sinus node dysfun

151 incompleteness of the SPA is common, digital blood supply is always preserved by a complete deep palm

152 thological conditions under which the tissue blood supply is deficient or defective, such as in solid

153 ng to pH 6.7 develops when hindlimb arterial blood supply is deficient under ischaemic conditions, an

154 lial cells will be effective in tumors whose blood supply is formed by tumor cells in the absence of

155 transfusion-transmissible infections in the blood supply is higher in LMICs (30 LMIC manuscripts), r

156 iled delineation of all sources of pulmonary blood supply is necessary for planning surgical and tran

157 tries, the issue of safeguarding the world's blood supply is of paramount importance.

158 Neoangiogenesis or establishment of new blood supply is one of the fundamental requirements of e

159 The blood supply is predominantly via the caudal thyroid ves

160 Tissue hypoxia due to inadequate blood supply is reported to develop very early during tu

161 A safe and sufficient blood supply is requisite for a functional surgical syst

162 ntaneous or therapeutically imposed, wherein blood supply is restored to the previously ischaemic tis

163 Re-establishing blood supply is the primary goal for reducing myocardial

164 ort the increase in heart mass with matching blood supply, it may also promote a hypertrophic respons

165 temporal match between neuronal activity and blood supply, known as NVC.

166 a condition in which lunate bone, loses its blood supply, leading to necrosis of the bone.

167 cine uptake from portal and hepatic arterial blood supply, leucine export into the hepatic vein, leuc

168 g have advanced the concept that a zero-risk blood supply may be possible in the future.

169 ac demand and concomitant reduced myocardial blood supply may contribute to myocardial ischemia with

170 ver, these agents, intended to block tumors' blood supply, may cause hypoxia, which may fuel tumor pr

171 Hypoxic RPE resulting from reduced blood supply might upregulate production of vascular end

172 ase by altering gut motility, vascular tone, blood supply, mucosal barrier function, secretions and i

173 solation of the auditory epithelium from its blood supply, necessary to prevent heartbeat-induced mec

174 and glucose by providing it with the largest blood supply of any organ.

175 We examined the blood supply of the cat's visual cortex using alkaline p

176 Improving the blood supply of the esophageal anastomosis, methods to r

177 stablishing the joint surface, improving the blood supply of the fragment, rigid fixation, and early

178 fter injections of 20-HETE into the arterial blood supply of the hindlimb muscles of decerebrated rat

179 3 micromol/L) was injected into the arterial blood supply of the hindlimb muscles.

180 ially infectious related components from the blood supply of the Red Cross.

181 peptide innervation may affect the nutrient blood supply of the upper dermis, and the integrity and

182 and 6 weeks of age, so that by 6 weeks, the blood supply of the visual cortex resembles that seen in

183 -0.19; NS), the pattern of coronary arterial blood supply, or the number of diseased vessels.

184 of cancer by permitting tumors to acquire a blood supply permissive of growth and spread.

185 ecent studies that involve perturbing tumour blood supply provide new hope for anti-cancer therapies.

186 The growth of solid tumours requires a blood supply provided by re-modeling of existing blood v

187 Increasing of the blood supply raises many challenges; new approaches to r

188 to be active on VEGFR2, which can block the blood supply required for RET-stimulated growth.

189 In Legg-Calve-Perthes disease, loss of blood supply results in ischemic osteonecrosis of the fe

190 An understanding of spinal cord blood supply, risk factors for spinal ischemia, and stra

191 Advances in transfusion medicine have made blood supply safer than ever, whereas changes in transfu

192 donating in times of crisis may help predict blood supply safety and donor return patterns.

193 Future interventions for improving blood supply safety must be evaluated thoroughly and cho

194 veloping countries continue to struggle with blood-supply safety issues.

195 od donors identified through a comprehensive blood supply screening program (34,766,863 donations fro

196 Interruption of the coronary blood supply severely impairs heart function with often

197 growth, and thus, evidence for a decrease in blood supply should be sought by positron emission tomog

198 vo often outgrow their surrounding available blood supply, subjecting themselves to a severely hypoxi

199 Emerging issues that affect blood safety and blood supply, such as pathogen inactivation and more str

200 Investment in trauma care and supporting blood supply systems is highly cost effective.

201 ial regions undergoing brief restrictions of blood supply that do not induce irreversible changes in

202 he cerebral vasculature provides the massive blood supply that the brain needs to grow and survive.

203 angiogenesis and the resulting insufficient blood supply, the tumors then regressed with significant

204 ncreasing arterialization and loss of portal blood supply; therefore, recognition of HCC requires dyn

205 sion distance during growth and/or a fall in blood supply through end plate changes could instigate N

206 ing metastasis or tumour growth beyond local blood supply) through functional caspase cascades by a m

207 Known accessory blood supplies to the AVN, including left and right Kuge

208 eural and vascular cells, assures sufficient blood supply to active brain regions.

209 Ischaemia-reperfusion injury occurs when the blood supply to an organ is disrupted and then restored,

210 Hepatic artery is the main blood supply to bile duct and lack of adequate HA flow i

211 tery because the hepatic artery provides the blood supply to bile ducts.

212 oupled with the notion that tumors require a blood supply to both grow and metastasize, has fueled th

213 ries as a result of accidental disruption of blood supply to healthy parathyroid glands, which are re

214 Could a loss of fractal geometry of the blood supply to human tissue be an early step in oncogen

215 monkeys, which have a very similar choroidal blood supply to humans.

216 ord injury (SCI), the absence of an adequate blood supply to injured tissues has been hypothesized to

217 esponse to low oxygen tension that increases blood supply to match metabolic demands.

218 eby regulating vascular tone and controlling blood supply to organs.

219 s that may occur in vivo during insufficient blood supply to oxygen-sensitive tissues such as the hea

220 ires both phasic and tonic regulation of its blood supply to service energy needs over various tempor

221 re less dissection, theoretically preserving blood supply to the bile ducts, and usually permit wider

222 Brain ischemia occurs when the blood supply to the brain is interrupted, leading to oxy

223 by interruption or significant impairment of blood supply to the brain, which leads to a cascade of m

224 of the neocortex, and the maintenance of the blood supply to the cortex, may have been necessary for

225 Clinically AVNFH is associated with impaired blood supply to the femoral head resulting in bone necro

226 ia model in mice that selectively shuts down blood supply to the ipsilateral hippocampal formation.

227 endothelial growth factor (VEGF) can improve blood supply to the ischaemic limb.

228 be implemented clinically for restoration of blood supply to the ischemic myocardium.

229 stent sciatic artery as a dominant source of blood supply to the lower limb.

230 epta, and laceration of the lateral arterial blood supply to the maxillary sinus) were obtained retro

231 ly shown that sarcolemmal nNOSmu matches the blood supply to the metabolic demands of active muscle.

232 yocardial infarction, there is an inadequate blood supply to the myocardium, and the surrounding bord

233 thway of taurine delivery from the choroidal blood supply to the outer retina composed by Bruch's-cho

234 In type III (10 arteries [6.6%]), the major blood supply to the ovary was from the uterine artery.

235 The transport of folate from the choroidal blood supply to the retina is only now beginning to be u

236 The arterial blood supply to the SAN and the AVN is variable and can

237 A dual blood supply to the SAN was seen in six patients.

238 ch results in the provision of an asymmetric blood supply to the sixth BAA.

239 udy revealed the spatial distribution of the blood supply to the supraspinatus tendon in asymptomatic

240 e harvest but increases the possibility that blood supply to the transferred tissue may not be adequa

241 of a syngeneic K1735M2 melanoma by reducing blood supply to the tumor by a mechanism independent of

242 The VTAs cause a rapid shutdown in the blood supply to the tumor that kills tumor cells by depr

243 r reflex in rats with a compromised arterial blood supply to the working muscles.

244 ial fluid pressure inside tumours and reduce blood supply to them, which impairs drug delivery.

245 Blood supply to tissues is inevitably reduced in CHF.

246 Hypoxic cell death follows interruption of blood supply to tissues.

247 mor angiogenesis and allows an adaptation of blood supply to tumors, thereby preventing hypoxia and n

248 ogical sympatholysis, thus ensuring adequate blood supply to working muscle.

249 ate angiogenesis in order to develop its own blood supply, to grow, to invade, and to spread.

250 n and its potential for transmission via the blood supply, understanding how eHEV infects cells is im

251 The graft's blood supply was based on the inferior epigastric vessel

252 lation of CD147 expression and any system of blood supply was evident.

253 CB blood supply was reduced by similar levels in both CHF a

254 Tumor and tumor blood supply were imaged by dynamic computed tomography

255 accumulates between photoreceptors and their blood supply which likely impacts S-cone function.

256 l head osteonecrosis is due to disruption of blood supply which results in ischemic injury.

257 Solid tumors often have an inadequate blood supply, which results in large regions that are su

258 cing universal RBCs, which would improve the blood supply while enhancing the safety of clinical tran

259 earance of CNS-derived Abeta into the venous blood supply with no increase from a peripheral capillar

260 be reduced to the minimum sustainable by the blood supply, with 35 days as an attainable goal.REGISTR

261 se that pediatric optic gliomas can maintain blood supply without endothelial cells by using inverteb