about
Can engineered bacteria help control cancer?Molecular biology of breast cancer metastasis. Molecular expression of vascular markers by aggressive breast cancer cells.Cancer anti-angiogenesis vaccines: Is the tumor vasculature antigenically unique?Intra-tumor heterogeneity of cancer cells and its implications for cancer treatmentOverview of Methods for Overcoming Hindrance to Drug Delivery to Tumors, with Special Attention to Tumor Interstitial FluidTraversing the basement membrane in vivo: a diversity of strategiesThe role of vascular endothelial growth factor a polymorphisms in breast cancerImproving conventional enhanced permeability and retention (EPR) effects; what is the appropriate target?Targeted nanotechnology for cancer imaging.Fibroblast Growth Factor 9 Imparts Hierarchy and Vasoreactivity to the Microcirculation of Renal Tumors and Suppresses MetastasesVascular Transdifferentiation in the CNS: A Focus on Neural and Glioblastoma Stem-Like CellsNumerical modeling of fluid flow in solid tumorsMRI-based computational model of heterogeneous tracer transport following local infusion into a mouse hind limb tumorQuantitative Analysis of the Enhanced Permeation and Retention (EPR) EffectInhibition of tumor angiogenesis using a soluble receptor establishes a role for Tie2 in pathologic vascular growthHigh-Resolution Multispectral Optoacoustic Tomography of the Vascularization and Constitutive Hypoxemia of Cancerous TumorsUltrasound imaging of breast tumor perfusion and neovascular morphology.Ultrasound Molecular Imaging of the Breast Cancer Neovasculature using Engineered Fibronectin Scaffold Ligands: A Novel Class of Targeted Contrast Ultrasound AgentEffects of tissue mechanical properties on susceptibility to histotripsy-induced tissue damageAntiangiogenesis strategies revisited: from starving tumors to alleviating hypoxia.Red blood cell as a universal optoacoustic sensor for non-invasive temperature monitoringSpatially-resolved hydraulic conductivity estimation via poroelastic magnetic resonance elastography.Ultrasound and microbubble guided drug delivery: mechanistic understanding and clinical implications.Image-guided non-invasive ultrasound liver ablation using histotripsy: feasibility study in an in vivo porcine model.Rational design for multifunctional non-liposomal lipid-based nanocarriers for cancer management: theory to practice.Vascular normalization as a therapeutic strategy for malignant and nonmalignant disease.Normalization of the vasculature for treatment of cancer and other diseases.Antiangiogenic cancer therapy: monitoring with molecular US and a clinically translatable contrast agent (BR55).Determination of breast cancer response to bevacizumab therapy using contrast-enhanced ultrasound and artificial neural networksTemporal heterogeneity in blood supply in human tumor xenografts.The effect of flunarizine on erythrocyte suspension viscosity under conditions of extreme hypoxia, low pH, and lactate treatment.A method for assessing the microvasculature in a murine tumor model using contrast-enhanced ultrasonography.The natural frequency of nonlinear oscillation of ultrasound contrast agents in microvessels.Intravital microscopy: new insights into metastasis of tumors.Causes, consequences, and remedies for growth-induced solid stress in murine and human tumors.Caught in the act: revealing the metastatic process by live imaging.Normalizing tumor microenvironment to treat cancer: bench to bedside to biomarkers.Modeling of nanotherapeutics delivery based on tumor perfusion.Margination of micro- and nano-particles in blood flow and its effect on drug delivery.Host endothelial S1PR1 regulation of vascular permeability modulates tumor growth
P2860
Q24555059-14802B5A-E44B-4C68-99F9-45FCAFD2992DQ24800983-0B140A57-8F0B-46E9-97A2-5488467B3CB7Q26778150-1508D72D-91DB-4322-A588-B8D495CDC6F2Q26783055-89ABA0EB-232C-407E-A68E-C301F424B745Q26799981-45C5CAE0-6EFB-4506-A375-3FAB64C36EC5Q26824769-D058FF1C-B422-4B92-B8AE-EE001D3BAEE0Q26851522-09706A9F-A65A-40E8-A4AE-3C0C274A577DQ26999332-FD56DF13-D8CD-4B7F-BE0F-8360B787776AQ27010317-645F690A-D988-4B14-877D-5E4DCAC22632Q27312628-90DDB566-0726-4195-BE6D-FE7E7FB3E1DDQ28072067-3507C92E-F4F5-4648-B761-A5F39A516EDCQ28478450-9CFA4E3D-BDE5-4716-BEB2-08C9CC4D8D81Q28540719-DB95F380-DD76-4F59-B767-2E10CE445772Q28547003-42E0CB0B-8FFA-4BA3-A6AF-18FE2F721356Q28578750-15709364-0D04-4688-8B83-61E3A6ADAAE8Q30374396-31D0B982-00F2-4741-B0F7-BD9E0D14FEEFQ30375552-DEAFE837-ED3E-4EE3-9E96-4DFB03074428Q30375870-7520FEED-5CA8-4034-81A1-003C4D7AC1A8Q30382529-6836A0CF-F7DE-4AD5-AB30-D11071600526Q30399006-B6B29E63-7D45-4D36-830D-DC2316589AD2Q30403585-26932DD7-C966-4BE5-B1B9-D2F2D9CE9493Q30406463-27790419-A306-44EF-A368-E90D248D25CDQ30429594-A862F5B6-9543-4128-9B1F-4E2D02BD2AB1Q30433998-CEEBDBB2-4C62-468A-BA9F-CF41BE80B616Q30436623-942C1FA2-9AAD-466A-A57F-9B4272E64A89Q30469815-B2476A02-8D94-4505-B837-60DDDB878FB8Q30471456-EC179C83-F1D4-4384-992E-1057A7AE2D18Q30474689-119450C1-3B87-4D3F-8069-8FFF35DC48F9Q30475052-55CC14BF-41C8-49F6-9171-0AF76838958DQ30482390-616207EE-5016-4360-80E3-42D11AEF5C82Q30486869-A2C96B42-33FC-45BE-8009-CB2F10C34241Q30490894-A3EE5A2F-A2EA-48B8-B2BE-B32B699A5CE3Q30491419-BE575894-D575-483F-9992-676F46925556Q30497915-5B178A06-9E70-4E4B-8E27-1C07CA322AFEQ30525290-2CAA3D6A-345F-43F8-A991-A6768B07DF3FQ30539138-1B1805E6-CA7E-47FD-9A25-68F91206A533Q30542073-0EBF8D29-0DB9-4E21-9B6E-5ECFF06EF406Q30544603-D571C2E5-2E7B-4B4A-AF65-FA321409B75EQ30577405-944103E7-91E3-4CB1-A6DD-ACBC03734C67Q30582575-4DBFAA58-8902-4D39-8AA7-68D7BC436DA4
P2860
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
Determinants of tumor blood flow: a review.
@en
Determinants of tumor blood flow: a review.
@nl
type
label
Determinants of tumor blood flow: a review.
@en
Determinants of tumor blood flow: a review.
@nl
prefLabel
Determinants of tumor blood flow: a review.
@en
Determinants of tumor blood flow: a review.
@nl
P1433
P1476
Determinants of tumor blood flow: a review.
@en
P2093
P304
P407
P577
1988-05-01T00:00:00Z