Interstitial fluid and lymph formation and transport: physiological regulation and roles in inflammation and cancer
about
Platelets in Pulmonary Immune Responses and Inflammatory Lung DiseasesOverview of Methods for Overcoming Hindrance to Drug Delivery to Tumors, with Special Attention to Tumor Interstitial FluidMechanical forces and lymphatic transportA mathematical model of the enhanced permeability and retention effect for liposome transport in solid tumorsInterstitial fluid flow in cancer: implications for disease progression and treatment.Potential Coagulation Factor-Driven Pro-Inflammatory Responses in Ovarian Cancer Tissues Associated with Insufficient O₂ and Plasma Supply.Tumors induce coordinate growth of artery, vein, and lymphatic vessel triads.Stromal PDGFR-α Activation Enhances Matrix Stiffness, Impedes Mammary Ductal Development, and Accelerates Tumor Growth.Complete human serum maintains viability and chondrogenic potential of human synovial stem cells: suitable conditions for transplantation.Implications of Lymphatic Transport to Lymph Nodes in Immunity and ImmunotherapyBioreactor technologies to support liver function in vitro.A strategy for integrating essential three-dimensional microphysiological systems of human organs for realistic anticancer drug screening.Incorporating target-mediated drug disposition in a minimal physiologically-based pharmacokinetic model for monoclonal antibodies.Primary and secondary lymphatic valve development: molecular, functional and mechanical insights.VEGF-C improves regeneration and lymphatic reconnection of transplanted autologous lymph node fragments: An animal model for secondary lymphedema treatment.Modest hyperglycemia prevents interstitial dispersion of insulin in skeletal muscleClassic and Modern Meridian Studies: A Review of Low Hydraulic Resistance Channels along Meridians and Their Relevance for Therapeutic Effects in Traditional Chinese Medicine.Multifunctional mitoxantrone-conjugated magnetic nanosystem for targeted therapy of folate receptor-overexpressing malignant cells.Interstitial fluid colloid osmotic pressure in healthy children.Diaphragmatic lymphatic vessel behavior during local skeletal muscle contraction.Tumor Interstitial Fluid Formation, Characterization, and Clinical ImplicationsLipid-induced insulin resistance does not impair insulin access to skeletal muscle.A High-Salt Diet Differentially Modulates Mechanical Activity of Afferent and Efferent Collecting Lymphatics in Murine Iliac Lymph NodesHigher vascular endothelial growth factor-C concentration in plasma is associated with increased forearm capillary filtration capacity in breast cancer-related lymphedema.Levels of atherogenic lipoproteins are unexpectedly reduced in interstitial fluid from type 2 diabetes patients.Lymph node biophysical remodeling is associated with melanoma lymphatic drainage.Design considerations for nanotherapeutics in oncology.Intraocular Pressure-Lowering Effect of Latanoprost Is Hampered by Defective Cervical Lymphatic Drainage.Quantification of the concentration gradient of biomarkers between ovarian carcinoma interstitial fluid and blood.The interaction between fluid status and angiopoietin-2 in adverse renal outcomes of chronic kidney disease.Foot skin depots of 18F-fluorodeoxyglucose do not enable PET/CT lymphography of the lower extremity lymphatic system in man.CHD4-regulated plasmin activation impacts lymphovenous hemostasis and hepatic vascular integrity.Immune cells control skin lymphatic electrolyte homeostasis and blood pressureInterstitial Fluid Sphingosine-1-Phosphate in Murine Mammary Gland and Cancer and Human Breast Tissue and Cancer Determined by Novel Methods.Lymphatic vessels regulate immune microenvironments in human and murine melanomaSecond-generation minimal physiologically-based pharmacokinetic model for monoclonal antibodies.Hyaluronan-Derived Swelling of Solid Tumors, the Contribution of Collagen and Cancer Cells, and Implications for Cancer Therapy.Physiologically relevant binding affinity quantification of monoclonal antibody PF-00547659 to mucosal addressin cell adhesion molecule for in vitro in vivo correlationImaging CD8+ T cells during diverse viral infections.Release rates of liposomal contents are controlled by kosmotropes and chaotropes.
P2860
Q26739670-F3ABF623-16FD-436D-92CD-D4A11A913ED3Q26799981-41BBEF9D-B176-4798-994B-C3DAC6F392FDQ26853449-0BAE0AAB-81C4-4B1D-B899-9B5EF0F4A066Q28535613-CCEA7881-92F7-4D56-A71C-D70796A449A1Q30411142-F69E0289-C893-4412-B35A-96C0BF714123Q33624680-091CC3D1-EFC6-4852-8FE6-1AF9702FA2B4Q33712485-0F85826C-2AC1-49A9-B0CB-B27FC02F433AQ33714718-287C0343-CEEC-42DE-8F58-02AF28E30354Q33796142-8E5C3A41-3A53-40D3-8D8A-104DA24C4561Q33920298-3247DA18-8950-47AA-B2C3-D4A67F30A4A5Q34087508-965314E3-283B-480C-978B-6AA127A40CE3Q34143251-C988E16C-B925-4C6B-9187-48051135488AQ34204024-8117F3D7-007F-4B8F-93F5-5FDF764D3FD9Q34432002-7405F6AC-93DD-4815-B061-3844949379D3Q34641165-80710CCD-0C6B-4DA9-A544-83FF715874DBQ34778851-5FB2CA55-AA60-4E1A-BD05-0D70EF71CEE5Q35188394-657AC3B8-334A-4B49-8452-8EFF7414FB99Q35292124-62FEFC6C-F8C7-42A5-A5A2-CD6AE72B84C0Q35326021-4BD946D8-D80F-45C3-8B6F-B57E49008851Q35499744-6F2B997E-C49B-4A55-8CCF-318DC885476FQ35646453-8A1BD741-4003-4D6C-8E00-2531B836FAB3Q35671698-5BCF1367-1C8B-4B28-A5A9-53F2F3474564Q35822108-2E2BC4A7-4A0F-42D5-9D65-299E0983B1EAQ35877534-AAA59910-0782-45F1-AC32-4A3455A7DAE8Q35886333-8621009D-3AA3-4E9B-B7D4-6E73147C77CCQ36171323-1ECAA392-326F-4574-AD59-3E4CA7225CAAQ36236848-81462185-C9CC-4734-9FFB-009EA8807029Q36247598-265A611F-C12E-4431-BC3F-FD7B1EF495CCQ36250701-F5CC2751-D0C6-461B-817C-5E192D145B5FQ36319858-B98BF9A9-E18B-4EA2-807E-19D33DB82B1BQ36722845-A10C1597-E061-42A5-8A8D-D3126939ECD8Q36951765-E4B564D7-E88E-400C-82AF-AA1B7EB109A4Q36966854-F498863E-F334-4341-A871-03FACAD66A75Q37100281-0479F08F-59EC-4EBC-85A6-19B5B9600BB5Q37217526-6B652219-87FE-41DD-8F2F-3F74A7B584E2Q37331009-DDADD4C8-1444-48D5-9729-4AEB95D9AACBQ37438585-3DAAC857-6F02-4D6D-82E3-A293EA7D37ABQ37572883-EE07204B-49AF-4FAC-A48D-4587EE3D65ACQ37579638-010910FC-21EC-4F81-BE2A-908A1226885BQ37599543-41AAEC39-C00B-49CD-869C-441CD2673C98
P2860
Interstitial fluid and lymph formation and transport: physiological regulation and roles in inflammation and cancer
description
2012 nî lūn-bûn
@nan
2012 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Interstitial fluid and lymph f ...... les in inflammation and cancer
@ast
Interstitial fluid and lymph f ...... les in inflammation and cancer
@en
Interstitial fluid and lymph f ...... les in inflammation and cancer
@nl
type
label
Interstitial fluid and lymph f ...... les in inflammation and cancer
@ast
Interstitial fluid and lymph f ...... les in inflammation and cancer
@en
Interstitial fluid and lymph f ...... les in inflammation and cancer
@nl
prefLabel
Interstitial fluid and lymph f ...... les in inflammation and cancer
@ast
Interstitial fluid and lymph f ...... les in inflammation and cancer
@en
Interstitial fluid and lymph f ...... les in inflammation and cancer
@nl
P1476
Interstitial fluid and lymph f ...... les in inflammation and cancer
@en
P2093
Melody A Swartz
P304
P356
10.1152/PHYSREV.00037.2011
P407
P50
P577
2012-07-01T00:00:00Z