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Literature DB >> 31340700

Interstitial fluid flow under the microscope: is it a future drug target for high grade brain tumours such as glioblastoma?

Jennifer M Munson¹.

Abstract

Entities: Chemical

Year: 2019 PMID： 31340700 PMCID： PMC6980936 DOI： 10.1080/14728222.2019.1647167

Source DB: PubMed Journal: Expert Opin Ther Targets ISSN： 1472-8222 Impact factor: 6.797

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16 in total

Review 1. A driving force for change: interstitial flow as a morphoregulator.

Authors: Joseph M Rutkowski; Melody A Swartz
Journal: Trends Cell Biol Date: 2006-12-01 Impact factor: 20.808

2. Interstitial fluid flow along white matter tracts: a potentially important mechanism for the dissemination of primary brain tumors.

Authors: C P Geer; S A Grossman
Journal: J Neurooncol Date: 1997-05 Impact factor: 4.130

Review 3. Aquaporin-4 in glioma invasion and an analysis of molecular mechanisms.

Authors: Ting Ding; Feng Gu; Li Fu; Yong-jie Ma
Journal: J Clin Neurosci Date: 2010-08-03 Impact factor: 1.961

4. A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes, including amyloid β.

Authors: Jeffrey J Iliff; Minghuan Wang; Yonghong Liao; Benjamin A Plogg; Weiguo Peng; Georg A Gundersen; Helene Benveniste; G Edward Vates; Rashid Deane; Steven A Goldman; Erlend A Nagelhus; Maiken Nedergaard
Journal: Sci Transl Med Date: 2012-08-15 Impact factor: 17.956

5. Interstitial flow influences direction of tumor cell migration through competing mechanisms.

Authors: William J Polacheck; Joseph L Charest; Roger D Kamm
Journal: Proc Natl Acad Sci U S A Date: 2011-06-20 Impact factor: 11.205

Review 6. A review of VEGF/VEGFR-targeted therapeutics for recurrent glioblastoma.

Authors: David A Reardon; Scott Turner; Katherine B Peters; Annick Desjardins; Sridharan Gururangan; John H Sampson; Roger E McLendon; James E Herndon; Lee W Jones; John P Kirkpatrick; Allan H Friedman; James J Vredenburgh; Darell D Bigner; Henry S Friedman
Journal: J Natl Compr Canc Netw Date: 2011-04 Impact factor: 11.908

7. Fluid shear stress regulates the invasive potential of glioma cells via modulation of migratory activity and matrix metalloproteinase expression.

Authors: Henry Qazi; Zhong-Dong Shi; John M Tarbell
Journal: PLoS One Date: 2011-05-26 Impact factor: 3.240

8. Neuroinflammation-induced lymphangiogenesis near the cribriform plate contributes to drainage of CNS-derived antigens and immune cells.

Authors: Martin Hsu; Aditya Rayasam; Julie A Kijak; Yun Hwa Choi; Jeffrey S Harding; Sarah A Marcus; William J Karpus; Matyas Sandor; Zsuzsanna Fabry
Journal: Nat Commun Date: 2019-01-16 Impact factor: 14.919

9. Tissue mechanics promote IDH1-dependent HIF1α-tenascin C feedback to regulate glioblastoma aggression.

Authors: Yekaterina A Miroshnikova; Janna K Mouw; J Matthew Barnes; Michael W Pickup; Johnathan N Lakins; Youngmi Kim; Khadjia Lobo; Anders I Persson; Gerald F Reis; Tracy R McKnight; Eric C Holland; Joanna J Phillips; Valerie M Weaver
Journal: Nat Cell Biol Date: 2016-11-07 Impact factor: 28.824