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Improving interstitial transport of macromolecules through reduction in cell volume fraction in tumor tissues
Sarah McGuire, Fan Yuan
Radiation Oncology
Radiation Oncology - Medical Physics & Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
Overview
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Engineering & Materials Science
Macromolecules
100%
Dextran
88%
Tumors
73%
Molecules
70%
Volume fraction
64%
Medical nanotechnology
62%
Tissue
61%
Nanoparticles
53%
Oncology
48%
Acids
32%
Rats
21%
Molecular weight
20%
Cells
17%
Medicine & Life Sciences
Hypertonic Solutions
78%
Cell Size
74%
Dextrans
60%
Ethacrynic Acid
54%
Nanoparticles
48%
Nanomedicine
46%
Cytotoxins
40%
Neoplasms
23%
Fibrosarcoma
21%
Mannitol
20%
Extracellular Space
20%
Molecular Weight
15%
Chemical Compounds
Interstitial
75%
Macromolecule
61%
Hypertonic Solution
59%
Volume
41%
Dextran
37%
Reduction
32%
Cytotoxic Agent
30%
Nanoparticle
18%
Molecule
16%
Mannitol
14%
Acid
8%
Weight
6%
Time
4%