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1
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Compressive forces induce osteogenic gene expression in calvarial osteoblasts.
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J Biomech
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2008
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1.35
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2
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Glioma cell migration on three-dimensional nanofiber scaffolds is regulated by substrate topography and abolished by inhibition of STAT3 signaling.
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Neoplasia
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2011
|
1.19
|
|
3
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Modulation of embryonic mesenchymal progenitor cell differentiation via control over pure mechanical modulus in electrospun nanofibers.
|
Acta Biomater
|
2010
|
1.11
|
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4
|
Quantitative analysis of complex glioma cell migration on electrospun polycaprolactone using time-lapse microscopy.
|
Tissue Eng Part C Methods
|
2009
|
1.08
|
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5
|
Enhanced osteoblast response to a polymethylmethacrylate-hydroxyapatite composite.
|
Biomaterials
|
2002
|
0.96
|
|
6
|
Novel electrospun scaffolds for the molecular analysis of chondrocytes under dynamic compression.
|
Tissue Eng Part A
|
2009
|
0.96
|
|
7
|
Mimicking white matter tract topography using core-shell electrospun nanofibers to examine migration of malignant brain tumors.
|
Biomaterials
|
2013
|
0.93
|
|
8
|
Adipogenesis of murine embryonic stem cells in a three-dimensional culture system using electrospun polymer scaffolds.
|
Biomaterials
|
2006
|
0.92
|
|
9
|
Encoding scratch and scrape features for wear modeling of total joint replacements.
|
Comput Math Methods Med
|
2013
|
0.91
|
|
10
|
High throughput assembly of spatially controlled 3D cell clusters on a micro/nanoplatform.
|
Lab Chip
|
2010
|
0.91
|
|
11
|
A novel formulation for scratch-based wear modelling in total hip arthroplasty.
|
Comput Methods Biomech Biomed Engin
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2013
|
0.90
|
|
12
|
Electrospun scaffold topography affects endothelial cell proliferation, metabolic activity, and morphology.
|
J Biomed Mater Res A
|
2010
|
0.88
|
|
13
|
Micropatterning and characterization of electrospun poly(ε-caprolactone)/gelatin nanofiber tissue scaffolds by femtosecond laser ablation for tissue engineering applications.
|
Biotechnol Bioeng
|
2011
|
0.86
|
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14
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Nanotopographic control of cytoskeletal organization.
|
Langmuir
|
2006
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0.86
|
|
15
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Hydrogel-electrospun fiber mat composite coatings for neural prostheses.
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Front Neuroeng
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2011
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0.83
|
|
16
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Vascular wall engineering via femtosecond laser ablation: scaffolds with self-containing smooth muscle cell populations.
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Ann Biomed Eng
|
2011
|
0.81
|
|
17
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Gene delivery to cultured embryonic stem cells using nanofiber-based sandwich electroporation.
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Anal Chem
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2013
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0.81
|
|
18
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Hydrogel-electrospun fiber composite materials for hydrophilic protein release.
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J Control Release
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2011
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0.80
|
|
19
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Effects of hydrophobicity and mat thickness on release from hydrogel-electrospun fiber mat composites.
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J Biomater Sci Polym Ed
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2013
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0.80
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20
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Effects of orthopedic implants with a polycaprolactone polymer coating containing bone morphogenetic protein-2 on osseointegration in bones of sheep.
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Am J Vet Res
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2009
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0.79
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21
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Ca/P ratio effects on the degradation of hydroxyapatite in vitro.
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J Biomed Mater Res A
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2003
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0.78
|
|
22
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Micro/nanoscale technologies for the development of hormone-expressing islet-like cell clusters.
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Biomed Microdevices
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2012
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0.78
|
|
23
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Toward 3D biomimetic models to understand the behavior of glioblastoma multiforme cells.
|
Tissue Eng Part B Rev
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2013
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0.77
|
|
24
|
Rapid response oxygen-sensing nanofibers.
|
Mater Sci Eng C Mater Biol Appl
|
2013
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0.76
|
|
25
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Organ-derived coatings on electrospun nanofibers as ex vivo microenvironments.
|
Biomaterials
|
2010
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0.76
|
|
26
|
Hemoglobin regulates the migration of glioma cells along poly(ε-caprolactone)-aligned nanofibers.
|
Biotechnol Prog
|
2014
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0.75
|
|
27
|
Comparison of the mechanical characteristics of polymerized caprolactam and monofilament nylon loops constructed in parallel strands or as braided ropes versus cranial cruciate ligaments of cattle.
|
Am J Vet Res
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2013
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0.75
|
|
28
|
Microscale Sensing of Oxygen via Encapsulated Porphyrin Nanofibers: Effect of Indicator and Polymer "Core" Permeability.
|
ACS Appl Mater Interfaces
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2015
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0.75
|
|
29
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Chemotherapeutic implants via subcritical CO2 modification.
|
Biomaterials
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2007
|
0.75
|
|
30
|
Nanoscale modifications of PET polymer surfaces via oxygen-plasma discharge yield minimal changes in attachment and growth of mammalian epithelial and mesenchymal cells in vitro.
|
J Biomed Mater Res
|
2002
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0.75
|