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Developing a clinical grade human adipose decellularized biomaterial
Daniel J. Hayes
, Jeffrey M. Gimble
Biomedical Engineering
Materials Research Institute (MRI)
Huck Institutes of the Life Sciences
Penn State Cancer Institute
Cancer Institute, Next-Generation Therapies
Research output
:
Contribution to journal
›
Article
›
peer-review
1
Scopus citations
Overview
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Engineering & Materials Science
Stem cells
96%
Biomaterials
82%
Proteoglycans
58%
Glycoproteins
57%
Tissue
57%
Tissue Scaffolds
56%
Lipids
45%
Collagen
44%
Tissue engineering
42%
Oils and fats
39%
DNA
35%
Proteins
31%
Chemical Compounds
Tissue Scaffold
100%
Proteoglycan
84%
Fat
67%
Implant
66%
Collagen
64%
Glycoprotein
62%
Safety
58%
Biomaterial
57%
Lipid
46%
Protein
28%
Medicine & Life Sciences
Biocompatible Materials
69%
Stromal Cells
45%
Adipose Tissue
37%
Stem Cells
33%
Research Personnel
31%
Tissue Scaffolds
29%
Clinical Trials, Phase I
27%
Adipogenesis
27%
Proteoglycans
24%
Tissue Engineering
22%
Glycoproteins
19%
Extracellular Matrix
19%
Volunteers
19%
Swine
17%
Collagen
17%
Fats
17%
Obesity
15%
Clinical Studies
15%
Lipids
14%
Safety
13%
DNA
12%
In Vitro Techniques
9%
Proteins
8%