Daisy Ramos
Daisy Ramos
Verified email at uconn.edu
TitleCited byYear
Natural and synthetic biomedical polymers
S Kumbar, C Laurencin, M Deng
Elsevier 17, 402, 2014
Cellulose and collagen derived micro-nano structured scaffolds for bone tissue engineering
A Aravamudhan, DM Ramos, J Nip, MD Harmon, R James, M Deng, ...
Journal of biomedical nanotechnology 9 (4), 719-731, 2013
Natural polymers: polysaccharides and their derivatives for biomedical applications
A Aravamudhan, DM Ramos, AA Nada, SG Kumbar
Natural and synthetic biomedical polymers, 67-89, 2014
Collagen functionalized bioactive nanofiber matrices for osteogenic differentiation of mesenchymal stem cells: bone tissue engineering
Y Cheng, D Ramos, P Lee, D Liang, X Yu, SG Kumbar
Journal of biomedical nanotechnology 10 (2), 287-298, 2014
Novel mechanically competent polysaccharide scaffolds for bone tissue engineering
SG Kumbar, US Toti, M Deng, R James, CT Laurencin, A Aravamudhan, ...
Biomedical Materials 6 (6), 065005, 2011
Properties of biologic scaffolds and their response to mesenchymal stem cells
K Beitzel, MB McCarthy, MP Cote, RP Russell, J Apostolakos, DM Ramos, ...
Arthroscopy: The Journal of Arthroscopic & Related Surgery 30 (3), 289-298, 2014
Engineered stem cell niche matrices for rotator cuff tendon regenerative engineering
MS Peach, DM Ramos, R James, NL Morozowich, AD Mazzocca, SB Doty, ...
PloS one 12 (4), 2017
Bioactive polymeric nanofiber matrices for skin regeneration
E Guadalupe, D Ramos, NB Shelke, R James, C Gibney, SG Kumbar
Journal of Applied Polymer Science 132 (16), 2015
Collagen nanofibril self-assembly on a natural polymeric material for the osteoinduction of stem cells in vitro and biocompatibility in vivo
A Aravamudhan, DM Ramos, NA Jenkins, NA Dyment, MM Sanders, ...
RSC advances 6 (84), 80851-80866, 2016
Micro‐nanostructures of cellulose‐collagen for critical sized bone defect healing
A Aravamudhan, DM Ramos, J Nip, I Kalajzic, SG Kumbar
Macromolecular bioscience 18 (2), 1700263, 2018
Bioactive polymeric formulations for wound healing
AA Nada, MR Arul, DM Ramos, Z Kroneková, J Mosnáček, S Rudraiah, ...
Polymers for advanced technologies 29 (6), 1815-1825, 2018
Tendon tissue engineering
D Ramos, MS Peach, AD Mazzocca, X Yu, SG Kumbar
Regenerative Engineering of Musculoskeletal Tissues and Interfaces, 195-217, 2015
Clinical complications of biodegradable screws for ligament injuries
DM Ramos, R Dhandapani, A Subramanian, S Sethuraman, SG Kumbar
Materials Science and Engineering: C, 110423, 2019
Insulin immobilized PCL‐cellulose acetate micro‐nanostructured fibrous scaffolds for tendon tissue engineering
DM Ramos, S Abdulmalik, MR Arul, S Rudraiah, CT Laurencin, ...
Polymers for advanced technologies 30 (5), 1205-1215, 2019
Tendon tissue differentiation with use of fibrous scaffolds and peptide insulin for rotator cuff applications
DM Ramos, CT Laurencin, AD Mazzocca, SG Kumbar
Frontiers in Bioengineering and Biotechnology Conference Abstracts, 2016
Nanotissue engineering of skin cells
R James, NB Shelke, SG Kumbar
Stem-cell nanoengineering, 315, 2015
Growing a Backbone–Functional Biomaterials and Structures for Intervertebral Disc (IVD) Repair and Regeneration: Challenges, Innovations, and Future Directions
MD Harmon, DM Ramos, N Duraisamy, R Bordett, S Rudraiah, ...
Biomaterials Science, 2020
Determining the Efficacy of Insulin for use in Factor Delivery Device for Tendon Healing and Regeneration
D Ramos
Peptide Insulin for Tendon Differentiation of Human Mesenchymal Stem Cells
DM Ramos, CT Laurencin, SG Kumbar
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