|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|
|Peptide Insulin for Tendon Differentiation of Human Mesenchymal Stem Cells|
DM Ramos, CT Laurencin, SG Kumbar
TISSUE ENGINEERING PART A 21, S407-S408, 2015