Subbu Venkatraman
Cited by
Cited by
Self-assembled cationic peptide nanoparticles as an efficient antimicrobial agent
L Liu, K Xu, H Wang, PK Jeremy Tan, W Fan, SS Venkatraman, L Li, ...
Nature nanotechnology 4 (7), 457-463, 2009
Spinal cord injury facts and figures at a glance
National Spinal Cord Injury Statistical Center
The journal of spinal cord medicine 36 (1), 1-2, 2013
Polycaprolactone-based biomaterials for tissue engineering and drug delivery: Current scenario and challenges
D Mondal, M Griffith, SS Venkatraman
International Journal of Polymeric Materials and Polymeric Biomaterials 65 …, 2016
Skin adhesives and skin adhesion: 1. Transdermal drug delivery systems
S Venkatraman, R Gale
Biomaterials 19 (13), 1119-1136, 1998
Porous polycaprolactone scaffold for cardiac tissue engineering fabricated by selective laser sintering
WY Yeong, N Sudarmadji, HY Yu, CK Chua, KF Leong, SS Venkatraman, ...
Acta biomaterialia 6 (6), 2028-2034, 2010
Photopolymerization of cell-encapsulating hydrogels: crosslinking efficiency versus cytotoxicity
I Mironi-Harpaz, DY Wang, S Venkatraman, D Seliktar
Acta biomaterialia 8 (5), 1838-1848, 2012
Implanted cardiovascular polymers: Natural, synthetic and bio-inspired
S Venkatraman, F Boey, LL Lao
Progress in Polymer Science 33 (9), 853-874, 2008
Biologically active core/shell nanoparticles self-assembled from cholesterol-terminated PEG–TAT for drug delivery across the blood–brain barrier
L Liu, K Guo, J Lu, SS Venkatraman, D Luo, KC Ng, EA Ling, ...
Biomaterials 29 (10), 1509-1517, 2008
Accelerating the translation of nanomaterials in biomedicine
S Mitragotri, DG Anderson, X Chen, EK Chow, D Ho, AV Kabanov, ...
ACS nano 9 (7), 6644-6654, 2015
Microstructure of poly (vinyl alcohol) hydrogels produced by freeze/thaw cycling
PJ Willcox, DW Howie Jr, K Schmidt‐Rohr, DA Hoagland, SP Gido, ...
Journal of Polymer Science Part B: Polymer Physics 37 (24), 3438-3454, 1999
Water-soluble pressure-sensitive mucoadhesive and devices provided therewith for emplacement in a mucosa-lined body cavity
JE Biegajski, SS Venkatraman, AM Scott
US Patent 5,700,478, 1997
Modeling of drug release from bulk-degrading polymers
LL Lao, NA Peppas, FYC Boey, SS Venkatraman
International journal of pharmaceutics 418 (1), 28-41, 2011
Controlled release from bioerodible polymers: effect of drug type and polymer composition
A Frank, SK Rath, SS Venkatraman
Journal of controlled release 102 (2), 333-344, 2005
Sustained-release from nanocarriers: a review
JV Natarajan, C Nugraha, XW Ng, S Venkatraman
Journal of Controlled Release 193, 122-138, 2014
Magnetic iron oxide nanoparticles: Synthesis and surface coating techniques for biomedical applications
SN Sun, C Wei, ZZ Zhu, YL Hou, SS Venkatraman, ZC Xu
Chinese Physics B 23 (3), 037503, 2014
Recent advances in chitosan-based carriers for gene delivery
Y Cao, YF Tan, YS Wong, MWJ Liew, S Venkatraman
Marine drugs 17 (6), 381, 2019
Biodegradable stents with elastic memory
SS Venkatraman, LP Tan, JFD Joso, YCF Boey, X Wang
Biomaterials 27 (8), 1573-1578, 2006
Controlled release of sirolimus from a multilayered PLGA stent matrix
X Wang, SS Venkatraman, FYC Boey, JSC Loo, LP Tan
Biomaterials 27 (32), 5588-5595, 2006
The effect of topography of polymer surfaces on platelet adhesion
LB Koh, I Rodriguez, SS Venkatraman
Biomaterials 31 (7), 1533-1545, 2010
Release profiles in drug-eluting stents: issues and uncertainties
S Venkatraman, F Boey
Journal of Controlled Release 120 (3), 149-160, 2007
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