受强制性开放获取政策约束的文章 - Jayanth Panyam了解详情
无法在其他位置公开访问的文章:2 篇
Polymeric nanoparticles encapsulating novel TLR7/8 agonists as immunostimulatory adjuvants for enhanced cancer immunotherapy
H Kim, L Niu, P Larson, TA Kucaba, KA Murphy, BR James, DM Ferguson, ...
Biomaterials 164, 38-53, 2018
强制性开放获取政策: US National Science Foundation
Inhibition of Chlamydia trachomatis growth during the last decade: a mini-review
N Serradji, TH Vu, H Kim, J Panyam, P Verbeke
Mini Reviews in Medicinal Chemistry 18 (16), 1363-1372, 2018
强制性开放获取政策: US National Institutes of Health
可在其他位置公开访问的文章:48 篇
The use of nanoparticle-mediated targeted gene silencing and drug delivery to overcome tumor drug resistance
YB Patil, SK Swaminathan, T Sadhukha, L Ma, J Panyam
Biomaterials 31 (2), 358-365, 2010
强制性开放获取政策: US National Institutes of Health
Polymeric nanoparticles for siRNA delivery and gene silencing
Y Patil, J Panyam
International journal of pharmaceutics 367 (1-2), 195-203, 2009
强制性开放获取政策: US National Institutes of Health
Nanoparticle-mediated combination chemotherapy and photodynamic therapy overcomes tumor drug resistance
A Khdair, D Chen, Y Patil, L Ma, QP Dou, MPV Shekhar, J Panyam
Journal of Controlled Release 141 (2), 137-144, 2010
强制性开放获取政策: US National Institutes of Health
Single-step surface functionalization of polymeric nanoparticles for targeted drug delivery
YB Patil, US Toti, A Khdair, L Ma, J Panyam
Biomaterials 30 (5), 859-866, 2009
强制性开放获取政策: US National Institutes of Health
Exploiting nanotechnology to overcome tumor drug resistance: challenges and opportunities
AR Kirtane, SM Kalscheuer, J Panyam
Advanced drug delivery reviews 65 (13-14), 1731-1747, 2013
强制性开放获取政策: US National Institutes of Health
Inhalable magnetic nanoparticles for targeted hyperthermia in lung cancer therapy
T Sadhukha, TS Wiedmann, J Panyam
Biomaterials 34 (21), 5163-5171, 2013
强制性开放获取政策: US National Institutes of Health
Honokiol: a novel natural agent for cancer prevention and therapy
S Arora, S Singh, GA Piazza, CM Contreras, J Panyam, AP Singh
Current molecular medicine 12 (10), 1244-1252, 2012
强制性开放获取政策: US National Institutes of Health
Folic acid functionalized nanoparticles for enhanced oral drug delivery
E Roger, S Kalscheuer, A Kirtane, BR Guru, AE Grill, J Whittum-Hudson, ...
Molecular pharmaceutics 9 (7), 2103-2110, 2012
强制性开放获取政策: US National Institutes of Health
Flash nanoprecipitation: particle structure and stability
KM Pustulka, AR Wohl, HS Lee, AR Michel, J Han, TR Hoye, ...
Molecular pharmaceutics 10 (11), 4367-4377, 2013
强制性开放获取政策: US National Institutes of Health
Targeted delivery of antibiotics to intracellular chlamydial infections using PLGA nanoparticles
US Toti, BR Guru, M Hali, CM McPharlin, SM Wykes, J Panyam, ...
Biomaterials 32 (27), 6606-6613, 2011
强制性开放获取政策: US National Institutes of Health
Injectable sustained release microparticles of curcumin: a new concept for cancer chemoprevention
K Shahani, SK Swaminathan, D Freeman, A Blum, L Ma, J Panyam
Cancer research 70 (11), 4443-4452, 2010
强制性开放获取政策: US National Institutes of Health
Effective elimination of cancer stem cells by magnetic hyperthermia
T Sadhukha, L Niu, TS Wiedmann, J Panyam
Molecular pharmaceutics 10 (4), 1432-1441, 2013
强制性开放获取政策: US National Institutes of Health
Nano-engineered mesenchymal stem cells increase therapeutic efficacy of anticancer drug through true active tumor targeting
B Layek, T Sadhukha, J Panyam, S Prabha
Molecular Cancer Therapeutics 17 (6), 1196-1206, 2018
强制性开放获取政策: US National Institutes of Health
Highly loaded, sustained-release microparticles of curcumin for chemoprevention
K Shahani, J Panyam
Journal of pharmaceutical sciences 100 (7), 2599-2609, 2011
强制性开放获取政策: US National Institutes of Health
Synthesis, characterization, and evaluation of poly (D,L-lactide-co-glycolide)-based nanoformulation of miRNA-150: potential implications for pancreatic cancer …
S Arora, SK Swaminathan, A Kirtane, SK Srivastava, A Bhardwaj, S Singh, ...
International journal of nanomedicine, 2933-2942, 2014
强制性开放获取政策: US National Institutes of Health
Engineering of anti-CD133 trispecific molecule capable of inducing NK expansion and driving antibody-dependent cell-mediated cytotoxicity
JU Schmohl, M Felices, F Oh, AJ Lenvik, AM Lebeau, J Panyam, JS Miller, ...
Cancer research and treatment: official journal of Korean Cancer Association …, 2017
强制性开放获取政策: US National Institutes of Health
Acidic pH-responsive polymer nanoparticles as a TLR7/8 agonist delivery platform for cancer immunotherapy
H Kim, D Sehgal, TA Kucaba, DM Ferguson, TS Griffith, J Panyam
Nanoscale 10 (44), 20851-20862, 2018
强制性开放获取政策: US National Science Foundation
Improving payload capacity and anti-tumor efficacy of mesenchymal stem cells using TAT peptide functionalized polymeric nanoparticles
G Moku, B Layek, L Trautman, S Putnam, J Panyam, S Prabha
Cancers 11 (4), 491, 2019
强制性开放获取政策: US National Institutes of Health
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