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Shabir Hassan,Yu Shrike Zhang
.2019;()281
[DOI]
2Molecularly Imprinted Poly(2-oxazoline) Based on Cross-Linking by Direct Amidation of Methyl Ester Side Chains
Michal Ceglowski,Richard Hoogenboom
Macromolecules.2018;51(16)6468
[DOI]
3Molecularly Imprinted Poly(2-oxazoline) Based on Cross-Linking by Direct Amidation of Methyl Ester Side Chains
Ashleigh Anderson,James Davis
Macromolecules.2017;51(16)183
[DOI]
4Salicylate release from a polypyrrole matrix
M.B. González,L.I. Brugnoni,S.B. Saidman
Materials Today Communications.2019;18(16)119
[DOI]
5Salicylate release from a polypyrrole matrix
Benjamin E. Blass
Materials Today Communications.2015;18(16)383
[DOI]
6Graphene as a new material in anticancer therapy-in vitro studies
A. Zuchowska,M. Chudy,A. Dybko,Z. Brzozka
Sensors and Actuators B: Chemical.2017;243(16)152
[DOI]
7Peptide-induced formation of a tethered lipid bilayer membrane on mesoporous silica
Maria Wallin,Jae-Hyeok Choi,Seong Oh Kim,Nam-Joon Cho,Martin Andersson
European Biophysics Journal.2015;44(1-2)27
[DOI]
8Toward Improving Medication Adherence: The Suppression of Bitter Taste in Edible Taste Films
Silvy Cherian,Brian Sang Lee,Robin M. Tucker,Kevin Lee,Gregory Smutzer
Advances in Pharmacological Sciences.2018;2018(1-2)1
[DOI]
9Swelling degree prediction of polyhydroxybutyrate/chitosan matrices loaded with “ Arnica-do-Brasil”
Glauco Fonseca Silva,Talita Goulart Silva,Vinícius Guedes Gobbi,Theresa Lomeu Portela,Bruna Nunes Teixeira,Tiago Santos Mendonça,Rossana Mara Silva Moreira Thiré,Renata Nunes Oliveira,Ricardo Stutz Yaunner,Jorge Almeida Rodrigues Junior,Roberta Helena Mendonça
Journal of Applied Polymer Science.2019;136(32)47838
[DOI]
10In Vitro Growth of Human Keratinocytes and Oral Cancer Cells into Microtissues: An Aerosol-Based Microencapsulation Technique
Wai Leong,Chin Soon,Soon Wong,Kian Tee,Sok Cheong,Siew Gan,Mansour Youseffi
Bioengineering.2017;4(4)43
[DOI]
11In Vitro Growth of Human Keratinocytes and Oral Cancer Cells into Microtissues: An Aerosol-Based Microencapsulation Technique
Hafiz M.N. Iqbal,Tajalli Keshavarz
Bioengineering.2018;4(4)377
[DOI]
12In Vitro Growth of Human Keratinocytes and Oral Cancer Cells into Microtissues: An Aerosol-Based Microencapsulation Technique
Christos Papaneophytou,George Katsipis,Eleftherios Halevas,Anastasia A. Pantazaki
Bioengineering.2019;4(4)77
[DOI]
13In Vitro Growth of Human Keratinocytes and Oral Cancer Cells into Microtissues: An Aerosol-Based Microencapsulation Technique
Anika Guliani,Rubbel Singla,Avnesh Kumari,Sudesh Kumar Yadav
Bioengineering.2016;4(4)81
[DOI]
14Intermicellar interaction in surfactant solutions; a review study
Soheila Javadian,Jamal Kakemam
Journal of Molecular Liquids.2017;242(4)115
[DOI]
15Inhibitory effects of Morus nigra L. (Moraceae) against local paw edema and mechanical hypernociception induced by Bothrops jararacussu snake venom in mice
Anita Eugênia Alencar Santos Ribeiro,Juliana Mikaely Dias Soares,Helder Anderson Lima Silva,Carlos Wagner de Souza Wanderley,Celuane Alves Moura,Raimundo Gonçalves de Oliveira-Junior,Ana Paula de Oliveira,Larissa Araújo Rolim,Emmanoel Vilaça Costa,Jackson Roberto Guedes da Silva Almeida,Helinando Pequeno de Oliveira,Raimundo Campos Palheta-Junior
Biomedicine & Pharmacotherapy.2019;111(4)1046
[DOI]
16Newly synthesized bolaamphiphiles from castor oil and their aggregated morphologies for potential use in drug delivery
Monique B. Ewonkem,Sarina Grinberg,Gabriel Lemcoff,Eleonora Shaubi,Charles Linder,Eliahu Heldman
Tetrahedron.2015;71(45)8557
[DOI]
17Polymers for extended-release administration
Marion S. Paolini,Owen S. Fenton,Chandrabali Bhattacharya,Jason L. Andresen,Robert Langer
Biomedical Microdevices.2019;21(2)8557
[DOI]
18Anisotropic noble metal nanoparticles: Synthesis, surface functionalization and applications in biosensing, bioimaging, drug delivery and theranostics
Gokul Paramasivam,Namitharan Kayambu,Arul Maximus Rabel,Ashok K. Sundramoorthy,Anandhakumar Sundaramurthy
Acta Biomaterialia.2017;49(2)45
[DOI]
19Nanoparticles in drug delivery: mechanism of action, formulation and clinical application towards reduction in drug-associated nephrotoxicity
Dustin L Cooper,Christopher M Conder,Sam Harirforoosh
Expert Opinion on Drug Delivery.2014;11(10)1661
[DOI]
20Nanoparticles in drug delivery: mechanism of action, formulation and clinical application towards reduction in drug-associated nephrotoxicity
Prasoon Pandey,Neelam Balekar
Expert Opinion on Drug Delivery.2018;11(10)117
[DOI]
21Encapsulation of graphene quantum dot-crosslinked chitosan by carboxymethylcellulose hydrogel beads as a pH-responsive bio-nanocomposite for the oral delivery agent
Siamak Javanbakht,Ahmad Shaabani
International Journal of Biological Macromolecules.2019;123(10)389
[DOI]
22A simple way for targeted delivery of an antibiotic: In vitro evaluation of a nanoclay-based composite
Leslie Valdés,Irela Pérez,Louis Charles de Ménorval,Ernesto Altshuler,Jon Otto Fossum,Aramis Rivera,Yogendra Kumar Mishra
PLOS ONE.2017;12(11)e0187879
[DOI]
23Introduction and synthesis of polymeric prodrugs
Youya Gao
MOJ Bioequivalence & Bioavailability.2018;5(3)e0187879
[DOI]
24Star-shaped lactic acid based systems and their thermosetting resins; synthesis, characterization, potential opportunities and drawbacks
Arash Jahandideh,Kasiviswanathan Muthukumarappan
European Polymer Journal.2017;87(3)360
[DOI]
25Star-shaped lactic acid based systems and their thermosetting resins; synthesis, characterization, potential opportunities and drawbacks
Vijay Kothari,Chinmayi Joshi,Pooja Patel,Deepa Shahi,Charmi Mehta,Bhumika Prajapati,Sweta Patel,Dipeeka Mandaliya,Sriram Seshadri
European Polymer Journal.2018;87(3)325
[DOI]
26Star-shaped lactic acid based systems and their thermosetting resins; synthesis, characterization, potential opportunities and drawbacks
Tatiana Andreani,Patrícia Severino,Luciana M. de Hollanda,Monica Vazzana,Selma B. Souto,Antonello Santini,Amélia M. Silva,Eliana B. Souto
European Polymer Journal.2017;87(3)241
[DOI]
27Star-shaped lactic acid based systems and their thermosetting resins; synthesis, characterization, potential opportunities and drawbacks
Wanda Sikorska,Marta Musiol,Barbara Zawidlak-Wegrzynska,Joanna Rydz
European Polymer Journal.2019;87(3)2733
[DOI]
28Star-shaped lactic acid based systems and their thermosetting resins; synthesis, characterization, potential opportunities and drawbacks
Murali Yallapu,Meena Jaggi,Subhash Chauhan
European Polymer Journal.2016;87(3)651
[DOI]
29PEG functionalized zirconium dicarboxylate MOFs for docetaxel drug delivery in vitro
Vandana Gupta,Shanid Mohiyuddin,Abhay Sachdev,P.K. Soni,P. Gopinath,Sachin Tyagi
Journal of Drug Delivery Science and Technology.2019;52(3)846
[DOI]
30PEG functionalized zirconium dicarboxylate MOFs for docetaxel drug delivery in vitro
V.N. Pandey,Neha Tiwari,V.S. Pandey,Anita Rao,Ishwar Das
Journal of Drug Delivery Science and Technology.2019;52(3)437
[DOI]
31PEG functionalized zirconium dicarboxylate MOFs for docetaxel drug delivery in vitro
Patrícia Mazureki Campos,Maria Vitória Lopes Badra Bentley,Vladimir P. Torchilin
Journal of Drug Delivery Science and Technology.2016;52(3)1
[DOI]
32Drug encapsulated polymeric microspheres for intracranial tumor therapy: A review of the literature
J. Alaina Floyd,Anna Galperin,Buddy D. Ratner
Advanced Drug Delivery Reviews.2015;91(3)23
[DOI]
33Polymer sutures for simultaneous wound healing and drug delivery – A review
Blessy Joseph,Anne George,Sreeraj Gopi,Nandakumar Kalarikkal,Sabu Thomas
International Journal of Pharmaceutics.2017;524(1-2)454
[DOI]
34Nanotechnology: an effective tool for enhancing bioavailability and bioactivity of phytomedicine
Thirumurugan Gunasekaran,Tedesse Haile,Tedele Nigusse,Magharla Dasaratha Dhanaraju
Asian Pacific Journal of Tropical Biomedicine.2014;4(1-2)S1
[DOI]
35Two-component cross-linkable gels for fabrication of solid oral dosage forms
Tsuf Croitoru-Sadger,Sivan Yogev,Ayelet Shabtay-Orbach,Boaz Mizrahi
Journal of Controlled Release.2019;303(1-2)274
[DOI]
36Enhancing the efficiency of bortezomib conjugated to pegylated gold nanoparticles: anin vitrostudy on human pancreatic cancer cells and adenocarcinoma human lung alveolar basal epithelial cells
Sílvia Castro Coelho,Gabriela M. Almeida,Filipe Santos-Silva,Maria Carmo Pereira,Manuel A. N. Coelho
Expert Opinion on Drug Delivery.2016;13(8)1075
[DOI]
37Mechanistic and structural basis of bioengineered bovine Cathelicidin-5 with optimized therapeutic activity
Bikash R. Sahoo,Kenta Maruyama,Jyotheeswara R. Edula,Takahiro Tougan,Yuxi Lin,Young-Ho Lee,Toshihiro Horii,Toshimichi Fujiwara
Scientific Reports.2017;7(1)1075
[DOI]
383D aerogel of cellulose triacetate with supercritical antisolvent process for drug delivery
Cheng Wang,Satoko Okubayashi
The Journal of Supercritical Fluids.2019;148(1)33
[DOI]
39Did the presence of a guest in the cavity of an arene ruthenium metallaprism modify its reactivity towards biomolecules?
Lydia E.H. Paul,Bruno Therrien,Julien Furrer
Journal of Organometallic Chemistry.2015;796(1)39
[DOI]
40Evolution of the scientific literature on drug delivery: A 1974–2015 bibliometric study
C. Robert,C.S. Wilson,A. Venuta,M. Ferrari,C.-D. Arreto
Journal of Controlled Release.2017;260(1)226
[DOI]
41Self-Assembling Monomeric Nucleoside Molecular Nanoparticles Loaded with 5-FU Enhancing Therapeutic Efficacy against Oral Cancer
Hang Zhao,Hui Feng,Dongjuan Liu,Jiang Liu,Ning Ji,Fangman Chen,Xiaobo Luo,Yu Zhou,Hongxia Dan,Xin Zeng,Jing Li,Congkui Sun,Jinyu Meng,Xiaojie Ju,Min Zhou,Hanshuo Yang,Longjiang Li,Xinhua Liang,Liangyin Chu,Lu Jiang,Yang He,Qianming Chen
ACS Nano.2015;9(10)9638
[DOI]
42Nonspecific nanocarriers for doxorubicin and cytarabine in the presence of fatted and defatted human albumin. Part I
Danuta Pentak,Malgorzata Maciazek-Jurczyk
Journal of Molecular Liquids.2019;278(10)115
[DOI]
43Cold Atmospheric Plasma Parameters Investigation for Efficient Drug Delivery in HeLa Cells
Vinodini Vijayarangan,Anthony Delalande,Sebastien Dozias,Jean-Michel Pouvesle,Chantal Pichon,Eric Robert
IEEE Transactions on Radiation and Plasma Medical Sciences.2018;2(2)109
[DOI]
44Magnetic iron oxide nanoparticles as drug carriers: clinical relevance
Kheireddine El-Boubbou
Nanomedicine.2018;13(8)953
[DOI]
45Magnetic iron oxide nanoparticles as drug carriers: clinical relevance
Ligia N.M. Ribeiro,Ana C.S. Alcantara,Michelle Franz-Montan,Veronica M. Couto,Silvia V.G. Nista,Eneida de Paula
Nanomedicine.2019;13(8)341
[DOI]
46The Potential of Liposomes with Carbonic Anhydrase IX to Deliver Anticancer Ingredients to Cancer Cells in Vivo
Huei Ng,Aiping Lu,Ge Lin,Ling Qin,Zhijun Yang
International Journal of Molecular Sciences.2014;16(1)230
[DOI]
47The Potential of Liposomes with Carbonic Anhydrase IX to Deliver Anticancer Ingredients to Cancer Cells in Vivo
Srinivas Abbina,Anilkumar Parambath
International Journal of Molecular Sciences.2018;16(1)363
[DOI]
48Biomedical Applications of Silver Nanoparticles: An Up-to-Date Overview
Alexandra-Cristina Burdu?el,Oana Gherasim,Alexandru Mihai Grumezescu,Lauren?iu Mogoanta,Anton Ficai,Ecaterina Andronescu
Nanomaterials.2018;8(9)681
[DOI]
49Biomedical Applications of Silver Nanoparticles: An Up-to-Date Overview
Wanda Sikorska,Marta Musiol,Barbara Zawidlak-Wegrzynska,Joanna Rydz
Nanomaterials.2017;8(9)1
[DOI]
50Nanotheranostic approaches for management of bloodstream bacterial infections
Pramod Jagtap,Venkataraman Sritharan,Shalini Gupta
Nanomedicine: Nanotechnology, Biology and Medicine.2017;13(1)329
[DOI]
51(Trans) dermal insulin delivery based on polymeric systems
Shiva Darvishha,Sahar Amiri
International Journal of Polymeric Materials and Polymeric Biomaterials.2019;13(1)1
[DOI]
52Fibrinogen ?-Chain Peptide–Coated Adenosine 5' Diphosphate–Encapsulated Liposomes Rescue Mice From Lethal Blast Lung Injury via Adenosine Signaling*
Kohsuke Hagisawa,Manabu Kinoshita,Hiroki Miyawaki,Shunichi Sato,Hiromi Miyazaki,Shinji Takeoka,Hidenori Suzuki,Keiichi Iwaya,Shuhji Seki,Satoshi Shono,Daizoh Saitoh,Yasuhiro Nishida,Makoto Handa
Critical Care Medicine.2016;44(9)e827
[DOI]
53Rheology-sensitive response of zeolite-supported anti-inflammatory drug systems
R. Pasquino,M. Di Domenico,F. Izzo,D. Gaudino,V. Vanzanella,N. Grizzuti,B. de Gennaro
Colloids and Surfaces B: Biointerfaces.2016;146(9)938
[DOI]
54Chemical Reactivity Window Determines Prodrug Efficiency toward Glutathione Transferase Overexpressing Cancer Cells
Marike W. van Gisbergen,Marcus Cebula,Jie Zhang,Astrid Ottosson-Wadlund,Ludwig Dubois,Philippe Lambin,Kenneth D. Tew,Danyelle M. Townsend,Guido R. M. M. Haenen,Marie-José Drittij-Reijnders,Hisao Saneyoshi,Mika Araki,Yuko Shishido,Yoshihiro Ito,Elias S. J. Arnér,Hiroshi Abe,Ralf Morgenstern,Katarina Johansson
Molecular Pharmaceutics.2016;13(6)2010
[DOI]
55Preparation of Colon-Targeted Acetylharpagide Tablets and its Release Properties in vivo and in vitro
DeWen Liu,Huijie Yan,Yiming Kong,Yun You,Yanling Li,Lixin Wang,Yan Tong,Jinyu Wang
Frontiers in Pharmacology.2018;9(6)2010
[DOI]
56Aspirin-Triggered Resolvin D1-modified materials promote the accumulation of pro-regenerative immune cell subsets and enhance vascular remodeling
Mary Caitlin P. Sok,Maxianne C. Tria,Claire E. Olingy,Cheryl L. San Emeterio,Edward A. Botchwey
Acta Biomaterialia.2017;53(6)109
[DOI]
57Aspirin-Triggered Resolvin D1-modified materials promote the accumulation of pro-regenerative immune cell subsets and enhance vascular remodeling
Azhar U. Khan,Nazia Malik,Tanvir Arfin
Acta Biomaterialia.2017;53(6)331
[DOI]
58Current development of nanocarrier delivery systems for Parkinson's disease pharmacotherapy
Yung-Chih Kuo,Rajendiran Rajesh
Journal of the Taiwan Institute of Chemical Engineers.2018;87(6)15
[DOI]
59Current development of nanocarrier delivery systems for Parkinson's disease pharmacotherapy
Valérie Stiger-Pouvreau,Fabienne Guerard
Journal of the Taiwan Institute of Chemical Engineers.2018;87(6)709
[DOI]
60Current development of nanocarrier delivery systems for Parkinson's disease pharmacotherapy
S. Lee,J.-H Ahn,H. Choi,J. M. Seo,D. Cho,K. Koo
Journal of the Taiwan Institute of Chemical Engineers.2015;87(6)3541
[DOI]
61Synthesis, Characterisation and In Vitro Permeation, Dissolution and Cytotoxic Evaluation of Ruthenium(II)-Liganded Sulpiride and Amino Alcohol
Gretta C. M’bitsi-Ibouily,Thashree Marimuthu,Pradeep Kumar,Yahya E. Choonara,Lisa C. du Toit,Priyamvada Pradeep,Girish Modi,Viness Pillay
Scientific Reports.2019;9(1)3541
[DOI]
62Synthesis of Sulfur-Based Biocompatible Nonionic Surfactants and Their Nano-Vesicle Drug Delivery
Imdad Ali,Muhammad Raza Shah,Muhammad Imran,Muhammad Shafiullah
Journal of Surfactants and Detergents.2017;20(6)1367
[DOI]
63Chitosan grafted low molecular weight polylactic acid for protein encapsulation and burst effect reduction
Antonio Di Martino,Pavel Kucharczyk,Jiri Zednik,Vladimir Sedlarik
International Journal of Pharmaceutics.2015;496(2)912
[DOI]
64Role of Lipid Coating in the Transport of Nanodroplets across the Pulmonary Surfactant Layer Revealed by Molecular Dynamics Simulations
Yan Xu,Shixin Li,Zhen Luo,Hao Ren,Xianren Zhang,Fang Huang,Yi Y. Zuo,Tongtao Yue
Langmuir.2018;34(30)9054
[DOI]
65Light-Guiding Biomaterials for Biomedical Applications
Soroush Shabahang,Seonghoon Kim,Seok-Hyun Yun
Advanced Functional Materials.2018;28(24)1706635
[DOI]
66Amphiphilic poly-N-vinylpyrrolidone nanoparticles as carriers for non-steroidal, anti-inflammatory drugs: In vitro cytotoxicity and in vivo acute toxicity study
Andrey N. Kuskov,Pavel P. Kulikov,Anastasia V. Goryachaya,Manolis N. Tzatzarakis,Anca O. Docea,Kelly Velonia,Mikhail I. Shtilman,Aristidis M. Tsatsakis
Nanomedicine: Nanotechnology, Biology and Medicine.2017;13(3)1021
[DOI]
67Chemical Characterization of Aerosol Particles Using On-Chip Photonic Cavity Enhanced Spectroscopy
Robin Singh,Danhao Ma,Lionel Kimerling,Anuradha Murthy Agarwal,Brian W. Anthony
ACS Sensors.2019;4(3)571
[DOI]
68Cardiovascular Outcome Trials of Diabetes and Obesity Drugs: Implications for Conditional Approval and Early Phase Clinical Development
Andrew J. Krentz,Gerardo Rodriguez-Araujo
Pharmaceutical Medicine.2017;31(6)399
[DOI]
69Cardiovascular Outcome Trials of Diabetes and Obesity Drugs: Implications for Conditional Approval and Early Phase Clinical Development
Sana Suhail,Lakshmi S. Nair
Pharmaceutical Medicine.2018;31(6)229
[DOI]
70Molecularly imprinted polymers for enhanced impregnation and controlled release of l-tyrosine
Vanessa R.A. Ferreira,Manuel A. Azenha,Carlos M. Pereira,A. Fernando Silva
Reactive and Functional Polymers.2018;131(6)283
[DOI]
71Molecularly imprinted polymers for enhanced impregnation and controlled release of l-tyrosine
M. Bassas-Galia,S. Follonier,M. Pusnik,M. Zinn
Reactive and Functional Polymers.2017;131(6)31
[DOI]
72Ionic liquids as a potential tool for drug delivery systems
Noorul Adawiyah,Muhammad Moniruzzaman,Siti Hawatulaila,Masahiro Goto
MedChemComm.2016;7(10)1881
[DOI]
73Vitamin B12 Suitably Tailored for Disulfide-Based Conjugation
Aleksandra Wierzba,Monika Wojciechowska,Joanna Trylska,Dorota Gryko
Bioconjugate Chemistry.2016;27(1)189
[DOI]
74pH responsive controlled release of anti-cancer hydrophobic drugs from sodium alginate and hydroxyapatite bi-coated iron oxide nanoparticles
Danushika C. Manatunga,Rohini M. de Silva,K.M. Nalin de Silva,Nuwan de Silva,Shiva Bhandari,Yoke Khin Yap,N. Pabakara Costha
European Journal of Pharmaceutics and Biopharmaceutics.2017;117(1)29
[DOI]
75Application of pH-Responsive Fucoidan/Chitosan Nanoparticles to Improve Oral Quercetin Delivery
Ana Barbosa,Sofia Costa Lima,Salette Reis
Molecules.2019;24(2)346
[DOI]
76Photothermally Controllable Cytosolic Drug Delivery Based On Core–Shell MoS2-Porous Silica Nanoplates
Junseok Lee,Jinhwan Kim,Won Jong Kim
Chemistry of Materials.2016;28(17)6417
[DOI]
77Photothermally Controllable Cytosolic Drug Delivery Based On Core–Shell MoS2-Porous Silica Nanoplates
D.P. Pacheco,L. Zorzetto,P. Petrini
Chemistry of Materials.2017;28(17)59
[DOI]
78Unlocking Nanocarriers for the Programmed Release of Antimalarial Drugs
Amir Reza Bagheri,Seema Agarwal,Jacob Golenser,Andreas Greiner
Global Challenges.2017;1(2)1600011
[DOI]
79Adaptive Chitosan Hollow Microspheres as Efficient Drug Carrier
Ya-nan Fu,Yongsan Li,Guofeng Li,Lei Yang,Qipeng Yuan,Lei Tao,Xing Wang
Biomacromolecules.2017;18(7)2195
[DOI]
80Adaptive Chitosan Hollow Microspheres as Efficient Drug Carrier
Manish Kumar,Amandeep Brar,V. Vivekanand,Nidhi Pareek
Biomacromolecules.2019;18(7)167
[DOI]
81Microspheres prepared with different co-polymers of poly(lactic-glycolic acid) (PLGA) or with chitosan cause distinct effects on macrophages
Claudia da Silva Bitencourt,Letícia Bueno da Silva,Priscilla Aparecida Tartari Pereira,Guilherme Martins Gelfuso,Lúcia Helena Faccioli
Colloids and Surfaces B: Biointerfaces.2015;136(7)678
[DOI]
82Microspheres prepared with different co-polymers of poly(lactic-glycolic acid) (PLGA) or with chitosan cause distinct effects on macrophages
Simona Kranjc,Urska Kamensek,Maja Cemažar,Gregor Serša
Colloids and Surfaces B: Biointerfaces.2017;136(7)1699
[DOI]
83Re-designing materials for biomedical applications: from biomimicry to nature-inspired chemical engineering
Ayomi S. Perera,Marc-Olivier Coppens
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.2019;377(2138)20180268
[DOI]
84Re-designing materials for biomedical applications: from biomimicry to nature-inspired chemical engineering
Juan M.R. Albano,Eneida de Paula,Monica Pickholz
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.2018;377(2138)20180268
[DOI]
85One-step synthesis of phyto-polymer coated gold nanospheres as a delivery system to enhance resveratrol cytotoxicity
Maha Fadel,Kawser Kassab,Tareq Youssef,Abdullah I. El-Kholy
Drug Development and Industrial Pharmacy.2019;45(6)937
[DOI]
86The role of crown ethers in drug delivery
Gholamabbas Chehardoli,Asrin Bahmani
Supramolecular Chemistry.2019;31(4)221
[DOI]
87Continuous-wave laser-assisted injection of single magnetic nanobeads into living cells
Jing Zhong,Hengjun Liu,Hisataka Maruyama,Taisuke Masuda,Fumihito Arai
Sensors and Actuators B: Chemical.2016;230(4)298
[DOI]
88Development of sericin/alginate beads of ketoprofen using experimental design: Formulation and in vitro dissolution evaluation
Emanuelle Dantas de Freitas,Paulo Cesar Pires Rosa,Meuris Gurgel Carlos da Silva,Melissa Gurgel Adeodato Vieira
Powder Technology.2018;335(4)315
[DOI]
89Organic Nanoparticle-Based Fluorescent Chemosensor for Selective Switching ON and OFF of Photodynamic Therapy (PDT)
Moumita Gangopadhyay,Avijit Jana,Y. Rajesh,Manoranjan Bera,Sandipan Biswas,Nilanjana Chowdhury,Yanli Zhao,Mahitosh Mandal,N. D. Pradeep Singh
ChemistrySelect.2016;1(20)6523
[DOI]
90Novel polysaccharide nanowires; synthesized from pectin-modified methacrylate
Ravichandran H. Kollarigowda
RSC Advances.2015;5(124)102143
[DOI]
91Novel polysaccharide nanowires; synthesized from pectin-modified methacrylate
Milda Jakutaviciute,Paulius Ruzgys,Mindaugas Tamošiunas,Martynas Maciulevicius,Saulius Šatkauskas
RSC Advances.2017;227(124)73
[DOI]
92Health-promoting effects of konjac glucomannan and its practical applications: A critical review
Ramya Devi Devaraj,Chagam Koteswara Reddy,Baojun Xu
International Journal of Biological Macromolecules.2019;126(124)273
[DOI]
93New generation of drug delivery systems based on ginsenoside Rh2-, Lysine- and Arginine-treated highly porous graphene for improving anticancer activity
Hadi Zare-Zardini,Asghar Taheri-Kafrani,Ahmad Amiri,Abdol-Khalegh Bordbar
Scientific Reports.2018;8(1)273
[DOI]
94New generation of drug delivery systems based on ginsenoside Rh2-, Lysine- and Arginine-treated highly porous graphene for improving anticancer activity
Leena Kumari,Hemant Ramachandra Badwaik
Scientific Reports.2019;8(1)497
[DOI]
95Coaxial electrospun fibers: applications in drug delivery and tissue engineering
Yang Lu,Jiangnan Huang,Guoqiang Yu,Romel Cardenas,Suying Wei,Evan K. Wujcik,Zhanhu Guo
Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology.2016;8(5)654
[DOI]
96Coaxial electrospun fibers: applications in drug delivery and tissue engineering
Yandi Syukri,Bambang Hernawan Nugroho
Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology.2018;2033(5)020051
[DOI]
97Environmental usefulness of PLA/PEG blends for controlled-release systems of soil-applied herbicides
Piotr Rychter,Kamila Lewicka,Diana Rogacz
Journal of Applied Polymer Science.2019;136(33)47856
[DOI]
98Environmental usefulness of PLA/PEG blends for controlled-release systems of soil-applied herbicides
Varsha Gupta,Manjistha Sengupta,Jaya Prakash,Baishnab Charan Tripathy
Journal of Applied Polymer Science.2017;136(33)279
[DOI]
99Biodistribution study of 99mTc-gemcitabine-loaded spherulites in Sprague–Dawley rats by gamma scintigraphy to investigate its lung targeting potential
Rahul Dhande,Amit Tyagi,Rakesh Kumar Sharma,Hetal Thakkar
Journal of Microencapsulation.2017;34(7)623
[DOI]
100Biodistribution study of 99mTc-gemcitabine-loaded spherulites in Sprague–Dawley rats by gamma scintigraphy to investigate its lung targeting potential
Jiannan Li,Jianxun Ding,Tongjun Liu,Jessica F. Liu,Lesan Yan,Xuesi Chen
Journal of Microencapsulation.2017;282(7)109
[DOI]
101Biomacromolecules as carriers in drug delivery and tissue engineering
Yujie Zhang,Tao Sun,Chen Jiang
Acta Pharmaceutica Sinica B.2018;8(1)34
[DOI]
102Biomacromolecules as carriers in drug delivery and tissue engineering
Ankur Gupta,Pramod Pal
Acta Pharmaceutica Sinica B.2019;8(1)183
[DOI]
103Conjugates and nano-delivery of antimicrobial peptides for enhancing therapeutic activity
Mbuso Faya,Rahul S. Kalhapure,Hezekiel M. Kumalo,Ayman Y. Waddad,Calvin Omolo,Thirumala Govender
Journal of Drug Delivery Science and Technology.2018;44(1)153
[DOI]
104Liposome-targeted delivery for highly potent drugs
Hassan Bardania,Shabnam Tarvirdipour,Farid Dorkoosh
Artificial Cells, Nanomedicine, and Biotechnology.2017;45(8)1478
[DOI]
105Progress and challenges in the optimization of toxin peptides for development as pain therapeutics
Chawita Netirojjanakul,Les P Miranda
Current Opinion in Chemical Biology.2017;38(8)70
[DOI]
106Progress and challenges in the optimization of toxin peptides for development as pain therapeutics
Aneeqa Sabah,Gabour Loius Hornyak
Current Opinion in Chemical Biology.2018;38(8)83
[DOI]
107A molecular dynamics simulation study on the mechanism of loading of gemcitabine and camptothecin in poly lactic-co-glycolic acid as a nano drug delivery system
Mohabbat Ansari,Sajad Moradi,Mohsen Shahlaei
Journal of Molecular Liquids.2018;269(8)110
[DOI]
108RETRACTED: Novel drug delivery carrier from alginate-carrageenan and glycerol as plasticizer
Handoko Darmokoesoemo,Pratiwi Pudjiastuti,Bagus Rahmatullah,Heri Septya Kusuma
Results in Physics.2017;7(8)2979
[DOI]
109Highly Porous Silk Fibroin Scaffold Packed in PEGDA/Sucrose Microneedles for Controllable Transdermal Drug Delivery
Ya Gao,Mengmeng Hou,Ruihao Yang,Lei Zhang,Zhigang Xu,Yuejun Kang,Peng Xue
Biomacromolecules.2019;20(3)1334
[DOI]
110A novel [Mn2(µ-(C6H5)2CHCOO)2(bipy)4](bipy)(ClO4)2 complex loaded solid lipid nanoparticles: synthesis, characterization and in vitro cytotoxicity on MCF-7 breast cancer cells
G. Guney Eskiler,G. Cecener,G. Dikmen,I. Kani,U. Egeli,B. Tunca
Journal of Microencapsulation.2016;33(6)575
[DOI]
111Linear and Non-Linear Optical Imaging of Cancer Cells with Silicon Nanoparticles
Elen Tolstik,Liubov Osminkina,Denis Akimov,Maksim Gongalsky,Andrew Kudryavtsev,Victor Timoshenko,Rainer Heintzmann,Vladimir Sivakov,Jürgen Popp
International Journal of Molecular Sciences.2016;17(9)1536
[DOI]
112Quality-by-design model in optimization of PEG-PLGA nano micelles for targeted cancer therapy
Zahra Eskandari,Fatma Kazdal,Fatemeh Bahadori,Nabiallah Ebrahimi
Journal of Drug Delivery Science and Technology.2018;48(9)393
[DOI]
113In vitro and in vivo evaluation of electrochemotherapy with trans-platinum analogue trans-[PtCl2(3-Hmpy)2]
Simona Kranjc,Maja Cemazar,Gregor Sersa,Janez Scancar,Sabina Grabner
Radiology and Oncology.2017;51(3)295
[DOI]
114Development of sericin/alginate particles by ionic gelation technique for the controlled release of diclofenac sodium
Jacyara Moreira Martins Vidart,Thiago Lopes da Silva,Paulo César Pires Rosa,Melissa Gurgel Adeodato Vieira,Meuris Gurgel Carlos da Silva
Journal of Applied Polymer Science.2018;135(12)45919
[DOI]
115Silymarin-loaded Eudragit ® RS100 nanoparticles improved the ability of silymarin to resolve hepatic fibrosis in bile duct ligated rats
N. Younis,Mohamed A. Shaheen,Marwa H Abdallah
Biomedicine & Pharmacotherapy.2016;81(12)93
[DOI]
116Oligonucleotide therapy: An emerging focus area for drug delivery in chronic inflammatory respiratory diseases
Meenu Mehta,Meenu Deeksha,Devesh Tewari,Gaurav Gupta,Rajendra Awasthi,Harjeet Singh,Parijat Pandey,Dinesh Kumar Chellappan,Ridhima Wadhwa,Trudi Collet,Philip M. Hansbro,S Rajesh Kumar,Lakshmi Thangavelu,Poonam Negi,Kamal Dua,Saurabh Satija
Chemico-Biological Interactions.2019;308(12)206
[DOI]
117Role of size of drug delivery carriers for pulmonary and intravenous administration with emphasis on cancer therapeutics and lung-targeted drug delivery
Chetna Dhand,Molamma P. Prabhakaran,Roger W. Beuerman,R. Lakshminarayanan,Neeraj Dwivedi,Seeram Ramakrishna
RSC Adv..2014;4(62)32673
[DOI]
118Cysteine and arginine-rich peptides as molecular carriers
Amir Nasrolahi Shirazi,Naglaa Salem El-Sayed,Dindayal Mandal,Rakesh K. Tiwari,Kathy Tavakoli,Matthew Etesham,Keykavous Parang
Bioorganic & Medicinal Chemistry Letters.2016;26(2)656
[DOI]
119Investigation of micromechanical properties of hard sphere filled composite hydrogels by atomic force microscopy and finite element simulations
Guanlin Tang,Massimiliano Galluzzi,Chandra Sekhar Biswas,Florian J. Stadler
Journal of the Mechanical Behavior of Biomedical Materials.2018;78(2)496
[DOI]
120Targeting vitamin E TPGS–cantharidin conjugate nanoparticles for colorectal cancer therapy
Shihou Sheng,Tao Zhang,Shijie Li,Jun Wei,Guangjun Xu,Tianhong Sun,Yahong Chen,Fengqing Lu,Yongchao Li,Jinghui Yang,Huiqiu Yu,Tongjun Liu,Gang Han
RSC Advances.2015;5(66)53846
[DOI]
121Microfluidics as a cutting-edge technique for drug delivery applications
Flavia Fontana,Mónica P.A. Ferreira,Alexandra Correia,Jouni Hirvonen,Hélder A. Santos
Journal of Drug Delivery Science and Technology.2016;34(66)76
[DOI]
122Surfactant Effects on Lipid-Based Vesicles Properties
Ruba Bnyan,Iftikhar Khan,Touraj Ehtezazi,Imran Saleem,Sarah Gordon,Francis O'Neill,Matthew Roberts
Journal of Pharmaceutical Sciences.2018;107(5)1237
[DOI]
123Publication Trends in Drug Delivery and Magnetic Nanoparticles
Saba Ale Ebrahim,Amirhossein Ashtari,Maysam Zamani Pedram,Nader Ale Ebrahim
Nanoscale Research Letters.2019;14(1)1237
[DOI]
124Entrapment of Drugs within Metallic Platinum and Their Delivery
Barak Menagen,David Avnir
ACS Biomaterials Science & Engineering.2019;5(5)2355
[DOI]
125The complex-in-a-complex cation [Pt(acac) 2 ?( p -cym) 6 Ru 6 (tpt) 2 (dhnq) 3 ] 6+ : Its stability towards biological ligands
Lydia E.H. Paul,Bruno Therrien,Julien Furrer
Inorganica Chimica Acta.2018;469(5)1
[DOI]
126Palm Oil in Lipid-Based Formulations and Drug Delivery Systems
Danial Efendy Goon,Siti Hamimah Sheikh Abdul Kadir,Normala Ab Latip,Sharaniza Ab. Rahim,Musalmah Mazlan
Biomolecules.2019;9(2)64
[DOI]
127Industrial use of pepper (Capsicum annum L.) derived products: Technological benefits and biological advantages
N. Baenas,M. Belovic,N. Ilic,D.A. Moreno,C. García-Viguera
Food Chemistry.2019;274(2)872
[DOI]
128Industrial use of pepper (Capsicum annum L.) derived products: Technological benefits and biological advantages
Petar Nikolov,Georgi Banishki,Milena Nikolova-Vlahova
Food Chemistry.2017;274(2)1
[DOI]
129Intranasal application of PACAP and ß-cyclodextrin before the “critical period of proestrous stage” can block ovulation
Andrea Heinzlmann,Márk Oláh,Katalin Köves
Biologia Futura.2019;70(1)62
[DOI]
130Intranasal application of PACAP and ß-cyclodextrin before the “critical period of proestrous stage” can block ovulation
Telma Zambanini,Roger Borges,Juliana Marchi
Biologia Futura.2017;70(1)287
[DOI]
131Activity and Cell-Death Pathway in Leishmania infantum Induced by Sugiol: Vectorization Using Yeast Cell Wall Particles Obtained From Saccharomyces cerevisiae
Débora Botura Scariot,Hélito Volpato,Nilma de Souza Fernandes,Edna Filipa Pais Soares,Tânia Ueda-Nakamura,Benedito Prado Dias-Filho,Zia Ud Din,Edson Rodrigues-Filho,Adley Forti Rubira,Olga Borges,Maria Do Céu Sousa,Celso Vataru Nakamura
Frontiers in Cellular and Infection Microbiology.2019;9(1)287
[DOI]
132Activity and Cell-Death Pathway in Leishmania infantum Induced by Sugiol: Vectorization Using Yeast Cell Wall Particles Obtained From Saccharomyces cerevisiae
George Dan Mogosanu,Alexandru Mihai Grumezescu
Frontiers in Cellular and Infection Microbiology.2015;9(1)477
[DOI]
133Blurring the Role of Oligonucleotides: Spherical Nucleic Acids as a Drug Delivery Vehicle
Xuyu Tan,Xueguang Lu,Fei Jia,Xiaofan Liu,Yehui Sun,Jessica K. Logan,Ke Zhang
Journal of the American Chemical Society.2016;138(34)10834
[DOI]
134Alginate-based encapsulation of extracts from beta Vulgaris cv . beet greens: Stability and controlled release under simulated gastrointestinal conditions
Natalia Gorbunova,Anna Bannikova,Aleksandr Evteev,Ivan Evdokimov,Stefan Kasapis
LWT.2018;93(34)442
[DOI]
135Alginate-based encapsulation of extracts from beta Vulgaris cv . beet greens: Stability and controlled release under simulated gastrointestinal conditions
Vandita Kakkar,Nancy Modgill,Manoj Kumar
LWT.2016;93(34)529
[DOI]
136Preparation of Protein Nanoparticles Using NTA End Functionalized Polystyrenes on the Interface of a Multi-Laminated Flow Formed in a Microchannel
Hyeong Jeon,Chae Lee,Moon Kim,Xuan Nguyen,Dong Park,Hyung Kim,Jeung Go,Hyun-jong Paik
Micromachines.2017;8(1)10
[DOI]
137Rationally designed peptide nanosponges for cell-based cancer therapy
Hongwang Wang,Asanka S. Yapa,Nilusha L. Kariyawasam,Tej B. Shrestha,Madumali Kalubowilage,Sebastian O. Wendel,Jing Yu,Marla Pyle,Matthew T. Basel,Aruni P. Malalasekera,Yubisela Toledo,Raquel Ortega,Prem S. Thapa,Hongzhou Huang,Susan X. Sun,Paul E. Smith,Deryl L. Troyer,Stefan H. Bossmann
Nanomedicine: Nanotechnology, Biology and Medicine.2017;13(8)2555
[DOI]
138Molecular imprinted polymers as drug delivery vehicles
Shabi Abbas Zaidi
Drug Delivery.2014;13(8)1
[DOI]
139Characterization and toxicity of citral incorporated with nanostructured lipid carrier
Noraini Nordin,Swee Keong Yeap,Nur Rizi Zamberi,Nadiah Abu,Nurul Elyani Mohamad,Heshu Sulaiman Rahman,Chee Wun How,Mas Jaffri Masarudin,Rasedee Abdullah,Noorjahan Banu Alitheen
PeerJ.2018;6(8)e3916
[DOI]
140Permeation Efficacy of a Transdermal Vehicle with Steroidal Hormones and Nonsteroidal Anti-inflammatory Agents as Model Drugs
Laura A. Junqueira,Hudson Polonini,Sharlene Loures,Nádia R.B. Raposo,Anderson O. Ferreira,Marcos Antônio F. Brandão
Current Drug Delivery.2018;16(2)136
[DOI]
141Stimuli-responsive lipid nanotubes in gel formulations for the delivery of doxorubicin
Sibel Ilbasmis-Tamer,Hande Unsal,Fatmanur Tugcu-Demiroz,Gokce Dicle Kalaycioglu,Ismail Tuncer Degim,Nihal Aydogan
Colloids and Surfaces B: Biointerfaces.2016;143(2)406
[DOI]
142Stimuli-responsive lipid nanotubes in gel formulations for the delivery of doxorubicin
Hwiwon Lee,Minsoo Cho,Jeong Ho Lee,Jong Hwan Mun,Byung Woo Hwang,Hyemin Kim,Sei Kwang Hahn
Colloids and Surfaces B: Biointerfaces.2018;143(2)607
[DOI]
143Recent View on Pectin-Based Polysaccharide Nanoscience and Their Biological Applications
Ravichandran H. Kollarigowda
Nano LIFE.2017;07(02)1730002
[DOI]
144Drug Conjugation Affects Pharmacokinetics and Specificity of Kidney-Targeted Peptide Carriers
Maria Janzer,Gregor Larbig,Armin Kübelbeck,Artjom Wischnjow,Uwe Haberkorn,Walter Mier
Bioconjugate Chemistry.2016;27(10)2441
[DOI]
145Amphiphilic chitosan-grafted-functionalized polylactic acid based nanoparticles as a delivery system for doxorubicin and temozolomide co-therapy
Antonio Di Martino,Vladimir Sedlarik
International Journal of Pharmaceutics.2014;474(1-2)134
[DOI]
146Nanotechnology Based Therapeutics, Drug Delivery Mechanisms and Vaccination approaches for Countering Mycobacterium avium subspecies paratuberculosis (MAP) Associated Diseases
B.J. Stephen,Mukta Jain,Kuldeep Dhama,S.V. Singh,Manali Datta,Neelam Jain,Sujata Jayaraman,Manju Singh,K.K. Chaubey,S. Gupta,G.K. Aseri,Neeraj Khare,Parul Yadav,J.S. Sohal
Asian Journal of Animal and Veterinary Advances.2015;10(12)830
[DOI]
147Improvement of drug delivery by hyperthermia treatment using magnetic cubic cobalt ferrite nanoparticles
Chaitali Dey,Kaushik Baishya,Arup Ghosh,Madhuri Mandal Goswami,Ajay Ghosh,Kalyan Mandal
Journal of Magnetism and Magnetic Materials.2017;427(12)168
[DOI]
148Application of Metal-Organic Framework Nano-MIL-100(Fe) for Sustainable Release of Doxycycline and Tetracycline
Seyed Taherzade,Janet Soleimannejad,Aliakbar Tarlani
Nanomaterials.2017;7(8)215
[DOI]
149Alkaloids of fascaplysin are effective conventional chemotherapeutic drugs, inhibiting the proliferation of C6 glioma cells and causing their death in vitro
Igor Bryukhovetskiy,Irina Lyakhova,Polina Mischenko,Elena Milkina,Sergei Zaitsev,Yuri Khotimchenko,Andrey Bryukhovetskiy,Alexander Polevshchikov,Igor Kudryavtsev,Maxim Khotimchenko,Maxim Zhidkov
Oncology Letters.2017;13(2)738
[DOI]
150Self-Assembled Nanostructures of Red Fluorescent Amphiphilic Block Copolymers as Both Imaging Probes and Drug Carriers
Shuo Huang,Xin Wei,Mingfeng Wang
Polymers.2018;10(10)1120
[DOI]
151Nanotechnological Approaches for Enhancing the Oral Bioavailability of Curcumin
R. Nazari-Vanani,N. Sattarahmady,H. Heli
Journal of Biology and Today's World.2017;6(7)1120
[DOI]
152Tofu-inspired microcarriers from droplet microfluidics for drug delivery
Han Zhang,Yuxiao Liu,Jie Wang,Changmin Shao,Yuanjin Zhao
Science China Chemistry.2019;62(1)87
[DOI]
153“A novel highly stable and injectable hydrogel based on a conformationally restricted ultrashort peptide”
Chaitanya Kumar Thota,Nitin Yadav,Virander Singh Chauhan
Scientific Reports.2016;6(1)87
[DOI]
154The pH influence on the intercalation of the bioactive agent ciprofloxacin in fluorohectorite
E.C. dos Santos,W.P. Gates,L. Michels,F. Juranyi,A. Mikkelsen,G.J. da Silva,J.O. Fossum,H.N. Bordallo
Applied Clay Science.2018;166(1)288
[DOI]
155A smart multifunctional drug delivery nanoplatform for targeting cancer cells
M. Hoop,F. Mushtaq,C. Hurter,X.-Z. Chen,B. J. Nelson,S. Pané
Nanoscale.2016;8(25)12723
[DOI]
156Toxicity of orally inhaled drug formulations at the alveolar barrier: parameters for initial biological screening
Eleonore Fröhlich
Drug Delivery.2017;24(1)891
[DOI]
157Toxicity of orally inhaled drug formulations at the alveolar barrier: parameters for initial biological screening
Mousumi Kar,Yashu Chourasiya,Rahul Maheshwari,Rakesh K. Tekade
Drug Delivery.2019;24(1)29
[DOI]
158Development of drug-loaded immunoliposomes for the selective targeting and elimination of rosetting Plasmodium falciparum- infected red blood cells
Ernest Moles,Kirsten Moll,Jun-Hong Ch'ng,Paolo Parini,Mats Wahlgren,Xavier Fernàndez-Busquets
Journal of Controlled Release.2016;241(1)57
[DOI]
159Development of drug-loaded immunoliposomes for the selective targeting and elimination of rosetting Plasmodium falciparum- infected red blood cells
Uche Chude-Okonkwo,Reza Malekian,B. T. Maharaj
Journal of Controlled Release.2019;241(1)1
[DOI]
160Detachment of ligands from nanoparticle surface under flow and endothelial cell contact: Assessment using microfluidic devices
Maria Jarvis,Michael Arnold,Jenna Ott,Vinu Krishnan,Kapil Pant,Balabhaskar Prabhakarpandian,Samir Mitragotri
Bioengineering & Translational Medicine.2018;3(2)148
[DOI]
161Plasma concentration of metformin and dexamethasone after administration through Osseogate
Hong-Kyun Kim,Young-Seok Park
Drug Delivery.2017;24(1)437
[DOI]
162Plasma concentration of metformin and dexamethasone after administration through Osseogate
Simona Kranjc,Urska Kamensek,Maja Cemazar,Gregor Sersa
Drug Delivery.2016;24(1)1
[DOI]
163Vancomycin–impregnated electrospun polycaprolactone (PCL) membrane for the treatment of infected bone defects: An animal study
Shijun Wei,Chao Jian,Feng Xu,Tongzhu Bao,Shenghui Lan,Gang Wu,BaiWen Qi,Zikui Bai,Aixi Yu
Journal of Biomaterials Applications.2018;32(9)1187
[DOI]
164Potential therapeutic application of dendrimer/cyclodextrin conjugates with targeting ligands as advanced carriers for gene and oligonucleotide drugs
Hidetoshi Arima,Keiichi Motoyama,Taishi Higashi
Therapeutic Delivery.2017;8(4)215
[DOI]
165Multifunctional Polymer Nanoparticles for Dual Drug Release and Cancer Cell Targeting
Yu-Han Wen,Tsung-Ying Lee,Ping-Chuan Fu,Chun-Liang Lo,Yi-Ting Chiang
Polymers.2017;9(12)213
[DOI]
166Anionic carboxymethylagarose-based pH-responsive smart superabsorbent hydrogels for controlled release of anticancer drug
Huma Khan,Jai Prakash Chaudhary,Ramavatar Meena
International Journal of Biological Macromolecules.2019;124(12)1220
[DOI]
167The potential of the F127–water soft system towards selective solubilisation of iridium(iii) octahedral complexes
Anna Maria Talarico,Elisabeta Ildyko Szerb,Mauro Ghedini,Cesare Oliviero Rossi
Soft Matter.2014;10(35)6783
[DOI]
168Hyperbranched polyglycerols: recent advances in synthesis, biocompatibility and biomedical applications
Srinivas Abbina,Sreeparna Vappala,Prashant Kumar,Erika M. J. Siren,Chanel C. La,Usama Abbasi,Donald E. Brooks,Jayachandran N. Kizhakkedathu
Journal of Materials Chemistry B.2017;5(47)9249
[DOI]
169CELL CARRIERS AS SYSTEMS OF DELIVERY OF ANTITUMOR DRUGS (REVIEW)
O. V. Trineeva,A. J. Halahakoon,A. I. Slivkin
Drug development & registration.2019;8(1)43
[DOI]
170Multimeric Amphipathic a-Helical Sequences for Rapid and Efficient Intracellular Protein Transport at Nanomolar Concentrations
Jae Hoon Oh,Seung-Eun Chong,Sohee Nam,Soonsil Hyun,Sejong Choi,Hyojun Gye,Sangmok Jang,Joomyung Jang,Sung Won Hwang,Jaehoon Yu,Yan Lee
Advanced Science.2018;5(8)1800240
[DOI]
171Mapping Coexistence Phase Diagrams of Block Copolymer Micelles and Free Unimer Chains
Xiuli Li,Tyler J. Cooksey,Bryce E. Kidd,Megan L. Robertson,Louis A. Madsen
Macromolecules.2018;51(20)8127
[DOI]
172A review from patents inspired by the genus Cannabis
Isvett Josefina Flores-Sanchez,Ana Carmela Ramos-Valdivia
Phytochemistry Reviews.2017;16(4)639
[DOI]
173L-DOPA stabilization on sol–gel silica to be used as neurological nanoreservoirs: Structural and spectroscopic studies
Tessy López,Dulce Esquivel,Guillermo Mendoza-Díaz,Emma Ortiz-Islas,Richard D. González,Octavio Novaro
Materials Letters.2015;161(4)160
[DOI]
174Biomimetic Tissue Engineering: Tuning the Immune and Inflammatory Response to Implantable Biomaterials
Francesca Taraballi,Manuela Sushnitha,Christopher Tsao,Guillermo Bauza,Chiara Liverani,Aaron Shi,Ennio Tasciotti
Advanced Healthcare Materials.2018;7(17)1800490
[DOI]
175Development and evaluation of anti-malarial bio-conjugates: artesunate-loaded nanoerythrosomes
Jaya Agnihotri,Shubhini Saraf,Sobhna Singh,Papiya Bigoniya
Drug Delivery and Translational Research.2015;5(5)489
[DOI]
176A review of hollow fibers in application-based learning: from textiles to medical
Tin Wai Cheung,Li Li
Textile Research Journal.2019;89(3)237
[DOI]
177Review of Multifarious Applications of Poly (Lactic Acid)
Yuanyuan Chen,Luke M. Geever,John A. Killion,John G. Lyons,Clement L. Higginbotham,Declan M. Devine
Polymer-Plastics Technology and Engineering.2016;55(10)1057
[DOI]
178Preparation of liposomes: A comparative study between the double solvent displacement and the conventional ethanol injection—From laboratory scale to large scale
M. Sala,K. Miladi,G. Agusti,A. Elaissari,H. Fessi
Colloids and Surfaces A: Physicochemical and Engineering Aspects.2017;524(10)71
[DOI]
179Biomedical application of optical fibre sensors
R Correia,S James,S-W Lee,S P Morgan,S Korposh
Journal of Optics.2018;20(7)073003
[DOI]
180A review on recent advancements in ophthalmology devices: Currently in market and under clinical trials
Rajini Nagaraj,Divya Rani Bijukumar,Benjamin Mathew,Evan A. Scott,Mathew T. Mathew
Journal of Drug Delivery Science and Technology.2019;52(7)334
[DOI]
181Porous dressings of modified chitosan with poly(2-hydroxyethyl acrylate) for topical wound delivery of levofloxacin
Panoraia I. Siafaka,Asimina P. Zisi,Maria K. Exindari,Ioannis D. Karantas,Dimitrios N. Bikiaris
Carbohydrate Polymers.2016;143(7)90
[DOI]
182Preparation, optimization, and characterization of simvastatin nanoparticles by electrospraying: An artificial neural networks study
Fatemeh Imanparast,Mohammad Ali Faramarzi,Maliheh Paknejad,Farzad Kobarfard,Amir Amani,Mohmood Doosti
Journal of Applied Polymer Science.2016;133(28)90
[DOI]
183Biocomposites for Oncological Treatment Based on Ultrafine Polyhydroxybutyrate Fibers Obtained by Electrospinning
A. A. Ol’khov,V. N. Gorshenev,I. A. Muravlev,M. G. Strashnova,A. L. Iordanskii
Polymer Science, Series D.2019;12(2)218
[DOI]
184Lactose-based glycoconjugates with variable spacers for design of liver-targeted liposomes
A.S. Nosova,O.O. Koloskova,I.P. Shilovskiy,Yu.L. Sebyakin,M.R. Khaitov
Biomeditsinskaya Khimiya.2017;63(5)467
[DOI]
185Oxyma-based phosphates for racemization-free peptide segment couplings
Katsuhiko Mitachi,Yuki E. Kurosu,Brandon T. Hazlett,Michio Kurosu
Journal of Peptide Science.2016;22(3)186
[DOI]
186Oxyma-based phosphates for racemization-free peptide segment couplings
Li Huang,Louis Rogowski,Min Jun Kim,Aaron T. Becker
Journal of Peptide Science.2017;22(3)414
[DOI]
187Remotely controlled nanofluidic implantable platform for tunable drug delivery
Nicola Di Trani,Antonia Silvestri,Giacomo Bruno,Thomas Geninatti,Corrine Ying Xuan Chua,April Gilbert,Giulia Rizzo,Carly S. Filgueira,Danilo Demarchi,Alessandro Grattoni
Lab on a Chip.2019;22(3)414
[DOI]
188Remotely controlled nanofluidic implantable platform for tunable drug delivery
Waseem A. Wani,Mohammad Shahid,Afzal Hussain,Mohamed Fahad AlAjmi
Lab on a Chip.2018;22(3)15
[DOI]
189Remotely controlled nanofluidic implantable platform for tunable drug delivery
Rubhan Chandran,Eusni Rahayu Mohd. Tohit,Johnson Stanslas,Tuan Mazlelaa Tuan Mahmood
Lab on a Chip.2019;22(3)495
[DOI]
190Hydrogels as intelligent materials: A brief review of synthesis, properties and applications
Mostafa Mahinroosta,Zohreh Jomeh Farsangi,Ali Allahverdi,Zahra Shakoori
Materials Today Chemistry.2018;8(3)42
[DOI]
191Interactions with the macrophages: An emerging targeted approach using novel drug delivery systems in respiratory diseases
Meenu Mehta,Meenu Deeksha,Neha Sharma,Manish Vyas,Navneet Khurana,Pawan Kumar Maurya,Harjeet Singh,Terezinha Pinto Andreoli de Jesus,Harish Dureja,Dinesh Kumar Chellappan,Gaurav Gupta,Ridhima Wadhwa,Trudi Collet,Philip M Hansbro,Kamal Dua,Saurabh Satija
Chemico-Biological Interactions.2019;304(3)10
[DOI]
192Interactions with the macrophages: An emerging targeted approach using novel drug delivery systems in respiratory diseases
Mariana Carmen Chifiriuc,Oana Mariana Fufa,Valentina Grumezescu,Ecaterina Andronescu,Alexandru Mihai Grumezescu,Alina Maria Holban
Chemico-Biological Interactions.2016;304(3)451
[DOI]
193Biodistribution of Antibody-MS2 Viral Capsid Conjugates in Breast Cancer Models
Ioana L. Aanei,Adel M. ElSohly,Michelle E. Farkas,Chawita Netirojjanakul,Melanie Regan,Stephanie Taylor Murphy,James P. O’Neil,Youngho Seo,Matthew B. Francis
Molecular Pharmaceutics.2016;13(11)3764
[DOI]
194Programmed Platelet-Derived Growth Factor-BB and Bone Morphogenetic Protein-2 Delivery from a Hybrid Calcium Phosphate/Alginate Scaffold
Emily A. Bayer,Jahnelle Jordan,Abhijit Roy,Riccardo Gottardi,Morgan V. Fedorchak,Prashant N. Kumta,Steven R. Little
Tissue Engineering Part A.2017;23(23-24)1382
[DOI]
195Polymer – Ionic liquid – Pharmaceutical conjugates as drug delivery systems
Mohammed Halayqa,Maciej Zawadzki,Urszula Domanska,Andrzej Plichta
Journal of Molecular Structure.2019;1180(23-24)573
[DOI]
196Collagen from Marine Biological Sources and Medical Applications
Fatuma Felix Felician,Chunlei Xia,Weiyan Qi,Hanmei Xu
Chemistry & Biodiversity.2018;15(5)e1700557
[DOI]
197Production of Electrospun Fast-Dissolving Drug Delivery Systems with Therapeutic Eutectic Systems Encapsulated in Gelatin
Francisca Mano,Marta Martins,Isabel Sá-Nogueira,Susana Barreiros,João Paulo Borges,Rui L. Reis,Ana Rita C. Duarte,Alexandre Paiva
AAPS PharmSciTech.2017;18(7)2579
[DOI]
198Production of Electrospun Fast-Dissolving Drug Delivery Systems with Therapeutic Eutectic Systems Encapsulated in Gelatin
Kalyani Prusty,Sarat K. Swain
AAPS PharmSciTech.2019;18(7)117
[DOI]
199Structure–Function Analysis of Immune Checkpoint Receptors to Guide Emerging Anticancer Immunotherapy
Rita C. Acúrcio,Anna Scomparin,João Conniot,Jorge A. R. Salvador,Ronit Satchi-Fainaro,Helena F. Florindo,Rita C. Guedes
Journal of Medicinal Chemistry.2018;61(24)10957
[DOI]
200Structure–Function Analysis of Immune Checkpoint Receptors to Guide Emerging Anticancer Immunotherapy
Shashi Kant Bhatia,Puneet Wadhwa,Ravi Kant Bhatia,Sanjay Kumar Singh Patel,Yung-Hun Yang
Journal of Medicinal Chemistry.2019;61(24)13
[DOI]
201Harnessing cells to deliver nanoparticle drugs to treat cancer
Bijay Singh,Samir Mitragotri
Biotechnology Advances.2019;61(24)13
[DOI]
202The use of functionalized carbon xerogels in cells growth
Esther Bailón-García,Francisco J. Maldonado-Hódar,Francisco Carrasco-Marín,Agustín F. Pérez-Cadenas,Susanna Bosi,Maurizio Prato
Materials Science and Engineering: C.2019;100(24)598
[DOI]
203Investigation of Plasma Treatment on Micro-Injection Moulded Microneedle for Drug Delivery
Karthik Nair,Benjamin Whiteside,Colin Grant,Rajnikant Patel,Cristina Tuinea-Bobe,Keith Norris,Anant Paradkar
Pharmaceutics.2015;7(4)471
[DOI]
204Investigation of Plasma Treatment on Micro-Injection Moulded Microneedle for Drug Delivery
Nidhi Raval,Rahul Maheshwari,Kiran Kalia,Rakesh Kumar Tekade
Pharmaceutics.2019;2000(4)93
[DOI]
205Influence of formulation on friction properties of latex films
V. Divry,L. Jacomine,V. Le Houérou,D. Collin,C. Gauthier,Y. Holl
Progress in Organic Coatings.2017;113(4)189
[DOI]
206Influence of formulation on friction properties of latex films
Jeong-Hwan Kim,Haruki Eguchi,Masanari Umemura,Yoshihiro Ishikawa
Progress in Organic Coatings.2019;113(4)427
[DOI]
2075-Fluorouracil loaded chitosan/polyacrylic acid/Fe3O4 magnetic nanocomposite hydrogel as a potential anticancer drug delivery system
Mohammad Sadegh Amini-Fazl,Reza Mohammadi,Karim Kheiri
International Journal of Biological Macromolecules.2019;132(4)506
[DOI]
208Synthetically Modified Viral Capsids as Versatile Carriers for Use in Antibody-Based Cell Targeting
Adel M. ElSohly,Chawita Netirojjanakul,Ioana L. Aanei,Astraea Jager,Sean C. Bendall,Michelle E. Farkas,Garry P. Nolan,Matthew B. Francis
Bioconjugate Chemistry.2015;26(8)1590
[DOI]
209Polysaccharide based nanogels in the drug delivery system: Application as the carrier of pharmaceutical agents
Tilahun Ayane Debele,Shewaye Lakew Mekuria,Hsieh-Chih Tsai
Materials Science and Engineering: C.2016;68(8)964
[DOI]
210Coumarin-containing-star-shaped 4-arm-polyethylene glycol: targeted fluorescent organic nanoparticles for dual treatment of photodynamic therapy and chemotherapy
Moumita Gangopadhyay,Tanya Singh,Krishna Kalyani Behara,S. Karwa,S. K. Ghosh,N. D. Pradeep Singh
Photochemical & Photobiological Sciences.2015;14(7)1329
[DOI]
211Sustained drug delivery system for insulin using supramolecular hydrogels composed of tri-block copolymers
Elham Khodaverdi,Melika Javan,Sayyed A. Sajadi Tabassi,Bahman Khameneh,Hossein Kamali,Farzin Hadizadeh
Journal of Pharmaceutical Investigation.2017;47(3)263
[DOI]
212siRNA and RNAi optimization
Adele Alagia,Ramon Eritja
Wiley Interdisciplinary Reviews: RNA.2016;7(3)316
[DOI]
213Addressing Unmet Clinical Needs with 3D Printing Technologies
Udayan Ghosh,Shen Ning,Yuzhu Wang,Yong Lin Kong
Advanced Healthcare Materials.2018;7(17)1800417
[DOI]
214Nanotechnology-based Drug Delivery Products: Need, Design, Pharmacokinetics and Regulations
Kaisar Raza
Current Pharmaceutical Design.2019;24(43)5085
[DOI]
215Extracellular control of intracellular drug release for enhanced safety of anti-cancer chemotherapy
Qian Zhu,Haixia Qi,Ziyan Long,Shang Liu,Zhen Huang,Junfeng Zhang,Chunming Wang,Lei Dong
Scientific Reports.2016;6(1)5085
[DOI]
216Depicting Binding-Mediated Translocation of HIV-1 Tat Peptides in Living Cells with Nanoscale Pens of Tat-Conjugated Quantum Dots
Chien Lin,Jung Huang,Leu-Wei Lo
Sensors.2017;17(2)315
[DOI]
217Depicting Binding-Mediated Translocation of HIV-1 Tat Peptides in Living Cells with Nanoscale Pens of Tat-Conjugated Quantum Dots
Leu-Wei Darong Oh,Leu-Wei Suwon Lee,Leu-Wei Jinhyuk Kim,Leu-Wei Hongsoo Choi,Leu-Wei Jongmo Seo,Leu-Wei Kyo-in Koo
Sensors.2014;17(2)1390
[DOI]
218Recent progress on fabrication and drug delivery applications of nanostructured hydroxyapatite
Sudip Mondal,Sergy V. Dorozhkin,Umapada Pal
Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology.2018;10(4)e1504
[DOI]
219Silica-Based Materials as Drug Adsorbents: First Principle Investigation on the Role of Water Microsolvation on Ibuprofen Adsorption
Massimo Delle Piane,Stefano Vaccari,Marta Corno,Piero Ugliengo
The Journal of Physical Chemistry A.2014;118(31)5801
[DOI]
220Mechanical properties and drug release rate of poly(vinyl alcohol)/poly(ethylene glycol)/clay nanocomposite hydrogels: Correlation with structure and physical properties
Effat Ghanaatian,Mehdi Entezam
Journal of Applied Polymer Science.2019;136(32)47843
[DOI]
221Induced Neural Differentiation of MMP-2 Cleaved (RADA)4 Drug Delivery Systems
K. Koss,C. Tsui,L.D. Unsworth
Journal of Controlled Release.2016;243(32)204
[DOI]
222NMR Study of BA/FBA Cocrystal Confined Within Mesoporous Silica Nanoparticles Employing Thermal Solid Phase Transformation
Ewa Skorupska,Piotr Paluch,Agata Jeziorna,Marek J. Potrzebowski
The Journal of Physical Chemistry C.2015;119(16)8652
[DOI]
223Carbon dots assisted formation of DNA hydrogel for sustained release of drug
Seema Singh,Anshul Mishra,Rina Kumari,Kislay K. Sinha,Manoj K. Singh,Prolay Das
Carbon.2017;114(16)169
[DOI]
224Super-hydrophilic and high strength polymeric foam dressings of modified chitosan blends for topical wound delivery of chloramphenicol
Georgia Michailidou,Evi Christodoulou,Stavroula Nanaki,Panagiotis Barmpalexis,Evangelos Karavas,Susan Vergkizi-Nikolakaki,Dimitrios N. Bikiaris
Carbohydrate Polymers.2019;208(16)1
[DOI]
225Silica core–shell particles for the dual delivery of gentamicin and rifamycin antibiotics
Andrea M. Mebert,Carole Aimé,Gisela S. Alvarez,Yupeng Shi,Sabrina A. Flor,Silvia E. Lucangioli,Martin F. Desimone,Thibaud Coradin
Journal of Materials Chemistry B.2016;4(18)3135
[DOI]
226Hybrid Lipids Inspired by Extremophiles and Eukaryotes Afford Serum-Stable Membranes with Low Leakage
Takaoki Koyanagi,Kevin J. Cao,Geoffray Leriche,David Onofrei,Gregory P. Holland,Michael Mayer,David Sept,Jerry Yang
Chemistry - A European Journal.2017;23(28)6757
[DOI]
227Liposome mediated-CYP1A1 gene silencing nanomedicine prepared using lipid film-coated proliposomes as a potential treatment strategy of lung cancer
Mengtian Zhang,Qin Wang,Ka-Wai Wan,Waqar Ahmed,David A. Phoenix,Zhirong Zhang,Mohamed A. Elrayess,Abdelbary Elhissi,Xun Sun
International Journal of Pharmaceutics.2019;566(28)185
[DOI]
228Therapeutic potential of nanocarrier for overcoming to P-glycoprotein
Vimratjeet Kaur,Tarun Garg,Goutam Rath,Amit K. Goyal
Journal of Drug Targeting.2014;22(10)859
[DOI]
229Endogenous Activation-Induced Delivery of a Bioactive Photosensitizer from a Micellar Carrier to Natural DNA
Mohd Afzal,Saptarshi Ghosh,Sinjan Das,Nitin Chattopadhyay
The Journal of Physical Chemistry B.2016;120(44)11492
[DOI]
230Transformer Hydrogels: A Review
Ozan Erol,Aishwarya Pantula,Wangqu Liu,David H. Gracias
Advanced Materials Technologies.2019;4(4)1900043
[DOI]
231Controlled release of drugs in electrosprayed nanoparticles for bone tissue engineering
Praveena Jayaraman,Chinnasamy Gandhimathi,Jayarama Reddy Venugopal,David Laurence Becker,Seeram Ramakrishna,Dinesh Kumar Srinivasan
Advanced Drug Delivery Reviews.2015;94(4)77
[DOI]
232Applications of nanoparticle systems in drug delivery technology
Syed A.A. Rizvi,Ayman M. Saleh
Saudi Pharmaceutical Journal.2018;26(1)64
[DOI]
233Synthesis, identification and application of the novel metal-organic framework Fe3O4@PAA@ZIF-8 for the drug delivery of ciprofloxacin and investigation of antibacterial activity
Maryam Esfahanian,Mohammad Ali Ghasemzadeh,Seyyed Mohammad Hossein Razavian
Artificial Cells, Nanomedicine, and Biotechnology.2019;47(1)2024
[DOI]
234Self-assembled nanomicelles of amphiphilic clotrimazole glycyl-glycine analogue augmented drug delivery, apoptosis and restrained melanoma tumour progression
Amanpreet Kaur,Kiran Jyoti,Ashish Baldi,Upendra Kumar Jain,Ramesh Chandra,Jitender Madan
Materials Science and Engineering: C.2018;89(1)75
[DOI]
235Development and Evaluation of Lycopene Loaded Chitosan Nanoparticles
A. Dhiman,D. Bhalla
Current Nanomedicine.2019;9(1)61
[DOI]
236An update on the currently available and future chemotherapy for treating bone metastases in breast cancer patients
Zeynep Oruç,Muhammet Ali Kaplan,Çagatay Arslan
Expert Opinion on Pharmacotherapy.2018;19(12)1305
[DOI]
237An update on the currently available and future chemotherapy for treating bone metastases in breast cancer patients
Yasemin Budama-Kilinc,Rabia Cakir-Koc,Bahar Aslan,Burcu Özkan,Hande Mutlu,Eslin Üstün
Expert Opinion on Pharmacotherapy.2018;19(12)1305
[DOI]
238Deformable Nanovesicles Synthesized through an Adaptable Microfluidic Platform for Enhanced Localized Transdermal Drug Delivery
Naren Subbiah,Jesus Campagna,Patricia Spilman,Mohammad Parvez Alam,Shivani Sharma,Akishige Hokugo,Ichiro Nishimura,Varghese John
Journal of Drug Delivery.2017;2017(12)1
[DOI]
239Cell-Penetrating CaCO3 Nanocrystals for Improved Transport of NVP-BEZ235 across Membrane Barrier in T-Cell Lymphoma
Viviana Vergaro,Monica Civallero,Cinzia Citti,Maria Cosenza,Francesca Baldassarre,Giuseppe Cannazza,Samantha Pozzi,Stefano Sacchi,Francesco Fanizzi,Giuseppe Ciccarella
Cancers.2018;10(2)31
[DOI]
240Plant-derived bioadhesives for wound dressing and drug delivery system
Benu George,T.V. Suchithra
Fitoterapia.2019;137(2)104241
[DOI]
241Plant-derived bioadhesives for wound dressing and drug delivery system
Abhirup Mandal,Rohit Bisht,Dhananjay Pal,Ashim K. Mitra
Fitoterapia.2017;137(2)59
[DOI]
242Antileishmanial activities of caffeic acid phenethyl ester loaded PLGA nanoparticles against Leishmania infantum promastigotes and amastigotes in vitro
Emrah Sefik Abamor
Asian Pacific Journal of Tropical Medicine.2017;10(1)25
[DOI]
243Antileishmanial activities of caffeic acid phenethyl ester loaded PLGA nanoparticles against Leishmania infantum promastigotes and amastigotes in vitro
Ann-Marie Ako-Adounvo,Beatriz Marabesi,Rayssa Costa Lemos,Ayuk Patricia,Pradeep K. Karla
Asian Pacific Journal of Tropical Medicine.2017;10(1)375
[DOI]
244Electrochemical Deposition of Cisplatin on Pure Magnesium
Yu-Linag Lai,Chien-Chung Lin,Shin-Ru Hsu,Shiow-Kang Yen
Journal of The Electrochemical Society.2018;165(5)D196
[DOI]
245Amphiphilic Peptide Nanorods Based on Oligo-Phenylalanine as a Biocompatible Drug Carrier
Su Jeong Song,Seulgi Lee,Kyoung-Seok Ryu,Joon Sig Choi
Bioconjugate Chemistry.2017;28(9)2266
[DOI]
246Designing and Characterization of a Novel Delivery System for Improved Cellular Uptake by Brain Using Dendronised Apo-E-Derived Peptide
Shafq Al-azzawi,Dhafir Masheta,Anna Guildford,Gary Phillips,Matteo Santin
Frontiers in Bioengineering and Biotechnology.2019;7(9)2266
[DOI]
247Nanocrystalline Hydroxyapatite Loaded with Resveratrol in Colloidal Suspension Improves Viability, Metabolic Activity and Mitochondrial Potential in Human Adipose-Derived Mesenchymal Stromal Stem Cells (hASCs)
Krzysztof Marycz,Agnieszka Smieszek,Justyna Trynda,Paulina Sobierajska,Sara Targonska,Lukasz Grosman,Rafal J. Wiglusz
Polymers.2019;11(1)92
[DOI]
248Functionalized-radiolabeled hydroxyapatite/tenorite nanoparticles as theranostic agents for osteosarcoma
Marcelo Fernandes Cipreste,Michele Rocha de Rezende,Marlon Luiz Hneda,Anderson Maia Peres,Alexandre Alberto Chaves Cotta,Verônica de Carvalho Teixeira,Waldemar Augusto de Almeida Macedo,Edésia Martins Barros de Sousa
Ceramics International.2018;44(15)17800
[DOI]
249Collagen-silica nanocomposites as dermal dressings preventing infection in vivo
Andrea M. Mebert,Gisela S. Alvarez,Roxana Peroni,Corinne Illoul,Christophe Hélary,Thibaud Coradin,Martin F. Desimone
Materials Science and Engineering: C.2018;93(15)170
[DOI]
250Collagen-silica nanocomposites as dermal dressings preventing infection in vivo
Prachi Ghoderao,Sonali Sanghavi,Tejashree Bhave,Anjali A. Kulkarni
Materials Science and Engineering: C.2019;93(15)41
[DOI]
251Tumor-Targeting Micelles Based on Linear–Dendritic PEG–PTX8 Conjugate for Triple Negative Breast Cancer Therapy
Yujie Zhang,Yifei Lu,Yu Zhang,Xi He,Qinjun Chen,Lisha Liu,Xinli Chen,Chunhui Ruan,Tao Sun,Chen Jiang
Molecular Pharmaceutics.2017;14(10)3409
[DOI]
252Tumor-Targeting Micelles Based on Linear–Dendritic PEG–PTX8 Conjugate for Triple Negative Breast Cancer Therapy
Mohamed Ali-Seyed,Kavitha Vijayaraghavan
Molecular Pharmaceutics.2019;14(10)541
[DOI]
253The use of terpenes and derivatives as a new perspective for cardiovascular disease treatment: a patent review (2008–2018)
Eric Aian P. Silva,Jéssica S. Carvalho,Adriana G. Guimarães,Rosana de S.S. Barreto,Márcio R.V. Santos,André S. Barreto,Lucindo J. Quintans-Júnior
Expert Opinion on Therapeutic Patents.2019;29(1)43
[DOI]
254A facile approach for fabricating CD44-targeted delivery of hyaluronic acid-functionalized PCL nanoparticles in urethane-induced lung cancer: Bcl-2, MMP-9, caspase-9, and BAX as potential markers
Poonam Parashar,Chandra Bhushan Tripathi,Malti Arya,Jovita Kanoujia,Mahendra Singh,Abhishek Yadav,Shubhini A. Saraf
Drug Delivery and Translational Research.2019;9(1)37
[DOI]
255Strategies for enhanced peptide and protein delivery
Maelíosa TC McCrudden,Thakur Raghu Raj Singh,Katarzyna Migalska,Ryan F Donnelly
Therapeutic Delivery.2013;4(5)593
[DOI]
256Strategies for enhanced peptide and protein delivery
Mariappan Rajan,Rajendran Amarnath Praphakar,Periyakaruppan Pradeepkumar
Therapeutic Delivery.2019;4(5)235
[DOI]
257Reversible Aggregation and Colloidal Cluster Morphology: The Importance of the Extended Law of Corresponding States
Néstor E. Valadez-Pérez,Yun Liu,Ramón Castañeda-Priego
Physical Review Letters.2018;120(24)235
[DOI]
258Review of Current Strategies for Delivering Alzheimer’s Disease Drugs across the Blood-Brain Barrier
Ka Wong,Muhammad Riaz,Yuning Xie,Xue Zhang,Qiang Liu,Huoji Chen,Zhaoxiang Bian,Xiaoyu Chen,Aiping Lu,Zhijun Yang
International Journal of Molecular Sciences.2019;20(2)381
[DOI]
259Intrinsic parameters for the synthesis and tuned properties of amphiphilic chitosan drug delivery nanocarriers
Marjan Motiei,Soheila Kashanian,Lucian A. Lucia,Mozafar Khazaei
Journal of Controlled Release.2017;260(2)213
[DOI]
260Supramolecular nanoscale assemblies for cancer diagnosis and therapy
Sílvia Castro Coelho,Maria Carmo Pereira,Asta Juzeniene,Petras Juzenas,Manuel A.N. Coelho
Journal of Controlled Release.2015;213(2)152
[DOI]
261Gaining Insights into Specific Drug Formulation Additives for Solubilizing a Potential Anti-Alzheimer Disease Drug B4A1
Carmen Lawatscheck,Marcus Pickhardt,Anna Grafl,Katharina Linkert,Frank Polster,Eckhard Mandelkow,Hans G. Börner
Macromolecular Bioscience.2017;17(10)1700109
[DOI]
262The anticancer efficacy of paclitaxel liposomes modified with mitochondrial targeting conjugate in resistant lung cancer
Jia Zhou,Wei-Yu Zhao,Xu Ma,Rui-Jun Ju,Xiu-Ying Li,Nan Li,Meng-Ge Sun,Ji-Feng Shi,Cheng-Xiang Zhang,Wan-Liang Lu
Biomaterials.2013;34(14)3626
[DOI]
263The anticancer efficacy of paclitaxel liposomes modified with mitochondrial targeting conjugate in resistant lung cancer
Manish Kumar,Amandeep Brar,V. Vivekanand,Nidhi Pareek
Biomaterials.2019;34(14)319
[DOI]
264Ibuprofen in Mesopores of Mobil Crystalline Material 41 (MCM-41): A Deeper Understanding
Ewa Skorupska,Agata Jeziorna,Piotr Paluch,Marek J. Potrzebowski
Molecular Pharmaceutics.2014;11(5)1512
[DOI]
265Ibuprofen in Mesopores of Mobil Crystalline Material 41 (MCM-41): A Deeper Understanding
J. Bueno,F. Demirci,K. Husnu Can Baser
Molecular Pharmaceutics.2017;11(5)271
[DOI]
266Delivery of enteric neural progenitors with 5-HT4 agonist-loaded nanoparticles and thermosensitive hydrogel enhances cell proliferation and differentiation following transplantation in vivo
Ryo Hotta,Lily S. Cheng,Hannah K. Graham,Nandor Nagy,Jaime Belkind-Gerson,George Mattheolabakis,Mansoor M. Amiji,Allan M. Goldstein
Biomaterials.2016;88(5)1
[DOI]
267Modified halloysite nanoclay as a vehicle for sustained drug delivery
Ernest Gyan Bediako,Emmanuel Nyankson,David Dodoo-Arhin,Benjamin Agyei-Tuffour,Dariusz Lukowiec,Blazej Tomiczek,Abu Yaya,Johnson K. Efavi
Heliyon.2018;4(7)e00689
[DOI]
268Modified halloysite nanoclay as a vehicle for sustained drug delivery
Romina Muñoz,Dinesh Pratap Singh,Rajesh Kumar,Atsunori Matsuda
Heliyon.2019;4(7)447
[DOI]
269Chitosan-Based Nanocarriers for Nose to Brain Delivery
Blessing Atim Aderibigbe,Tobeka Naki
Applied Sciences.2019;9(11)2219
[DOI]
270Chitosan-Based Nanocarriers for Nose to Brain Delivery
M. Osorio,A. Cañas,R. Zuluaga,P. Gañán,I. Ortiz,C. Castro
Applied Sciences.2018;9(11)369
[DOI]
271Niosomes: a review of their structure, properties, methods of preparation, and medical applications
Pei Ling Yeo,Chooi Ling Lim,Soi Moi Chye,Anna Pick Kiong Ling,Rhun Yian Koh
Asian Biomedicine.2018;11(4)301
[DOI]
272Yeast-inspired drug delivery: biotechnology meets bioengineering and synthetic biology
Chinnu Sabu,Panakkal Mufeedha,Kannissery Pramod
Expert Opinion on Drug Delivery.2019;16(1)27
[DOI]
273Yeast-inspired drug delivery: biotechnology meets bioengineering and synthetic biology
Roger Borges,Karen Cristina Kai,Juliana Marchi
Expert Opinion on Drug Delivery.2016;53(1)285
[DOI]
274Blocking Interleukin-4 Receptor a Using Polyethylene Glycol Functionalized Superparamagnetic Iron Oxide Nanocarriers to Inhibit Breast Cancer Cell Proliferation
Abjal Pasha Shaik,Asma Sultana Shaik,Ali Al Majwal,Achraf Al Faraj
Cancer Research and Treatment.2017;49(2)322
[DOI]
275Numerical simulation of Franz diffusion experiment: Application to drug loaded soft contact lenses
Kristinn Gudnason,Svetlana Solodova,Anna Vilardell,Mar Masson,Sven Sigurdsson,Fjola Jonsdottir
Journal of Drug Delivery Science and Technology.2017;38(2)18
[DOI]
276Hyaluronic Acid Decorated Naringenin Nanoparticles: Appraisal of Chemopreventive and Curative Potential for Lung Cancer
Kristinn Gudnason,Svetlana Solodova,Anna Vilardell,Mar Masson,Sven Sigurdsson,Fjola Jonsdottir
Pharmaceutics.2018;10(1)33
[DOI]
277Strontium delivery systems based on bacterial cellulose and hydroxyapatite for guided bone regeneration
Erika Patricia Chagas Gomes Luz,Maria de Fátima Borges,Fabia Karine Andrade,Morsyleide de Freitas Rosa,Antonia Infantes-Molina,Enrique Rodríguez-Castellón,Rodrigo Silveira Vieira
Cellulose.2018;25(11)6661
[DOI]
278Application of Various Types of Liposomes in Drug Delivery Systems
Mehran Alavi,Naser Karimi,Mohsen Safaei
Advanced Pharmaceutical Bulletin.2017;7(1)3
[DOI]
279Application of Various Types of Liposomes in Drug Delivery Systems
Chung-Da Yang
Advanced Pharmaceutical Bulletin.2017;7(1)3
[DOI]
280Immobilization and controlled release of drug using plasma polymerized thin film
Sung-Woon Myung,Sang-Chul Jung,Byung-Hoon Kim
Thin Solid Films.2015;584(1)13
[DOI]
281Magnetic Fluorescent Nanoformulation for Intracellular Drug Delivery to Human Breast Cancer, Primary Tumors, and Tumor Biopsies: Beyond Targeting Expectations
Kheireddine El-Boubbou,Rizwan Ali,Hassan M. Bahhari,Khaled O. AlSaad,Atef Nehdi,Mohamed Boudjelal,Abdulmohsen AlKushi
Bioconjugate Chemistry.2016;27(6)1471
[DOI]
282Development of mucoadhesive sericin/alginate particles loaded with ibuprofen for sustained drug delivery
Emanuelle D. Freitas,Jacyara M.M. Vidart,Edson A. Silva,Meuris G.C. da Silva,Melissa G.A. Vieira
Particuology.2018;41(6)65
[DOI]
283The effect of tobramycin incorporated with bismuth-ethanedithiol loaded on niosomes on the quorum sensing and biofilm formation of Pseudomonas aeruginosa
Faeze Mahdiun,Shahla Mansouri,Payam Khazaeli,Rasoul Mirzaei
Microbial Pathogenesis.2017;107(6)129
[DOI]
284General scenarios of cellulose and its use in the biomedical field
S. Gopi,P. Balakrishnan,D. Chandradhara,D. Poovathankandy,S. Thomas
Materials Today Chemistry.2019;13(6)59
[DOI]
285Alginate-based encapsulation of polyphenols from Clitoria ternatea petal flower extract enhances stability and biological activity under simulated gastrointestinal conditions
Porntip Pasukamonset,Oran Kwon,Sirichai Adisakwattana
Food Hydrocolloids.2016;61(6)772
[DOI]
286Ciprofloxacin intercalated in fluorohectorite clay: identical pure drug activity and toxicity with higher adsorption and controlled release rate
E. C. dos Santos,Z. Rozynek,E. L. Hansen,R. Hartmann-Petersen,R. N. Klitgaard,A. Løbner-Olesen,L. Michels,A. Mikkelsen,T. S. Plivelic,H. N. Bordallo,J. O. Fossum
RSC Advances.2017;7(43)26537
[DOI]
287Molecular Communication and Nanonetwork for Targeted Drug Delivery: A Survey
Uche A. K. Chude-Okonkwo,Reza Malekian,B. T. Maharaj,Athanasios V. Vasilakos
IEEE Communications Surveys & Tutorials.2017;19(4)3046
[DOI]
288Engineered self-expander hydrogel for sustained release of drug molecules
Jieun Kim,Jangsun Hwang,Youngmin Seo,Yeonho Jo,Jaewoo Son,Taejong Paik,Jonghoon Choi
Journal of Industrial and Engineering Chemistry.2016;42(4)121
[DOI]
289Pt(II) complexes immobilized on polymer-modified magnetic carbon nanotubes as a new platinum drug delivery system
Seyed Jamal Tabatabaei Rezaei,Ali Hesami,Hossein Khorramabadi,Vahid Amani,Asemeh Mashhadi Malekzadeh,Ali Ramazani,Hassan Niknejad
Applied Organometallic Chemistry.2018;32(7)e4401
[DOI]
290Nanoparticles engineered to bind cellular motors for efficient delivery
Inmaculada Dalmau-Mena,Pablo del Pino,Beatriz Pelaz,Miguel Ángel Cuesta-Geijo,Inmaculada Galindo,María Moros,Jesús M. de la Fuente,Covadonga Alonso
Journal of Nanobiotechnology.2018;16(1)e4401
[DOI]
291Antileishmanial Activity of Amphotericin B-loaded-PLGA Nanoparticles: An Overview
Ernesto Palma,Antonella Pasqua,Agnese Gagliardi,Domenico Britti,Massimo Fresta,Donato Cosco
Materials.2018;11(7)1167
[DOI]
292Injectable in situ forming chitosan-based hydrogels for curcumin delivery
Titima Songkroh,Hongguo Xie,Weiting Yu,Xiudong Liu,Guangwei Sun,Xiaoxi Xu,Xiaojun Ma
Macromolecular Research.2015;23(1)53
[DOI]
293Solid State NMR Characterization of Ibuprofen:Nicotinamide Cocrystals and New Idea for Controlling Release of Drugs Embedded into Mesoporous Silica Particles
Ewa Skorupska,Slawomir Kazmierski,Marek J. Potrzebowski
Molecular Pharmaceutics.2017;14(5)1800
[DOI]
294Towards Developing Bioresponsive, Self-Assembled Peptide Materials: Dynamic Morphology and Fractal Nature of Nanostructured Matrices
Kyle Koss,Larry Unsworth
Materials.2018;11(9)1539
[DOI]
295Towards Developing Bioresponsive, Self-Assembled Peptide Materials: Dynamic Morphology and Fractal Nature of Nanostructured Matrices
Anu Hardenia,Neha Maheshwari,Shiv Shankar Hardenia,Sunil Kumar Dwivedi,Rahul Maheshwari,Rakesh K. Tekade
Materials.2019;11(9)1
[DOI]
296pH Sensitive Hydrogels in Drug Delivery: Brief History, Properties, Swelling, and Release Mechanism, Material Selection and Applications
Muhammad Rizwan,Rosiyah Yahya,Aziz Hassan,Muhammad Yar,Ahmad Azzahari,Vidhya Selvanathan,Faridah Sonsudin,Cheyma Abouloula
Polymers.2017;9(12)137
[DOI]
297Effect of drug loading on the properties of temperature-responsive polyester–poly(ethylene glycol)–polyester hydrogels
David Andrew Prince,Ian J Villamagna,Cameron C Hopkins,John R de Bruyn,Elizabeth R Gillies
Polymer International.2019;68(6)1074
[DOI]
298The road to market implantable drug delivery systems: a review on US FDA’s regulatory framework and quality control requirements
Sana Al-Jawadi,Pier Capasso,Manisha Sharma
Pharmaceutical Development and Technology.2018;23(10)953
[DOI]
299Measuring Local Viscosities near Plasma Membranes of Living Cells with Photonic Force Microscopy
Felix Jünger,Felix Kohler,Andreas Meinel,Tim Meyer,Roland Nitschke,Birgit Erhard,Alexander Rohrbach
Biophysical Journal.2015;109(5)869
[DOI]
300Drug Release Properties of a Series of Adenine-Based Metal-Organic Frameworks
Hyojae Oh,Tao Li,Jihyun An
Chemistry - A European Journal.2015;21(47)17010
[DOI]
301Management of retinoblastoma: opportunities and challenges
Dhiraj Bhavsar,Krishnakumar Subramanian,Swaminathan Sethuraman,Uma Maheswari Krishnan
Drug Delivery.2015;21(47)1
[DOI]
302Management of retinoblastoma: opportunities and challenges
Gerardo Rodriguez-Araujo,Andrew J. Krentz
Drug Delivery.2019;21(47)275
[DOI]
303Management of retinoblastoma: opportunities and challenges
Abeer Jabra Shnoudeh,Islam Hamad,Ruwaida W. Abdo,Lana Qadumii,Abdulmutallab Yousef Jaber,Hiba Salim Surchi,Shahd Z. Alkelany
Drug Delivery.2019;21(47)527
[DOI]
304Management of retinoblastoma: opportunities and challenges
Velichka Andonova
Drug Delivery.2017;21(47)527
[DOI]
305Management of retinoblastoma: opportunities and challenges
Luciane R. Feksa,Eduardo A. Troian,Cristina D. Muller,Fabian Viegas,Aline B. Machado,Virgínia C. Rech
Drug Delivery.2018;21(47)403
[DOI]
306Antibody Engineering for Pursuing a Healthier Future
Abdullah F. U. H. Saeed,Rongzhi Wang,Sumei Ling,Shihua Wang
Frontiers in Microbiology.2017;8(47)403
[DOI]
307Antibody Engineering for Pursuing a Healthier Future
Raju Saka,Priyadarshini Sathe,Wahid Khan
Frontiers in Microbiology.2019;8(47)241
[DOI]
308ROS-responsive drug delivery systems for biomedical applications
Wenhui Tao,Zhonggui He
Asian Journal of Pharmaceutical Sciences.2018;13(2)101
[DOI]
309Electrospun nanofibers for customized drug-delivery systems
Saša Kajdic,Odon Planinšek,Mirjana Gašperlin,Petra Kocbek
Journal of Drug Delivery Science and Technology.2019;51(2)672
[DOI]
310Mechanisms of light-induced liposome permeabilization
Dyego Miranda,Jonathan F. Lovell
Bioengineering & Translational Medicine.2016;1(3)267
[DOI]
311Drug-loaded nanoemulsion as positive control is an alternative to DMSO solutions for in vitro evaluation of curcumin delivery to MCF-7 cells
Eduarda Schultze,Karine Coradini,Paula dos Santos Chaves,Liziane Pereira da Silva,Julieti Buss,Silvia S. Guterres,Tiago Collares,Ruy Carlos Ruver Beck,Adriana R. Pohlmann,Fabiana Kömmling Seixas
Pharmacological Reports.2017;69(6)1408
[DOI]
312Drug-loaded nanoemulsion as positive control is an alternative to DMSO solutions for in vitro evaluation of curcumin delivery to MCF-7 cells
Magali Cucchiarini,Ana Rey-Rico
Pharmacological Reports.2017;66(6)261
[DOI]
313Porous Inorganic Drug Delivery Systems—a Review
E. Sayed,R. Haj-Ahmad,K. Ruparelia,M. S. Arshad,M.-W. Chang,Z. Ahmad
AAPS PharmSciTech.2017;18(5)1507
[DOI]
314Porous Inorganic Drug Delivery Systems—a Review
Amit K. Nayak,Syed A. Ahmad,Sarwar Beg,Tahseen J. Ara,Mohammad S. Hasnain
AAPS PharmSciTech.2018;18(5)255
[DOI]
315Micro and nanomotors in diagnostics
Andrzej Chalupniak,Eden Morales-Narváez,Arben Merkoçi
Advanced Drug Delivery Reviews.2015;95(5)104
[DOI]
316Micro and nanomotors in diagnostics
Sharmistha P. Chatterjee,Abhijit S. Pandya
Advanced Drug Delivery Reviews.2016;95(5)243
[DOI]
317Designing hydrogels for controlled drug delivery
Jianyu Li,David J. Mooney
Nature Reviews Materials.2016;1(12)243
[DOI]
318Photo-induced anti-inflammatory activities of chloro substituted subphthalocyanines on the mammalian macrophage in vitro
Furkan Ayaz,Naz Ugur,Kasim Ocakoglu,Mine Ince
Photodiagnosis and Photodynamic Therapy.2019;25(12)499
[DOI]
319Mesoporous molecularly imprinted polymer nanoparticles as a sustained release system of azithromycin
Simin Sheybani,Tolou Hosseinifar,Majid Abdouss,Saeedeh Mazinani
RSC Advances.2015;5(120)98880
[DOI]
320Display of the peroxiredoxin Bcp1 of Sulfolobus solfataricus on probiotic spores of Bacillus megaterium
Mariamichela Lanzilli,Giuliana Donadio,Francesca Anna Fusco,Carmen Sarcinelli,Danila Limauro,Ezio Ricca,Rachele Isticato
New Biotechnology.2018;46(120)38
[DOI]
321Oleanolic–bioenhancer coloaded chitosan modified nanocarriers attenuate breast cancer cells by multimode mechanism and preserve female fertility
Monika Sharma,Shweta Sharma,Vikas Sharma,Komal Sharma,Santosh Kumar Yadav,Pankaj Dwivedi,Satish Agrawal,Sarvesh Kumar Paliwal,Anil Kumar Dwivedi,Jagdamba Prasad Maikhuri,Gopal Gupta,Prabhat Ranjan Mishra,Ajay Kumar Singh Rawat
International Journal of Biological Macromolecules.2017;104(120)1345
[DOI]
322Polyelectrolyte complexes as prospective carriers for the oral delivery of protein therapeutics
Vassilis Bourganis,Theodora Karamanidou,Olga Kammona,Costas Kiparissides
European Journal of Pharmaceutics and Biopharmaceutics.2017;111(120)44
[DOI]
323Composites based on heparin and MIL-101(Fe): the drug releasing depot for anticoagulant therapy and advanced medical nanofabrication
Vladimir V. Vinogradov,Andrey S. Drozdov,Leila R. Mingabudinova,Emiliya M. Shabanova,Nina O. Kolchina,Elizaveta I. Anastasova,Alina A. Markova,Alexander A. Shtil,Valentin A. Milichko,Galina L. Starova,Rafaella L. M. Precker,Alexandr V. Vinogradov,Evamarie Hey-Hawkins,Evgeny A. Pidko
Journal of Materials Chemistry B.2018;6(16)2450
[DOI]
324Reduced Graphene-Oxide-Embedded Polymeric Nanofiber Mats: An “On-Demand” Photothermally Triggered Antibiotic Release Platform
Ismail Altinbasak,Roxana Jijie,Alexandre Barras,Bianka Golba,Rana Sanyal,Julie Bouckaert,Djamel Drider,Rostyslav Bilyy,Tetiana Dumych,Solomiya Paryzhak,Volodymyr Vovk,Rabah Boukherroub,Amitav Sanyal,Sabine Szunerits
ACS Applied Materials & Interfaces.2018;10(48)41098
[DOI]
325Intensive care medicine in 2050: towards critical care without central lines
Jean-Louis Vincent,Frederic Michard,Bernd Saugel
Intensive Care Medicine.2018;44(6)922
[DOI]
326Branched peptides as bioactive molecules for drug design
Jlenia Brunetti,Chiara Falciani,Luisa Bracci,Alessandro Pini
Peptide Science.2018;110(5)e24089
[DOI]
327Magnetic-Plasmonic Heterodimer Nanoparticles: Designing Contemporarily Features for Emerging Biomedical Diagnosis and Treatments
S. Shams,Mohammad Ghazanfari,Carolin Schmitz-Antoniak
Nanomaterials.2019;9(1)97
[DOI]
328Bismuth Oxide Nanoparticles in Drug Delivery Systems
Krzysztof Szostak,Patryk Ostaszewski,Jolanta Pulit-Prociak,Marcin Banach
Pharmaceutical Chemistry Journal.2019;53(1)48
[DOI]
329Importance of Evaluating Dynamic Encapsulation Stability of Amphiphilic Assemblies in Serum
Bin Liu,S. Thayumanavan
Biomacromolecules.2017;18(12)4163
[DOI]
330Organotropic drug delivery: Synthetic nanoparticles and extracellular vesicles
Sara Busatto,Anthony Pham,Annie Suh,Shane Shapiro,Joy Wolfram
Biomedical Microdevices.2019;21(2)4163
[DOI]
331Organotropic drug delivery: Synthetic nanoparticles and extracellular vesicles
Yandi Syukri,Bambang Hernawan Nugroho
Biomedical Microdevices.2017;1821(2)020119
[DOI]
332Doxorubicin-loaded oligonucleotide conjugated gold nanoparticles: A promising in vivo drug delivery system for colorectal cancer therapy
Chang-Seuk Lee,Hyungjoo Kim,Joonhee Yu,Su Hwan Yu,Seona Ban,Seunghyun Oh,Dongjun Jeong,Jungkyun Im,Moo Jun Baek,Tae Hyun Kim
European Journal of Medicinal Chemistry.2017;142(2)416
[DOI]
333PEGylation of PLA nanoparticles to improve mucus-penetration and colloidal stability for oral delivery systems
Juliana Palacio,Natalia A Agudelo,Betty Lucy Lopez
Current Opinion in Chemical Engineering.2016;11(2)14
[DOI]
334PEGylation of PLA nanoparticles to improve mucus-penetration and colloidal stability for oral delivery systems
David Chatenet,Alain Fournier,Steve Bourgault
Current Opinion in Chemical Engineering.2016;11(2)133
[DOI]
335High-throughput in vitro drug release and pharmacokinetic simulation as a tool for drug delivery system development: Application to intravitreal ocular administration
Sanjay Sarkhel,Eva Ramsay,Leena-Stiina Kontturi,Jonne Peltoniemi,Arto Urtti
International Journal of Pharmaceutics.2014;477(1-2)469
[DOI]
336Engineering hepatitis B virus core particles for targeting HER2 receptors in vitro and in vivo
Izzat Fahimuddin Bin Mohamed Suffian,Julie Tzu-Wen Wang,Naomi O. Hodgins,Rebecca Klippstein,Mitla Garcia-Maya,Paul Brown,Yuya Nishimura,Hamed Heidari,Sara Bals,Jane K. Sosabowski,Chiaki Ogino,Akihiko Kondo,Khuloud T. Al-Jamal
Biomaterials.2017;120(1-2)126
[DOI]
337Branched-chain and dendritic lipids for nanoparticles
Michael W. Meanwell,Connor O’Sullivan,Perry Howard,Thomas M. Fyles
Canadian Journal of Chemistry.2017;95(2)120
[DOI]
338Branched-chain and dendritic lipids for nanoparticles
S. S. M. Abdul Majeed,Aqib Muzaffar,Kalim Deshmukh,M. Basheer Ahamed
Canadian Journal of Chemistry.2019;95(2)57
[DOI]
339Characterisation and Evaluation of Trimesic Acid Derivatives as Disulphide Cross-Linked Polymers for Potential Colon Targeted Drug Delivery
Siti Mat Yusuf,Yoke Ng,Asila Ayub,Siti Ngalim,Vuanghao Lim
Polymers.2017;9(12)311
[DOI]
340Crumpling of thin sheets as a basis for creating mechanical metamaterials
M. C. Fokker,S. Janbaz,A. A. Zadpoor
RSC Advances.2019;9(9)5174
[DOI]
341Poloxamer surfactant preserves cell viability during photoacoustic delivery of molecules into cells
Aritra Sengupta,Nishant Dwivedi,Sean C. Kelly,Lara Tucci,Naresh N. Thadhani,Mark R. Prausnitz
Biotechnology and Bioengineering.2015;112(2)405
[DOI]
342Poloxamer surfactant preserves cell viability during photoacoustic delivery of molecules into cells
Danijela Stanisic,Amanda F. Costa,Guilherme Cruz,Nelson Durán,Ljubica Tasic
Biotechnology and Bioengineering.2018;58(2)161
[DOI]
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