Journal of Pharmacy And Bioallied Sciences
Journal of Pharmacy And Bioallied Sciences Login  | Users Online: 708  Print this pageEmail this pageSmall font sizeDefault font sizeIncrease font size 
    Home | About us | Editorial board | Search | Ahead of print | Current Issue | Past Issues | Instructions | Online submission


This article has been cited by
1
R. Masrour,T. Sahdane,A. Jabar
.2021;()49
[DOI]
2In vitro activity of steroidal dendrimers on Trypanosoma cruzi epimastigote form with PAMAM dendrons modified by “click” chemistry
Laura Juárez-Chávez,Socorro Pina-Canseco,Delia Soto-Castro,Rosa Santillan,Nancy E. Magaña-Vergara,Paz María Salazar-Schettino,Margarita Cabrera-Bravo,Eduardo Pérez-Campos
Bioorganic Chemistry.2019;86()452
[DOI]
3Analysis of Fractal Structures in Dehydrated Films of Protein Solutions
Maksim Baranov,Elena Velichko,Konstantin Greshnevikov
Symmetry.2021;13(1)123
[DOI]
4Polyamidoamine Dendrimers for Enhanced Solubility of Small Molecules and Other Desirable Properties for Site Specific Delivery: Insights from Experimental and Computational Studies
Daniel Shadrack,Hulda Swai,Joan Munissi,Egid Mubofu,Stephen Nyandoro
Molecules.2018;23(6)1419
[DOI]
5Future of Alzheimer’s Disease: Nanotechnology-Based Diagnostics and Therapeutic Approach
Gopikrishna Agraharam,Nishakavya Saravanan,Agnishwar Girigoswami,Koyeli Girigoswami
BioNanoScience.2022;12(3)1002
[DOI]
6Natural and Nanotechnology Based Treatment: An Alternative Approach to Psoriasis
Nishu Yadav,Rohan Aggarwal,Monika Targhotra,Prabhat K. Sahoo,Meenakshi K. Chauhan
Current Nanomedicine.2021;11(1)21
[DOI]
7Natural and Nanotechnology Based Treatment: An Alternative Approach to Psoriasis
Sunita Ojha,Dharitri Saikia,Utpal Bora
Current Nanomedicine.2020;48(1)81
[DOI]
8Biosensing strategies based on organic-scaffolded metal nanoclusters for ultrasensitive detection of tumor markers
Leila Farzin,Mojtaba Shamsipur,Leila Samandari,Sodeh Sadjadi,Shahab Sheibani
Talanta.2020;214(1)120886
[DOI]
9Dendrimers as Modulators of Brain Cells
Dusica Maysinger,Qiaochu Zhang,Ashok Kakkar
Molecules.2020;25(19)4489
[DOI]
10Self-assembling asymmetric peptide-dendrimer micelles – a platform for effective and versatile in vitro nucleic acid delivery
Ganesh R. Kokil,Rakesh N. Veedu,Bao Tri Le,Grant A. Ramm,Harendra S. Parekh
Scientific Reports.2018;8(1)4489
[DOI]
11A window into the brain: Tools to assess pre-clinical efficacy of biomaterials-based therapies on central nervous system disorders
Juhi Samal,Ana Lucia Rebelo,Abhay Pandit
Advanced Drug Delivery Reviews.2019;148(1)68
[DOI]
12Nanoscale delivery systems for microRNAs in cancer therapy
Sanda Boca,Diana Gulei,Alina-Andreea Zimta,Anca Onaciu,Lorand Magdo,Adrian Bogdan Tigu,Calin Ionescu,Alexandru Irimie,Rares Buiga,Ioana Berindan-Neagoe
Cellular and Molecular Life Sciences.2020;77(6)1059
[DOI]
13Nanoscale delivery systems for microRNAs in cancer therapy
Guanping Yu,Amita Vaidya,Da Sun,Zheng-Rong Lu
Cellular and Molecular Life Sciences.2016;77(6)369
[DOI]
14Nanoscale delivery systems for microRNAs in cancer therapy
Murugesan Gnanadesigan,Veeraiyan Nandagopalan,Gnanajothi Kapildev,Mallikarjun Gundappa
Cellular and Molecular Life Sciences.2019;77(6)451
[DOI]
15Nanoscale delivery systems for microRNAs in cancer therapy
Mrityunjoy Mahato,Sanjukta Patra,Manashjit Gogoi
Cellular and Molecular Life Sciences.2021;47(6)41
[DOI]
16Safety Challenges and Application Strategies for the Use of Dendrimers in Medicine
Xiang Li,Abid Naeem,Shanghua Xiao,Lei Hu,Jing Zhang,Qin Zheng
Pharmaceutics.2022;14(6)1292
[DOI]
17Poly(propylene imine) dendrimers with histidine-maltose shell as novel type of nanoparticles for synapse and memory protection
Ester Aso,Isak Martinsson,Dietmar Appelhans,Christiane Effenberg,Nuria Benseny-Cases,Josep Cladera,Gunnar Gouras,Isidre Ferrer,Oxana Klementieva
Nanomedicine: Nanotechnology, Biology and Medicine.2019;17(6)198
[DOI]
18Poly(propylene imine) dendrimers with histidine-maltose shell as novel type of nanoparticles for synapse and memory protection
P. Chandra Kanth,Sandeep Kumar Verma,Nidhi Gour
Nanomedicine: Nanotechnology, Biology and Medicine.2020;17(6)231
[DOI]
19Poly(propylene imine) dendrimers with histidine-maltose shell as novel type of nanoparticles for synapse and memory protection
Hugo Valdés,Juan M. Germán-Acacio,David Morales-Morales
Nanomedicine: Nanotechnology, Biology and Medicine.2018;17(6)245
[DOI]
20Emerging trends in the novel drug delivery approaches for the treatment of lung cancer
Parvarish Sharma,Meenu Mehta,Daljeet Singh Dhanjal,Simran Kaur,Gaurav Gupta,Harjeet Singh,Lakshmi Thangavelu,S. Rajeshkumar,Murtaza Tambuwala,Hamid A. Bakshi,Dinesh Kumar Chellappan,Kamal Dua,Saurabh Satija
Chemico-Biological Interactions.2019;309(6)108720
[DOI]
21Positioning metal-organic framework nanoparticles within the context of drug delivery – A comparison with mesoporous silica nanoparticles and dendrimers
Stefan Wuttke,Marjorie Lismont,Alberto Escudero,Bunyarat Rungtaweevoranit,Wolfgang J. Parak
Biomaterials.2017;123(6)172
[DOI]
22Positioning metal-organic framework nanoparticles within the context of drug delivery – A comparison with mesoporous silica nanoparticles and dendrimers
Wolfgang J. Rahisuddin,Pattan Sirajuddin Nayab,Pattan Sirajuddin Akrema,Rizwan Arif,Mohammad Abid
Biomaterials.2017;83(6)49
[DOI]
23Functionalization of Nanoparticulate Drug Delivery Systems and Its Influence in Cancer Therapy
Theodora Amanda Seidu,Perpetua Takunda Kutoka,Dorothy Owusu Asante,Muhammad Asim Farooq,Raphael N. Alolga,Wang Bo
Pharmaceutics.2022;14(5)1113
[DOI]
24Biocompatible Supramolecular Mesoporous Silica Nanoparticles as the Next-Generation Drug Delivery System
Farahidah Mohamed,May K. Oo,Bappaditya Chatterjee,Batoul Alallam
Frontiers in Pharmacology.2022;13(5)1113
[DOI]
25Polyanionic carbosilane dendrimer-conjugated antiviral drugs as efficient microbicides: Recent trends and developments in HIV treatment/therapy
Daniel Sepúlveda-Crespo,Rafael Gómez,Francisco Javier De La Mata,José Luis Jiménez,Mª. Ángeles Muñoz-Fernández
Nanomedicine: Nanotechnology, Biology and Medicine.2015;11(6)1481
[DOI]
26Perspectives on dendritic architectures and their biological applications: From core to cell
Valikala Viswanath,Kannappan Santhakumar
Journal of Photochemistry and Photobiology B: Biology.2017;173(6)61
[DOI]
27Perspectives on dendritic architectures and their biological applications: From core to cell
Mohammad Rizwan,Minhaz Uddin Ahmed
Journal of Photochemistry and Photobiology B: Biology.2019;173(6)3523
[DOI]
28Dendrimer-Enabled Therapeutic Antisense Delivery Systems as Innovation in Medicine
Serge Mignani,Xiangyang Shi,Maria Zablocka,Jean-Pierre Majoral
Bioconjugate Chemistry.2019;30(7)1938
[DOI]
29A review on the use of magnetic fields and ultrasound for non-invasive cancer treatment
Somoshree Sengupta,Vamsi K. Balla
Journal of Advanced Research.2018;14(7)97
[DOI]
30A review on the use of magnetic fields and ultrasound for non-invasive cancer treatment
David Medina-Cruz,Bahram Saleh,Ada Vernet-Crua,Alessandro Ajo,Amit K. Roy,Thomas J. Webster
Journal of Advanced Research.2020;14(7)439
[DOI]
31Enhancing photodynamic therapy of refractory solid cancers: Combining second-generation photosensitizers with multi-targeted liposomal delivery
Ruud Weijer,Mans Broekgaarden,Milan Kos,Remko van Vught,Erik A.J. Rauws,Eefjan Breukink,Thomas M. van Gulik,Gert Storm,Michal Heger
Journal of Photochemistry and Photobiology C: Photochemistry Reviews.2015;23(7)103
[DOI]
32Enhancing photodynamic therapy of refractory solid cancers: Combining second-generation photosensitizers with multi-targeted liposomal delivery
Avinash P. Ingle,Priti Paralikar,Alex Grupenmacher,Felipe Hering Padovani,Marilia Trindade Ferrer,Mahendra Rai,Monica Alves
Journal of Photochemistry and Photobiology C: Photochemistry Reviews.2017;23(7)279
[DOI]
33Local Cancer Recurrence: The Realities, Challenges, and Opportunities for New Therapies
David A. Mahvi,Rong Liu,Mark W. Grinstaff,Yolonda L. Colson,Chandrajit P. Raut
CA: A Cancer Journal for Clinicians.2018;68(6)488
[DOI]
34Supramolecular dendrimers based novel platforms for effective oral delivery of therapeutic moieties
Gasper Fernandes,Abhijeet Pandey,Sanjay Kulkarni,Sadhana P. Mutalik,Ajinkya Nitin Nikam,Raviraja N. Seetharam,Smita S. Kulkarni,Srinivas Mutalik
Journal of Drug Delivery Science and Technology.2021;64(6)102647
[DOI]
35Supramolecular dendrimers based novel platforms for effective oral delivery of therapeutic moieties
Sneh Punia,Kawaljit Singh Sandhu,Maninder Kaur,Anil Kumar Siroha
Journal of Drug Delivery Science and Technology.2019;64(6)119
[DOI]
36Transdermal theranostics
Aung Than,Ping Zan,Peng Chen
View.2020;1(2)119
[DOI]
37Biodegradable Dendritic Polyglycerol Sulfate for the Delivery and Tumor Accumulation of Cytostatic Anticancer Drugs
Mariam Cherri,Magda Ferraro,Ehsan Mohammadifar,Elisa Quaas,Katharina Achazi,Kai Ludwig,Carsten Grötzinger,Michael Schirner,Rainer Haag
ACS Biomaterials Science & Engineering.2021;7(6)2569
[DOI]
38Molecular 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]
39Preparation of Amine- and Disulfide-Containing PAMAM-Based Dendrons for the Functionalization of Hydroxylated Surfaces: XPS as Structural Sensor
Herlys Viltres,Oscar F. Odio,Mark. C. Biesinger,Gala Montiel,Raúl Borja,Edilso Reguera
ChemistrySelect.2020;5(16)4875
[DOI]
40Stimuli-Responsive Materials for Tissue Engineering and Drug Delivery
Sofia Municoy,María I. Álvarez Echazú,Pablo E. Antezana,Juan M. Galdopórpora,Christian Olivetti,Andrea M. Mebert,María L. Foglia,María V. Tuttolomondo,Gisela S. Alvarez,John G. Hardy,Martin F. Desimone
International Journal of Molecular Sciences.2020;21(13)4724
[DOI]
41Hepatocellular carcinoma: Understanding molecular mechanisms for defining potential clinical modalities
Abhiram Natu,Anjali Singh,Sanjay Gupta
World Journal of Hepatology.2021;13(11)1568
[DOI]
42Enhanced Delivery of Plasmid DNA to Skeletal Muscle Cells using a DLC8-Binding Peptide and ASSLNIA-Modified PAMAM Dendrimer
Samuel D. Jativa,Neelanshu Thapar,David Broyles,Emre Dikici,Pirouz Daftarian,Joaquín J. Jiménez,Sylvia Daunert,Sapna K. Deo
Molecular Pharmaceutics.2019;16(6)2376
[DOI]
43Sacrificial sulphonated polystyrene template-assisted synthesis of mesoporous hollow core-shell silica nanoparticles for drug-delivery application
Deepika Doddamani,Jagadeeshbabu PonnanEttiyappan
Bulletin of Materials Science.2020;43(1)2376
[DOI]
44Sacrificial sulphonated polystyrene template-assisted synthesis of mesoporous hollow core-shell silica nanoparticles for drug-delivery application
Tapan Kumar Shaw,Piyali Khamkat,Abhishek Ghosh,Miltu Kumar Ghosh
Bulletin of Materials Science.2021;43(1)251
[DOI]
45Sacrificial sulphonated polystyrene template-assisted synthesis of mesoporous hollow core-shell silica nanoparticles for drug-delivery application
Dasharath M. Patel,Nitesh N. Patel,Jayvadan K. Patel
Bulletin of Materials Science.2021;43(1)511
[DOI]
46Sacrificial sulphonated polystyrene template-assisted synthesis of mesoporous hollow core-shell silica nanoparticles for drug-delivery application
Y. Li,D. Ju
Bulletin of Materials Science.2017;43(1)285
[DOI]
47Sacrificial sulphonated polystyrene template-assisted synthesis of mesoporous hollow core-shell silica nanoparticles for drug-delivery application
Tazib Rahaman Syed
Bulletin of Materials Science.2022;43(1)13
[DOI]
48Crossing the Blood–Brain Barrier: Recent Advances in Drug Delivery to the Brain
Mayur M. Patel,Bhoomika M. Patel
CNS Drugs.2017;31(2)109
[DOI]
49Crossing the Blood–Brain Barrier: Recent Advances in Drug Delivery to the Brain
Subhashini Bharathala,Pankaj Sharma
CNS Drugs.2019;31(2)113
[DOI]
50Crossing the Blood–Brain Barrier: Recent Advances in Drug Delivery to the Brain
Yinghan Chan,Sin Wi Ng,Laura Soon
CNS Drugs.2022;31(2)561
[DOI]
51Effective targeting of gemcitabine to pancreatic cancer through PEG-cored Flt-1 antibody-conjugated dendrimers
Kivilcim Öztürk,Günes Esendagli,Mustafa Ulvi Gürbüz,Metin Tülü,Sema Çalis
International Journal of Pharmaceutics.2017;517(1-2)157
[DOI]
52Effective targeting of gemcitabine to pancreatic cancer through PEG-cored Flt-1 antibody-conjugated dendrimers
Priya Mishra,Tanya Munjal,Sonu Gandhi
International Journal of Pharmaceutics.2019;517(1-2)437
[DOI]
53Celecoxib substituted biotinylated poly(amidoamine) G3 dendrimer as potential treatment for temozolomide resistant glioma therapy and anti-nematode agent
Lukasz Uram,Joanna Markowicz,Maria Misiorek,Aleksandra Filipowicz-Rachwal,Stanislaw Wolowiec,Elzbieta Walajtys-Rode
European Journal of Pharmaceutical Sciences.2020;152(1-2)105439
[DOI]
54Molecular Modelling Guided Modulation of Molecular Shape and Charge for Design of Smart Self-Assembled Polymeric Drug Transporters
Sousa Javan Nikkhah,Damien Thompson
Pharmaceutics.2021;13(2)141
[DOI]
55Molecular Modelling Guided Modulation of Molecular Shape and Charge for Design of Smart Self-Assembled Polymeric Drug Transporters
Manisha Singh,Rashi Rajput,Ramneek Kaur,Sachin Kumar,Sachin Rachana
Pharmaceutics.2017;13(2)153
[DOI]
56Slow-Release Formulation of Cowpea Mosaic Virus for In Situ Vaccine Delivery to Treat Ovarian Cancer
Anna E. Czapar,Brylee David B. Tiu,Frank A. Veliz,Jonathan K. Pokorski,Nicole F. Steinmetz
Advanced Science.2018;5(5)1700991
[DOI]
57Slow-Release Formulation of Cowpea Mosaic Virus for In Situ Vaccine Delivery to Treat Ovarian Cancer
Candace Benjamin,Olivia Brohlin,Arezoo Shahrivarkevishahi,Jeremiah J. Gassensmith
Advanced Science.2020;5(5)153
[DOI]
58Controlled Anchoring of (Phenylureido)sulfonamide-Based Receptor Moieties: An Impact of Binding Site Multiplication on Complexation Properties
Karolína Salvadori,Alena Krupková,Lucie Cervenková Štastná,Monika Müllerová,Václav Eigner,Tomáš Strašák,Petra Curínová
Molecules.2021;26(18)5670
[DOI]
59A hybrid of mPEG-b-PCL and G1-PEA dendrimer for enhancing delivery of antibiotics
Calvin A. Omolo,Rahul S. Kalhapure,Nikhil Agrawal,Mahantesh Jadhav,Sanjeev Rambharose,Chunderika Mocktar,Thirumala Govender
Journal of Controlled Release.2018;290(18)112
[DOI]
60Advances in the design of solid lipid nanoparticles and nanostructured lipid carriers for targeting brain diseases
Christos Tapeinos,Matteo Battaglini,Gianni Ciofani
Journal of Controlled Release.2017;264(18)306
[DOI]
61Nanotechnology Approaches for the Delivery of Exogenous siRNA for HIV Therapy
Simeon K. Adesina,Emmanuel O. Akala
Molecular Pharmaceutics.2015;12(12)4175
[DOI]
62Nanotechnology Approaches for the Delivery of Exogenous siRNA for HIV Therapy
Subhavna Juneja,Anujit Ghosal,Jaydeep Bhattacharya
Molecular Pharmaceutics.2019;12(12)165
[DOI]
63Nanoparticles and cancer therapy: Perspectives for application of nanoparticles in the treatment of cancers
Ali Aghebati-Maleki,Sanam Dolati,Majid Ahmadi,Amir Baghbanzhadeh,Milad Asadi,Ali Fotouhi,Mehdi Yousefi,Leili Aghebati-Maleki
Journal of Cellular Physiology.2020;235(3)1962
[DOI]
64Nanoparticles and cancer therapy: Perspectives for application of nanoparticles in the treatment of cancers
Deepa Patel,Dipali Talele,Drashti Pathak,Ambikanandan Misra
Journal of Cellular Physiology.2021;235(3)159
[DOI]
65Click inspired synthesis of hexa and octadecavalent peripheral galactosylated glycodendrimers and their possible therapeutic applications
Anand K. Agrahari,Anoop S. Singh,Ashish Kumar Singh,Nidhi Mishra,Mala Singh,Pradyot Prakash,Vinod K. Tiwari
New Journal of Chemistry.2019;43(31)12475
[DOI]
66RGD engineered dendrimer nanotherapeutic as an emerging targeted approach in cancer therapy
Afsana Sheikh,Shadab Md,Prashant Kesharwani
Journal of Controlled Release.2021;340(31)221
[DOI]
67Baseline and time-updated factors in preclinical development of anionic dendrimers as successful anti-HIV -1 vaginal microbicides
Ignacio Rodríguez-Izquierdo,Daniel Sepúlveda-Crespo,Jose María Lasso,Salvador Resino,Ma Ángeles Muñoz-Fernández
WIREs Nanomedicine and Nanobiotechnology.2022;14(3)221
[DOI]
68Legionella Pneumophila and Dendrimers-Mediated Antisense Therapy
Roghiyeh Pashaei-Asl,Khodadad Khodadadi,Fatima Pashaei-Asl,Gholamreza Haqshenas,Nasser Ahmadian,Maryam Pashaiasl,Reza Hajihosseini Baghdadabadi
Advanced Pharmaceutical Bulletin.2017;7(2)179
[DOI]
69Extraocular, periocular, and intraocular routes for sustained drug delivery for glaucoma
Uday B. Kompella,Rachel R. Hartman,Madhoosudan A. Patil
Progress in Retinal and Eye Research.2021;82(2)100901
[DOI]
70Sulfonimide-Based Dendrimers: Progress in Synthesis, Characterization, and Potential Applications
Julia V. Bondareva,Stanislav A. Evlashin,Oleg V. Lukin
Polymers.2020;12(12)2987
[DOI]
71Synthesis of the erythromycin-conjugated nanodendrimer and its antibacterial activity
Fatemeh Fallah,Mohsen Zargar,Masoud Yousefi,Ali Nazari Alam
European Journal of Pharmaceutical Sciences.2018;123(12)321
[DOI]
72Stimuli responsive nano-composite co-delivery of Doxorubicin and ciprofloxacin using HPLC-UV combined spectroscopy methods
Mahta Badinezhad,Majid Soleimani,Samira Jafari
Materials Today Communications.2022;30(12)103128
[DOI]
73Dendrimeric Poly(Epsilon-Lysine) Delivery Systems for the Enhanced Permeability of Flurbiprofen across the Blood-Brain Barrier in Alzheimer’s Disease
Shafq Al-azzawi,Dhafir Masheta,Anna Guildford,Gary Phillips,Matteo Santin
International Journal of Molecular Sciences.2018;19(10)3224
[DOI]
74Nanovectorization of Prostate Cancer Treatment Strategies: A New Approach to Improved Outcomes
Kenneth Omabe,Clément Paris,François Lannes,David Taïeb,Palma Rocchi
Pharmaceutics.2021;13(5)591
[DOI]
75Novel approaches in cancer treatment: preclinical and clinical development of small non-coding RNA therapeutics
Rossana Cuciniello,Stefania Filosa,Stefania Crispi
Journal of Experimental & Clinical Cancer Research.2021;40(1)591
[DOI]
76Herbal nanomedicines: Recent advancements, challenges, opportunities and regulatory overview
Parusu Kavya Teja,Jinal Mithiya,Abhijeet S. Kate,Khemraj Bairwa,Siddheshwar K Chauthe
Phytomedicine.2022;96(1)153890
[DOI]
77Recent Developments in Biopolymeric Nanoparticles for Drug Delivery Systems: An Overview
Soumya R. Barik,Ranjan K. Mohapatra,Pranab K. Mohapatra,Ahmed Mahal,Marei M. El-Ajaily
Micro and Nanosystems.2022;14(2)92
[DOI]
78Influence of the doxorubicin conjugated PAMAM dendrimer surface charge on cytotoxic effects and intracellular trafficking routes in tumor cells
E. Nikolskaya,N. Yabbarov,O. Zhunina,O. Tereshenko,M. Mollaev,M. Faustova,I. Zamulaeva,E. Severin
Materials Today: Proceedings.2017;4(7)6849
[DOI]
79Direct Surface Functionalization of Cellulose Nanocrystals with Hyperbranched Polymers through the Anionic Polymerization for pH-Responsive Intracellular Drug Delivery
Weimin Wan,Hui Ouyang,Wei Long,Wenfeng Yan,Mingzhen He,Hongye Huang,Shilin Yang,Xiaoyong Zhang,Yulin Feng,Yen Wei
ACS Sustainable Chemistry & Engineering.2019;7(23)19202
[DOI]
80Direct Surface Functionalization of Cellulose Nanocrystals with Hyperbranched Polymers through the Anionic Polymerization for pH-Responsive Intracellular Drug Delivery
Santosh Ashok Kumbhar,Bapi Gorain,Hira Choudhury,Prashant Kesharwani
ACS Sustainable Chemistry & Engineering.2021;7(23)143
[DOI]
81Direct Surface Functionalization of Cellulose Nanocrystals with Hyperbranched Polymers through the Anionic Polymerization for pH-Responsive Intracellular Drug Delivery
Arunachalam Muthuraman,Jaspreet Kaur
ACS Sustainable Chemistry & Engineering.2017;7(23)139
[DOI]
82Photosensitive Supramolecular Micelle-Mediated Cellular Uptake of Anticancer Drugs Enhances the Efficiency of Chemotherapy
Yihalem Abebe Alemayehu,Wen-Lu Fan,Fasih Bintang Ilhami,Chih-Wei Chiu,Duu-Jong Lee,Chih-Chia Cheng
International Journal of Molecular Sciences.2020;21(13)4677
[DOI]
83Antibacterial toxicity of mesoporous silica nanoparticles with functional decoration of specific organic moieties
Min Ji Son,Sang-Wha Lee
Colloids and Surfaces A: Physicochemical and Engineering Aspects.2021;630(13)127612
[DOI]
84Stimulus-responsive sequential release systems for drug and gene delivery
Sepideh Ahmadi,Navid Rabiee,Mojtaba Bagherzadeh,Faranak Elmi,Yousef Fatahi,Fatemeh Farjadian,Nafiseh Baheiraei,Behzad Nasseri,Mohammad Rabiee,Niloufar Tavakoli Dastjerd,Ali Valibeik,Mahdi Karimi,Michael R. Hamblin
Nano Today.2020;34(13)100914
[DOI]
85Chemical characterization (LC–MS–ESI), cytotoxic activity and intracellular localization of PAMAM G4 in leukemia cells
R. Flores-Mejía,M. J. Fragoso-Vázquez,L. G. Pérez-Blas,A. Parra-Barrera,S. S. Hernández-Castro,A. R. Estrada-Pérez,J. Rodrígues,E. Lara-Padilla,A. Ortiz-Morales,J. Correa-Basurto
Scientific Reports.2021;11(1)100914
[DOI]
86Synthesis of Water-soluble, Polyester-based Dendrimer Prodrugs for Exploiting Therapeutic Properties of Two Triterpenoid Acids
Silvana Alfei,Gaby Brice Taptue,Silvia Catena,Angela Bisio
Chinese Journal of Polymer Science.2018;36(9)999
[DOI]
87Features of Self-Organization of Objects with a Fractal Structure of Dendritic Geometry
D. D. Ruzhitskaya,S. B. Ryzhikov,Yu. V. Ryzhikova
Moscow University Physics Bulletin.2021;76(5)253
[DOI]
88Features of Self-Organization of Objects with a Fractal Structure of Dendritic Geometry
Isabel M. Oliveira,Mariana R. Carvalho,Rui L. Reis,Joaquim M. Oliveira
Moscow University Physics Bulletin.2021;76(5)327
[DOI]
89Features of Self-Organization of Objects with a Fractal Structure of Dendritic Geometry
David Aebisher,Dorota Bartusik
Moscow University Physics Bulletin.2018;76(5)467
[DOI]
90Features of Self-Organization of Objects with a Fractal Structure of Dendritic Geometry
Parijat Pandey,Meenu Mehta,Shakti Shukla,Ridhima Wadhwa,Gautam Singhvi,Dinesh Kumar Chellappan,Saurabh Satija,Gaurav Gupta,Rajendra Awasthi,Parteek Prasher,Philip M. Hansbro,Kamal Dua,Harish Dureja
Moscow University Physics Bulletin.2020;76(5)449
[DOI]
91Advancing of Cellular Signaling Pathways in Respiratory Diseases Using Nanocarrier Based Drug Delivery Systems
Meenu Mehta,Daljeet Singh Dhanjal,Saurabh Satija,Ridhima Wadhwa,Keshav Raj Paudel,Dinesh Kumar Chellappan,Shiva Mohammad,Mehra Haghi,Philip M. Hansbro,Kamal Dua
Current Pharmaceutical Design.2020;26(42)5380
[DOI]
92Cutting-edge development in dendritic polymeric materials for biomedical and energy applications
Mohammad R. Thalji,Amal Amin Ibrahim,Gomaa A.M. Ali
European Polymer Journal.2021;160(42)110770
[DOI]
93Mesoporous Silica Nanoparticles: A Comprehensive Review on Synthesis and Recent Advances
Reema Narayan,Usha Nayak,Ashok Raichur,Sanjay Garg
Pharmaceutics.2018;10(3)118
[DOI]
94Mesoporous Silica Nanoparticles: A Comprehensive Review on Synthesis and Recent Advances
Hemant K.S. Yadav,Aiah A. Almokdad,Sumia I.M. shaluf,Manar S. Debe
Pharmaceutics.2019;10(3)531
[DOI]
95Material-based engineering of bacteria for cancer diagnosis and therapy
Tianzhong Li,Lingfeng Gao,Bin Zhang,Guohui Nie,Zhongjian Xie,Han Zhang,Hans Ågren
Applied Materials Today.2021;25(3)101212
[DOI]
96Material-based engineering of bacteria for cancer diagnosis and therapy
E. Popova,K. Mishin,L. Chystyi,D. Krivorotov,R. Gamazkov,A. Radilov
Applied Materials Today.2022;2390(3)030071
[DOI]
97Dendritic polymers for dermal drug delivery
Kaushalkumar Dave,Venkata Vamsi Krishna Venuganti
Therapeutic Delivery.2017;8(12)1077
[DOI]
98Insights into Nanotherapeutic Strategies as an Impending Approach to Liver Cancer Treatment
Archu Singh,Sadat Shafi,Tanya Upadhyay,Abul Kalam Najmi,Kanchan Kohli,Faheem Hyder Pottoo
Current Topics in Medicinal Chemistry.2020;20(20)1839
[DOI]
99Mobile Microrobots for Active Therapeutic Delivery
Pelin Erkoc,Immihan C. Yasa,Hakan Ceylan,Oncay Yasa,Yunus Alapan,Metin Sitti
Advanced Therapeutics.2019;2(1)1800064
[DOI]
100Advances in dendrimer-mediated targeted drug delivery to the brain
Rahul Gauro,Mukesh Nandave,Vineet Kumar Jain,Keerti Jain
Journal of Nanoparticle Research.2021;23(3)1800064
[DOI]
101Advances in dendrimer-mediated targeted drug delivery to the brain
Rostyslav Stoika
Journal of Nanoparticle Research.2022;23(3)171
[DOI]
102Advances in dendrimer-mediated targeted drug delivery to the brain
Mohammad Rizwan,Minhaz Uddin Ahmed
Journal of Nanoparticle Research.2018;23(3)1
[DOI]
103Epidermal growth factor receptor targeted methotrexate and small interfering RNA co-delivery
Benjamin Steinborn,Ines Truebenbach,Stephan Morys,Ulrich Lächelt,Ernst Wagner,Wei Zhang
The Journal of Gene Medicine.2018;20(7-8)e3041
[DOI]
104Supramolecular 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(7-8)152
[DOI]
105Protecting redesigned supercharged ferritin containers against protease by integration into acid-cleavable polyelectrolyte microgels
Made Budiarta,Wenjing Xu,Lukas Schubert,Maria Meledina,Alexander Meledin,Dominik Wöll,Andrij Pich,Tobias Beck
Journal of Colloid and Interface Science.2021;591(7-8)451
[DOI]
106Olanzapine Mesoporous Nanostructured Lipid Carrier: Optimization, Characterization, In Vivo Assessment, and Physiologically Based Pharmacokinetic Modeling
Hussein O. Ammar,Mahmoud M. Ghorab,Marwa S. Saleh,Amira M. Ghoneim
IEEE Transactions on NanoBioscience.2021;20(2)166
[DOI]
107Dendrimers: A New Race of Pharmaceutical Nanocarriers
Pooja Mittal,Anjali Saharan,Ravinder Verma,Farag M. A. Altalbawy,Mohammed A. Alfaidi,Gaber El-Saber Batiha,Wahida Akter,Rupesh K. Gautam,Md. Sahab Uddin,Md. Sohanur Rahman,Mohammad Hassan Baig
BioMed Research International.2021;2021(2)1
[DOI]
108Cancer drug delivery in the nano era: An overview and perspectives
Zhen Li,Shirui Tan,Shuan Li,Qiang Shen,Kunhua Wang
Oncology Reports.2017;38(2)611
[DOI]
109Dendrimers in the context of targeting central nervous system disorders
Forum Palan,Bappaditya Chatterjee
Journal of Drug Delivery Science and Technology.2022;73(2)103474
[DOI]
110A prominent anchoring effect on the kinetic control of drug release from mesoporous silica nanoparticles (MSNs)
Vy Anh Tran,Sang-Wha Lee
Journal of Colloid and Interface Science.2018;510(2)345
[DOI]
111Recent pros and cons of nanomaterials in drug delivery systems
Ülkü Anik,Suna Timur,Zekerya Dursun
International Journal of Polymeric Materials and Polymeric Biomaterials.2020;69(17)1090
[DOI]
112Multifunctional nanomedicines for targeting epidermal growth factor receptor in colorectal cancer
Mostafa Akbarzadeh Khiavi,Azam Safary,Jaleh Barar,Amir Ajoolabady,Mohammad Hossein Somi,Yadollah Omidi
Cellular and Molecular Life Sciences.2020;77(6)997
[DOI]
113Multifunctional nanomedicines for targeting epidermal growth factor receptor in colorectal cancer
Jonathan Wang,Michael Mellas,Matthew Tirrell,Eun Ji Chung
Cellular and Molecular Life Sciences.2020;77(6)325
[DOI]
114Dendrimers in targeted drug delivery applications: a review of diseases and cancer
Ardhendu Kumar Mandal
International Journal of Polymeric Materials and Polymeric Biomaterials.2021;70(4)287
[DOI]
115Intrinsic stimuli-responsive nanocarriers for smart drug delivery of antibacterial agents—An in-depth review of the last two decades
Nikita Devnarain,Nawras Osman,Victoria Oluwaseun Fasiku,Sifiso Makhathini,Mohammed Salih,Usri H. Ibrahim,Thirumala Govender
WIREs Nanomedicine and Nanobiotechnology.2021;13(1)287
[DOI]
116Toxicity of Nanoparticles in Biomedical Application: Nanotoxicology
Chukwuebuka Egbuna,Vijaykumar K. Parmar,Jaison Jeevanandam,Shahira M. Ezzat,Kingsley C. Patrick-Iwuanyanwu,Charles Oluwaseun Adetunji,Johra Khan,Eugene N. Onyeike,Chukwuemelie Zedech Uche,Muhammad Akram,Mervat S. Ibrahim,Nihal M. El Mahdy,Chinaza Godswill Awuchi,Kaliyaperumal Saravanan,Habibu Tijjani,Uchenna Estella Odoh,Mohammed Messaoudi,Jonathan C. Ifemeje,Michael C. Olisah,Nebechi Jane Ezeofor,Chukwudi Jude Chikwendu,Chinwe Gloria Ibeabuchi,You-Cheng Hseu
Journal of Toxicology.2021;2021(1)1
[DOI]
117Toxicity of Nanoparticles in Biomedical Application: Nanotoxicology
Shantanu Bandopadhyay,Satish Manchanda,Akhilesh Chandra,Javed Ali,Pran Kishore Deb
Journal of Toxicology.2020;2021(1)179
[DOI]
118Toxicity of Nanoparticles in Biomedical Application: Nanotoxicology
Abu Tariq,Showkat Ahmad Bhawani,Abdul Moheman
Journal of Toxicology.2019;118(1)175
[DOI]
119Biocompatible nanomaterials based on dendrimers, hydrogels and hydrogel nanocomposites for use in biomedicine
Cuu Khoa Nguyen,Ngoc Quyen Tran,Thi Phuong Nguyen,Dai Hai Nguyen
Advances in Natural Sciences: Nanoscience and Nanotechnology.2017;8(1)015001
[DOI]
120Dendrimer-based nanoparticles for potential personalized therapy in chronic lymphocytic leukemia: Targeting the BCR-signaling pathway
Ida Franiak-Pietryga,Henryk Maciejewski,Kinga Ostrowska,Dietmar Appelhans,Brigitte Voit,Malgorzata Misiewicz,Pawel Kowalczyk,Maria Bryszewska,Maciej Borowiec
International Journal of Biological Macromolecules.2016;88(1)156
[DOI]
121Nanomaterials multifunctional behavior for enlightened cancer therapeutics
Ganji Seeta Rama Raju,Begum Dariya,Sathish Kumar Mungamuri,Gayathri Chalikonda,Sung-Min Kang,Ishaq N. Khan,Pinninti Santosh Sushma,Ganji Purnachandra Nagaraju,Eluri Pavitra,Young-Kyu Han
Seminars in Cancer Biology.2021;69(1)178
[DOI]
122Considerations for Polymers Used in Ocular Drug Delivery
Megan M. Allyn,Richard H. Luo,Elle B. Hellwarth,Katelyn E. Swindle-Reilly
Frontiers in Medicine.2022;8(1)178
[DOI]
123Nano to rescue: repository of nanocarriers for targeted drug delivery to curb breast cancer
Poonam Banthia,Lokesh Gambhir,Asha Sharma,Dhiraj Daga,Neha Kapoor,Rishabh Chaudhary,Gaurav Sharma
3 Biotech.2022;12(3)178
[DOI]
124Nano to rescue: repository of nanocarriers for targeted drug delivery to curb breast cancer
Pongali Raghavendra,Thammineni Pullaiah
3 Biotech.2018;12(3)113
[DOI]
125Nanotechnology and nanocarrier-based approaches on treatment of degenerative diseases
Anindita Chowdhury,Selvaraj Kunjiappan,Theivendren Panneerselvam,Balasubramanian Somasundaram,Chiranjib Bhattacharjee
International Nano Letters.2017;7(2)91
[DOI]
126Nano Drug Delivery Platforms for Dental Application: Infection Control and TMJ Management—A Review
Abhishek Lal,Mohammad Khursheed Alam,Naseer Ahmed,Afsheen Maqsood,Ruba K. Al-Qaisi,Deepti Shrivastava,Zainab Ali Alkhalaf,Amal Mohamed Alanazi,Hasna Rasheed Alshubrmi,Mohammed G. Sghaireen,Kumar Chandan Srivastava
Polymers.2021;13(23)4175
[DOI]
127Leveraging Electrostatic Interactions for Drug Delivery to the Joint
Shreedevi Kumar,Blanka Sharma
Bioelectricity.2020;2(2)82
[DOI]
128Leveraging Electrostatic Interactions for Drug Delivery to the Joint
Leena Peltonen,Mayank Singhal,Jouni Hirvonen
Bioelectricity.2020;2(2)3
[DOI]
129Leveraging Electrostatic Interactions for Drug Delivery to the Joint
Avnesh Kumari,Rubbel Singla,Anika Guliani,Shanka Walia,Amitabha Acharya,Sudesh Kumar Yadav
Bioelectricity.2016;2(2)1
[DOI]
130Recent Advances in Nanocarrier-Assisted Therapeutics Delivery Systems
Shi Su,Peter M. Kang
Pharmaceutics.2020;12(9)837
[DOI]
131Carbosilane metallodendrimers based on copper (II) complexes: Synthesis, EPR characterization and anticancer activity
Natalia Sanz del Olmo,Marta Maroto-Díaz,Rafael Gómez,Paula Ortega,Michela Cangiotti,M. Francesca Ottaviani,F. Javier de la Mata
Journal of Inorganic Biochemistry.2017;177(9)211
[DOI]
132Rational nanocarrier design towards clinical translation of cancer nanotherapy
Dandan Guo,Xiaotian Ji,Juntao Luo
Biomedical Materials.2021;16(3)032005
[DOI]
133Rational nanocarrier design towards clinical translation of cancer nanotherapy
Vruti Patel,Chitra Rajani,Debleena Paul,Pooja Borisa,Kuldeep Rajpoot,Susanne R. Youngren-Ortiz,Rakesh K. Tekade
Biomedical Materials.2020;16(3)333
[DOI]
134Peptide Multimerization as Leads for Therapeutic Development
Dean E. Sheard,Wenyi Li,Neil M. O’Brien-Simpson,Frances Separovic,John D. Wade
Biologics.2021;2(1)15
[DOI]
135Evaluation of G2 Citric Acid-Based Dendrimer as an Adjuvant in Veterinary Rabies Vaccine
Vahid Asgary,Alireza Shoari,Majid Afshar Moayad,Mehdi Shafiee Ardestani,Razieh Bigdeli,Leila Ghazizadeh,Mohammad Sadeq Khosravy,Erfan Panahnejad,Alireza Janani,Rouzbeh Bashar,Maliheh Abedi,Reza Ahangari Cohan
Viral Immunology.2018;31(1)47
[DOI]
136Activated Microglia Targeting Dendrimer–Minocycline Conjugate as Therapeutics for Neuroinflammation
Rishi Sharma,Soo-Young Kim,Anjali Sharma,Zhi Zhang,Siva Pramodh Kambhampati,Sujatha Kannan,Rangaramanujam M. Kannan
Bioconjugate Chemistry.2017;28(11)2874
[DOI]
137Induced Pluripotent Stem Cells (iPSCs) and Gene Therapy: A New Era for the Treatment of Neurological Diseases
Giulia Paolini Sguazzi,Valentina Muto,Marco Tartaglia,Enrico Bertini,Claudia Compagnucci
International Journal of Molecular Sciences.2021;22(24)13674
[DOI]
138New Modalities for Challenging Targets in Drug Discovery
Eric Valeur,Stéphanie M. Guéret,Hélène Adihou,Ranganath Gopalakrishnan,Malin Lemurell,Herbert Waldmann,Tom N. Grossmann,Alleyn T. Plowright
Angewandte Chemie International Edition.2017;56(35)10294
[DOI]
139Intranasal Nanoparticulate Systems as Alternative Route of Drug Delivery
Areen Alshweiat,Rita Ambrus,IIdikó Csóka
Current Medicinal Chemistry.2019;26(35)6459
[DOI]
140Neuroprotective Effect of New Nanochelating-Based Nano Complex, ALZc3, Against Aß (1–42)-Induced Toxicity in Rat: a Comparison with Memantine
Ramin Karimi-Sales,Mehrafarin Ashiri,Maryam Hafizi,Somayeh Kalanaky,Amir Hossein Maghsoudi,Saideh Fakharzadeh,Nader Maghsoudi,Mohammad Hassan Nazaran
Pharmaceutical Research.2020;37(3)6459
[DOI]
141Neuroprotective Effect of New Nanochelating-Based Nano Complex, ALZc3, Against Aß (1–42)-Induced Toxicity in Rat: a Comparison with Memantine
John M. Tomich,Emily Wessel,Jiyeong Choi,L. Adriana Avila
Pharmaceutical Research.2019;37(3)247
[DOI]
142Nano Based Approach for the Treatment of Neglected Tropical Diseases
Sureshbabu Ram Kumar Pandian,Theivendren Panneerselvam,Parasuraman Pavadai,Saravanan Govindaraj,Vigneshwaran Ravishankar,Ponnusamy Palanisamy,Muthukumar Sampath,Murugesan Sankaranarayanan,Selvaraj Kunjiappan
Frontiers in Nanotechnology.2021;3(3)247
[DOI]
143Reactive oxygen nano-generators for cancer therapy
Dnyaneshwar Kalyane,Devendra Choudhary,Suryanarayana Polaka,Hanmant Goykar,Tukaram Karanwad,Kuldeep Rajpoot,Rakesh Kumar Tekade
Progress in Materials Science.2022;130(3)100974
[DOI]
144Reactive oxygen nano-generators for cancer therapy
Matilde Durán-Lobato,Maria Holgado,Josefa Álvarez-Fuentes,José Arias,Mercedes Fernández-Arévalo,Lucía Martín-Banderas
Progress in Materials Science.2016;130(3)243
[DOI]
145Targeting neuroinflammation by intranasal delivery of nanoparticles in neurological diseases: a comprehensive review
Fatemeh Moradi,Nasrin Dashti
Naunyn-Schmiedeberg's Archives of Pharmacology.2022;395(2)133
[DOI]
146Chlorambucil Conjugated Ugi Dendrimers with PAMAM-NH2 Core and Evaluation of Their Anticancer Activity
Nalin Seixas,Bruno Ravanello,Ibrahim Morgan,Goran Kaluderovic,Ludger Wessjohann
Pharmaceutics.2019;11(2)59
[DOI]
147Recent advances in drug delivery nanocarriers incorporated in temperature-sensitive Pluronic F-127–A critical review
Rose Jaquilin P J,Oluwatobi Samuel Oluwafemi,Sabu Thomas,Adebola Omowunmi Oyedeji
Journal of Drug Delivery Science and Technology.2022;72(2)103390
[DOI]
148Recent advances in drug delivery nanocarriers incorporated in temperature-sensitive Pluronic F-127–A critical review
George Dan Mogosanu,Alexandru Mihai Grumezescu,Ludovic Everard Bejenaru,Cornelia Bejenaru
Journal of Drug Delivery Science and Technology.2016;72(2)229
[DOI]
149PAMAM dendrimer based targeted nano-carrier for bio-imaging and therapeutic agents
Shewaye Lakew Mekuria,Tilahun Ayane Debele,Hsieh-Chih Tsai
RSC Advances.2016;6(68)63761
[DOI]
150PAMAM dendrimer based targeted nano-carrier for bio-imaging and therapeutic agents
Noah Tedla,Jose Ruiz,Vicky Mody,Xinyu Wang,Vishakha S. Bhave
RSC Advances.2021;6(68)63
[DOI]
151PAMAM dendrimer based targeted nano-carrier for bio-imaging and therapeutic agents
M. de la Sierra Espinar Buitrago,M. Ángeles Muñoz Fernández
RSC Advances.2021;6(68)163
[DOI]
152Recent Advances in Herbal Nanomedicines for Cancer Treatment
Deepak Pradhan,Prativa Biswasroy,Amita Sahu,Dipak K. Sahu,Goutam Ghosh,Goutam Rath
Current Molecular Pharmacology.2021;14(3)292
[DOI]
153Surface functionalized dendrimers as controlled-release delivery nanosystems for tumor targeting
Maryam Ghaffari,Gholamreza Dehghan,Fereydoon Abedi-Gaballu,Soheila Kashanian,Behzad Baradaran,Jafar Ezzati Nazhad Dolatabadi,Dusan Losic
European Journal of Pharmaceutical Sciences.2018;122(3)311
[DOI]
154Mit Peptiden dekorierte Dendrimere und ihre biotechnologische Nutzung
Jingjing Wan,Paul F. Alewood
Angewandte Chemie.2016;128(17)5208
[DOI]
155Diseases and conditions that impact maternal and fetal health and the potential for nanomedicine therapies
Katherine M. Nelson,N'Dea Irvin-Choy,Matthew K. Hoffman,Jason P. Gleghorn,Emily S. Day
Advanced Drug Delivery Reviews.2021;170(17)425
[DOI]
156Unconventional Approaches to Prepare Triazine-Based Liquid Crystal Dendrimers
Yao-Chih Lu,Hsiu-Fu Hsu,Long-Li Lai
Nanomaterials.2021;11(8)2112
[DOI]
157Dendrimers in anticancer drug delivery: mechanism of interaction of drug and dendrimers
Jaspreet Singh,Keerti Jain,Neelesh Kumar Mehra,N. K. Jain
Artificial Cells, Nanomedicine, and Biotechnology.2016;44(7)1626
[DOI]
158Crosslinked poly-?-glutamic acid based nanosystem for drug delivery
Zsuzsanna Csikós,Erika Fazekas,Dávid Rózsa,János Borbély,Krisztina Kerekes
Journal of Drug Delivery Science and Technology.2018;48(7)478
[DOI]
159Nanomedicine: A Promising Avenue for the Development of Effective Therapy for Breast Cancer
Ali Sartaj,Sanjula Baboota,Javed Ali
Current Cancer Drug Targets.2020;20(8)603
[DOI]
160Nanomedicine: A Promising Avenue for the Development of Effective Therapy for Breast Cancer
Sujata Paul,El Bethel Lalthavel Hmar,Hemanta Pathak,Hemanta Kumar Sharma
Current Cancer Drug Targets.2022;20(8)145
[DOI]
161Nanomedicine: A Promising Avenue for the Development of Effective Therapy for Breast Cancer
Burcu Devrim,Asuman Bozkir
Current Cancer Drug Targets.2017;20(8)169
[DOI]
162Nanomedicine: A Promising Avenue for the Development of Effective Therapy for Breast Cancer
Deeptashree Nandi,Aakriti Singal,Alo Nag
Current Cancer Drug Targets.2019;20(8)177
[DOI]
163Nanocarriers for the Delivery of Medical, Veterinary, and Agricultural Active Ingredients
Paul L. Chariou,Oscar A. Ortega-Rivera,Nicole F. Steinmetz
ACS Nano.2020;14(3)2678
[DOI]
164Nanocarriers for the Delivery of Medical, Veterinary, and Agricultural Active Ingredients
Nataliya Finiuk,Nataliya Mitina,Alexander Zaichenko,Rostyslav Stoika
ACS Nano.2022;14(3)197
[DOI]
165Recent Progresses in Organic-Inorganic Nano Technological Platforms for Cancer Therapeutics
Sanjay Kumar,Anchal Singhal,Uma Narang,Sweta Mishra,Pratibha Kumari
Current Medicinal Chemistry.2020;27(35)6015
[DOI]
166Cyclohexadienone core 3,6-di-tert-butylcarbazole decorated triazole bridged dendrimers: synthesis, photophysical and electrochemical properties and application as an additive in dye-sensitized solar cells
Janakiraman Babu,Shanmugam Ganesan,Kaliamurthy Ashok Kumar,Masiyappan Karuppusamy,Arumugam Pandurangan,Perumal Rajakumar
New Journal of Chemistry.2019;43(10)4036
[DOI]
167Nutraceuticals’ Novel Formulations: The Good, the Bad, the Unknown and Patents Involved
Nada A. Helal,Heba A. Eassa,Ahmed M. Amer,Mohamed A. Eltokhy,Ivan Edafiogho,Mohamed I. Nounou
Recent Patents on Drug Delivery & Formulation.2019;13(2)105
[DOI]
168Nanoparticle Based Treatment for Cardiovascular Diseases
Purnima Gupta,Evelyn Garcia,Amrita Sarkar,Sumit Kapoor,Khadija Rafiq,Hitendra S. Chand,Rahul Dev Jayant
Cardiovascular & Hematological Disorders-Drug Targets.2019;19(1)33
[DOI]
169Nanoporous Anodic Alumina Platforms for Drug Delivery Applications: Recent Advances and Perspective
Pankaj Kapruwan,Josep Ferré-Borrull,Lluis F. Marsal
Advanced Materials Interfaces.2020;7(22)2001133
[DOI]
170The Nature of the Inhibitory Action of Anionic Polyamidoamine Dendrimers of Generation 1.5–3.5 on the Activity of the Fibrinolytic System
R. B. Aisina,L. I. Mukhametova,E. M. Ivanova
Russian Journal of Bioorganic Chemistry.2020;46(5)787
[DOI]
171The Nature of the Inhibitory Action of Anionic Polyamidoamine Dendrimers of Generation 1.5–3.5 on the Activity of the Fibrinolytic System
Muneesh Kumar Barman,Manjita Srivastava,Meenakshi Singh,Khalid Umar Fakhri,Kailash Chand,Subash C. Sonkar,Prudhvilal Bhukya
Russian Journal of Bioorganic Chemistry.2021;46(5)534
[DOI]
172Perfluorocarbons Therapeutics in Modern Cancer Nanotechnology for Hypoxiainduced Anti-tumor Therapy
Saurabh Satija,Prabal Sharma,Harpreet Kaur,Daljeet S. Dhanjal,Reena S. Chopra,Navneet Khurana,Manish Vyas,Neha Sharma,Murtaza M. Tambuwala,Hamid A. Bakshi,Nitin B. Charbe,Flavia C. Zacconi,Dinesh K. Chellappan,Kamal Dua,Meenu Mehta
Current Pharmaceutical Design.2021;27(43)4376
[DOI]
173Nanocarrier mediated delivery of siRNA/miRNA in combination with chemotherapeutic agents for cancer therapy: Current progress and advances
Nishant S. Gandhi,Rakesh K. Tekade,Mahavir B. Chougule
Journal of Controlled Release.2014;194(43)238
[DOI]
174Dendritic polyglycerols are modulators of microglia-astrocyte crosstalk
Dusica Maysinger,Mélanie Lalancette-Hébert,Jeff Ji,Katherine Jabbour,Jens Dernedde,Kim Silberreis,Rainer Haag,Jasna Kriz
Future Neurology.2019;14(4)FNL31
[DOI]
175An insight into aptamer engineered dendrimer for cancer therapy
Afsana Sheikh,Prashant Kesharwani
European Polymer Journal.2021;159(4)110746
[DOI]
176Nanomedicine for Immunotherapy Targeting Hematological Malignancies: Current Approaches and Perspective
Alessandro Allegra,Mario Di Gioacchino,Alessandro Tonacci,Claudia Petrarca,Sebastiano Gangemi
Nanomaterials.2021;11(11)2792
[DOI]
177An Overview of Nanotechnologies for Drug Delivery to the Brain
Ahsan Ayub,Shawn Wettig
Pharmaceutics.2022;14(2)224
[DOI]
178Liposomal doxorubicin as targeted delivery platform: Current trends in surface functionalization
Vivek Makwana,Jasmine Karanjia,Thomas Haselhorst,Shailendra Anoopkumar-Dukie,Santosh Rudrawar
International Journal of Pharmaceutics.2021;593(2)120117
[DOI]
179Dendrimer-Based Drug Delivery Systems for Brain Targeting
Yuefei Zhu,Chunying Liu,Zhiqing Pang
Biomolecules.2019;9(12)790
[DOI]
180Nanotechnology in Tuberculosis: State of the Art and the Challenges Ahead
Estefania Grotz,Nancy Tateosian,Nicolas Amiano,Maximiliano Cagel,Ezequiel Bernabeu,Diego A. Chiappetta,Marcela A. Moretton
Pharmaceutical Research.2018;35(11)790
[DOI]
181Dendrimer-conjugated podophyllotoxin suppresses DENA-induced HCC progression by modulation of inflammatory and fibrogenic factors
Supriya Sharma,Mehak Mehak,Jyoti Chhimwal,Vikram Patial,Ugir Hossain Sk
Toxicology Research.2019;8(4)560
[DOI]
182Dendrimer-conjugated podophyllotoxin suppresses DENA-induced HCC progression by modulation of inflammatory and fibrogenic factors
Mohammad Rizwan,Minhaz Uddin Ahmed
Toxicology Research.2018;8(4)1
[DOI]
183Dendrimer-conjugated podophyllotoxin suppresses DENA-induced HCC progression by modulation of inflammatory and fibrogenic factors
Divya Kaushal,Swati Gupta,Yashwant V. Pathak
Toxicology Research.2022;8(4)469
[DOI]
184Application of nanomedicine for crossing the blood–brain barrier: Theranostic opportunities in multiple sclerosis
Ghasem Ghalamfarsa,Mohammad Hojjat-Farsangi,Mousa Mohammadnia-Afrouzi,Enayat Anvari,Shohreh Farhadi,Mehdi Yousefi,Farhad Jadidi-Niaragh
Journal of Immunotoxicology.2016;13(5)603
[DOI]
185Recent perspectives on the delivery of biologics to back of the eye
Mary Joseph,Hoang M. Trinh,Kishore Cholkar,Dhananjay Pal,Ashim K. Mitra
Expert Opinion on Drug Delivery.2017;14(5)631
[DOI]
186Nanocarriers for effective nutraceutical delivery to the brain
Rugmani Meenambal,M.M. Srinivas Bharath
Neurochemistry International.2020;140(5)104851
[DOI]
187Dendrimers as nanoscale vectors: Unlocking the bars of cancer therapy
Asmita Deka Dey,Ashkan Bigham,Yasaman Esmaeili,Milad Ashrafizadeh,Farnaz Dabbagh Moghaddam,Shing Cheng Tan,Satar Yousefiasl,Saurav Sharma,Aziz Maleki,Navid Rabiee,Alan Prem Kumar,Vijay Kumar Thakur,Gorka Orive,Esmaeel Sharifi,Arun Kumar,Pooyan Makvandi
Seminars in Cancer Biology.2022;140(5)104851
[DOI]
188Dendrimers as nanoscale vectors: Unlocking the bars of cancer therapy
Hemant K.S. Yadav,Manar Dibi,Alyazya Mohammed
Seminars in Cancer Biology.2018;140(5)219
[DOI]
189The interaction of nanostructured antimicrobials with biological systems: Cellular uptake, trafficking and potential toxicity
Adriano Brandelli
Food Science and Human Wellness.2020;9(1)8
[DOI]
190The interaction of nanostructured antimicrobials with biological systems: Cellular uptake, trafficking and potential toxicity
Mohsen Khodadadi Yazdi,Payam Zarrintaj,Fatemeh Mottaghitalab,Mehdi Farokhi,Joshua D. Ramsey,Mohammad Reza Saeb
Food Science and Human Wellness.2020;9(1)27
[DOI]
191The Nanosystems Involved in Treating Lung Cancer
Andreea Crintea,Alina Gabriela Dutu,Gabriel Samasca,Ioan Alexandru Florian,Iulia Lupan,Alexandra Marioara Craciun
Life.2021;11(7)682
[DOI]
192Drug Carrier for Photodynamic Cancer Therapy
Tilahun Debele,Sydney Peng,Hsieh-Chih Tsai
International Journal of Molecular Sciences.2015;16(9)22094
[DOI]
193Drug Carrier for Photodynamic Cancer Therapy
Homa Gheybi,Shabnam Sattari,Ali Bodaghi,Khadijeh Soleimani,Abbas Dadkhah,Mohsen Adeli
International Journal of Molecular Sciences.2018;16(9)103
[DOI]
194Influence of Ultrasound and Magnetic Field Treatment Time on Carcinoma Cell Inhibition with Drug Carriers: An in Vitro Study
Somoshree Sengupta,Chandra Khatua,Aniruddha Pal,Subhadip Bodhak,Vamsi Krishna Balla
Ultrasound in Medicine & Biology.2020;46(10)2752
[DOI]
195Peptide-Functionalized Dendrimer Nanocarriers for Targeted Microdystrophin Gene Delivery
Jessica Hersh,José Manuel Condor Capcha,Camila Iansen Irion,Guerline Lambert,Mauricio Noguera,Mohit Singh,Avinash Kaur,Emre Dikici,Joaquín J. Jiménez,Lina A. Shehadeh,Sylvia Daunert,Sapna K. Deo
Pharmaceutics.2021;13(12)2159
[DOI]
196Peptide-Functionalized Dendrimer Nanocarriers for Targeted Microdystrophin Gene Delivery
Diana Sousa,Débora Ferreira,Joana L. Rodrigues,Lígia R. Rodrigues
Pharmaceutics.2019;13(12)357
[DOI]
197Bacterial Resistance and Prostate Cancer Susceptibility Toward Metal-Ion-doped DNA Complexes
Srivithya Vellampatti,Gopalakrishnan Chandrasekaran,Sekhar Babu Mitta,Sreekantha Reddy Dugasani,Vinoth-Kumar Lakshmanan,Sung Ha Park
ACS Applied Materials & Interfaces.2018;10(51)44290
[DOI]
198Bacterial Resistance and Prostate Cancer Susceptibility Toward Metal-Ion-doped DNA Complexes
Yubin Li,Shaofei Wang,Dianwen Ju
ACS Applied Materials & Interfaces.2020;10(51)167
[DOI]
199The Optical Properties of Fractal Nanodendrites in the Processes of Their Self-Organization
D. D. Ruzhitskaya,S. B. Ryzhikov,Yu. V. Ryzhikova
Moscow University Physics Bulletin.2018;73(3)306
[DOI]
200Emerging trends in nanomedicine for topical delivery in skin disorders: Current and translational approaches
Parijat Pandey,Saurabh Satija,Ridhima Wadhwa,Meenu Mehta,Deepika Purohit,Gaurav Gupta,Parteek Prasher,Dinesh K. Chellappan,Rajendra Awasthi,Harish Dureja,Kamal Dua
Dermatologic Therapy.2020;33(3)306
[DOI]
201Emerging trends in nanomedicine for topical delivery in skin disorders: Current and translational approaches
Rajapaksha Dewage Asanka Amith Rajapaksha
Dermatologic Therapy.2020;33(3)121
[DOI]
202Platelet activation by charged ligands and nanoparticles: platelet glycoprotein receptors as pattern recognition receptors
Samantha J. Montague,Pushpa Patel,Eleyna M. Martin,Alexandre Slater,Lourdes Garcia Quintanilla,Gina Perrella,Caroline Kardeby,Magdolna Nagy,Diego Mezzano,Paula M. Mendes,Steve P. Watson
Platelets.2021;32(8)1018
[DOI]
203Platelet activation by charged ligands and nanoparticles: platelet glycoprotein receptors as pattern recognition receptors
Jainendra Pathak,Sonal Mishra,Neha Kumari,Abha Pandey,Jyoti Jaiswal,Amit Gupta,Vidya Singh,Deepak Kumar,Rajeshwar P. Sinha
Platelets.2021;32(8)115
[DOI]
204Polymers in Drug Delivery
Apurva Srivastava,Tejaswita Yadav,Soumya Sharma,Anjali Nayak,Akanksha Akanksha Kumari,Nidhi Mishra
Journal of Biosciences and Medicines.2016;04(01)69
[DOI]
205Polymers in Drug Delivery
Jiayi Pan,Sara Aly Attia,Nina Filipczak,Vladimir P. Torchilin
Journal of Biosciences and Medicines.2020;04(01)201
[DOI]
206Thrombolytic Agents: Nanocarriers in Controlled Release
Soodabeh Hassanpour,Han-Jun Kim,Arezoo Saadati,Peyton Tebon,Chengbin Xue,Floor W. Dolder,Jai Thakor,Behzad Baradaran,Jafar Mosafer,Amir Baghbanzadeh,Natan Roberto Barros,Mahmoud Hashemzaei,Kang?Ju Lee,Junmin Lee,Shiming Zhang,Wujin Sun,Hyun-Jong Cho,Samad Ahadian,Nureddin Ashammakhi,Mehmet R. Dokmeci,Ahad Mokhtarzadeh,Ali Khademhosseini
Small.2020;16(40)2001647
[DOI]
207Thrombolytic Agents: Nanocarriers in Controlled Release
Bessi Qorri,Alexandria DeCarlo,Matthew Mellon,Myron R. Szewczuk
Small.2021;16(40)423
[DOI]
208Biodegradable and biocompatible spherical dendrimer nanoparticles with a gallic acid shell and a double-acting strong antioxidant activity as potential device to fight diseases from “oxidative stress”
Silvana Alfei,Silvia Catena,Federica Turrini
Drug Delivery and Translational Research.2020;10(1)259
[DOI]
209Smart triblock dendritic unimolecular micelles as pioneering nanomaterials: Advancement pertaining to architecture and biomedical applications
Prajakta Tambe,Pramod Kumar,Kishore M. Paknikar,Virendra Gajbhiye
Journal of Controlled Release.2019;299(1)64
[DOI]
210Analyzing PEGylation through Molecular Dynamics Simulations
Sérgio F. Sousa,Joana Peres,Manuel Coelho,Tatiana F. Vieira
ChemistrySelect.2018;3(29)8415
[DOI]
211Thrombolysis Enhancing by Magnetic Manipulation of Fe3O4 Nanoparticles
Qian Li,Xiaojun Liu,Ming Chang,Zhen Lu
Materials.2018;11(11)2313
[DOI]
212Enhancing Breast Cancer Treatment Using a Combination of Cannabidiol and Gold Nanoparticles for Photodynamic Therapy
Dimakatso R. Mokoena,Blassan P. George,Heidi Abrahamse
International Journal of Molecular Sciences.2019;20(19)4771
[DOI]
213Influence of thermal treatment and aging time on the stability and swelling properties of nano/micron-sized polymeric spheres for improved oil recovery application
Gustavo Rosero,Carol M. Olmos,Ana Peñaherrera,Andrea Vaca,Karla Vizuete,Alexis Debut,Luis Cumbal,Diana Masiero,Maria I. Hernandez,Carlos Lasorsa,Maximiliano S. Pérez,Betiana Lerner
Journal of Applied Polymer Science.2019;136(41)48030
[DOI]
214Dendritic peptide-conjugated polymeric nanovectors for non-toxic delivery of plasmid DNA and enhanced non-viral transfection of immune cells
Sijia Yi,Sun-Young Kim,Michael P. Vincent,Simseok A. Yuk,Sharan Bobbala,Fanfan Du,Evan Alexander Scott
iScience.2022;25(7)104555
[DOI]
215Functionalized materials for multistage platforms in the oral delivery of biopharmaceuticals
Francisca Araújo,José das Neves,João Pedro Martins,Pedro L. Granja,Hélder A. Santos,Bruno Sarmento
Progress in Materials Science.2017;89(7)306
[DOI]
216Increased Valency Improves Inhibitory Activity of Peptides Targeting Proprotein Convertase Subtilisin/Kexin Type 9 (PCSK9)
Benjamin J. Tombling,Carmen Lammi,Carlotta Bollati,Anna Anoldi,David J. Craik,Conan K. Wang
ChemBioChem.2021;22(12)2154
[DOI]
217Parameters Influencing Gene Delivery Efficiency of PEGylated Chitosan Nanoparticles: Experimental and Modeling Approach
Nihal Olcay Dogan,Ugur Bozuyuk,Pelin Erkoc,Alp Can Karacakol,Ahmet Cingoz,Fidan Seker-Polat,Muhammad Anwaar Nazeer,Metin Sitti,Tugba Bagci-Onder,Seda Kizilel
Advanced NanoBiomed Research.2022;2(1)2100033
[DOI]
218Screening of the structural, topological, and electronic properties of the functionalized Graphene nanosheets as potential Tegafur anticancer drug carriers using DFT method
Mahnaz Shahabi,Heidar Raissi
Journal of Biomolecular Structure and Dynamics.2018;36(10)2517
[DOI]
219Dendrimers toward Translational Nanotherapeutics: Concise Key Step Analysis
Serge Mignani,Xiangyang Shi,João Rodrigues,René Roy,Ángeles Muñoz-Fernández,Valentin Ceña,Jean-Pierre Majoral
Bioconjugate Chemistry.2020;31(9)2060
[DOI]
220Size and Structure of Empty and Filled Nanocontainer Based on Peptide Dendrimer with Histidine Spacers at Different pH
Valeriy V. Bezrodnyi,Sofia E. Mikhtaniuk,Oleg V. Shavykin,Igor M. Neelov,Nadezhda N. Sheveleva,Denis A. Markelov
Molecules.2021;26(21)6552
[DOI]
221Size and Structure of Empty and Filled Nanocontainer Based on Peptide Dendrimer with Histidine Spacers at Different pH
Shweta Sinha,Rakesh Sehgal
Molecules.2022;26(21)395
[DOI]
222Peptide-Decorated Dendrimers and Their Bioapplications
Jingjing Wan,Paul F. Alewood
Angewandte Chemie International Edition.2016;55(17)5124
[DOI]
223Aptamer-targeted delivery of Bcl-xL shRNA using alkyl modified PAMAM dendrimers into lung cancer cells
Sara Ayatollahi,Zahra Salmasi,Maryam Hashemi,Saeedeh Askarian,Reza Kazemi Oskuee,Khalil Abnous,Mohammad Ramezani
The International Journal of Biochemistry & Cell Biology.2017;92(17)210
[DOI]
224Polymer nanocarriers for MicroRNA delivery
Chintan H. Kapadia,Benjamin Luo,Megan N. Dang,N'Dea Irvin-Choy,Danielle M. Valcourt,Emily S. Day
Journal of Applied Polymer Science.2020;137(25)48651
[DOI]
225Ultrafast Electrochemical Trigger Drug Delivery Mechanism for Nanographene Micromachines
Bahareh Khezri,Seyyed Mohsen Beladi Mousavi,Ludmila Krejcová,Zbynek Heger,Zdenek Sofer,Martin Pumera
Advanced Functional Materials.2019;29(4)1806696
[DOI]
226Recoverable Bismuth-Based Microrobots: Capture, Transport, and On-Demand Release of Heavy Metals and an Anticancer Drug in Confined Spaces
Seyyed Mohsen Beladi-Mousavi,Bahareh Khezri,Ludmila Krejcová,Zbynek Heger,Zdenek Sofer,Adrian C. Fisher,Martin Pumera
ACS Applied Materials & Interfaces.2019;11(14)13359
[DOI]
227Polyester-Based Dendrimer Nanoparticles Combined with Etoposide Have an Improved Cytotoxic and Pro-Oxidant Effect on Human Neuroblastoma Cells
Silvana Alfei,Barbara Marengo,Cinzia Domenicotti
Antioxidants.2020;9(1)50
[DOI]
228Dendrimers in the context of nanomedicine
Ana Paula Dias,Soraya da Silva Santos,João Vitor da Silva,Roberto Parise-Filho,Elizabeth Igne Ferreira,Omar El Seoud,Jeanine Giarolla
International Journal of Pharmaceutics.2020;573(1)118814
[DOI]
229Stimuli-Responsive Polymeric Nanoplatforms for Cancer Therapy
Di Chang,Yuanyuan Ma,Xiaoxuan Xu,Jinbing Xie,Shenghong Ju
Frontiers in Bioengineering and Biotechnology.2021;9(1)118814
[DOI]
230Multifunctional hyaluronate – nanoparticle hybrid systems for diagnostic, therapeutic and theranostic applications
Hyemin Kim,Yoonsang Park,Molly M. Stevens,Woosung Kwon,Sei Kwang Hahn
Journal of Controlled Release.2019;303(1)55
[DOI]
231Nanomedicine Revisited: Next Generation Therapies for Brain Cancer
Adip G. Bhargav,Sujan K. Mondal,Cesar A. Garcia,Jordan J. Green,Alfredo Quiñones-Hinojosa
Advanced Therapeutics.2020;3(10)2000118
[DOI]
232Formulation, optimization, and in vitro characterization of omega-3-rich binary lipid carriers for curcumin delivery: in vitro evaluation of sustained release and its potential antioxidant behavior
Swathi Ganna,RajasekharaReddy Gutturu,Deva PrasadRaju Borelli,Kummara Madhusudana Rao,Koduru Mallikarjuna,John Sushma Nannepaga
Polymer Bulletin.2022;79(1)307
[DOI]
233Preparation of multifunctional cascade iron oxide nanoparticles for drug delivery
Joanna Kurczewska,Michal Ceglowski,Grzegorz Schroeder
Materials Chemistry and Physics.2018;211(1)34
[DOI]
234Comparison of Structure and Local Dynamics of Two Peptide Dendrimers with the Same Backbone but with Different Side Groups in Their Spacers
Sofia Mikhtaniuk,Valeriy Bezrodnyi,Oleg Shavykin,Igor Neelov,Nadezhda Sheveleva,Anastasia Penkova,Denis Markelov
Polymers.2020;12(8)1657
[DOI]
235Lenalidomide (LENA) Hybrid Gold Complex Nanoparticles: Synthesis, Physicochemical Evaluation, and Perspectives in Nanomedicine
Celia Arib,Jolanda Spadavecchia
ACS Omega.2020;5(44)28483
[DOI]
236Lenalidomide (LENA) Hybrid Gold Complex Nanoparticles: Synthesis, Physicochemical Evaluation, and Perspectives in Nanomedicine
Dalapathi Gugulothu,Dharmendra Kumar Khatri
ACS Omega.2022;5(44)129
[DOI]
237Water-soluble porphyrin-PAMAM-conjugates of melphalan and their anticancer activity
Julio César Ramírez-Arroniz,Elena Martínez Klimova,Luis Daniel Pedro-Hernández,Ulises Organista-Mateos,Sandra Cortez-Maya,Teresa Ramírez-Ápan,Antonio Nieto-Camacho,José Calderón-Pardo,Marcos Martínez-García
Drug Development and Industrial Pharmacy.2018;44(8)1342
[DOI]
238Biodegradable and Biocompatible Silatrane Polymers
Vladislav V. Istratov,Valerii A. Vasnev,Galy D. Markova
Molecules.2021;26(7)1893
[DOI]
239Biodegradable and Biocompatible Silatrane Polymers
Joydeep Biswas,Bandita Datta
Molecules.2022;26(7)49
[DOI]
240Biodegradable and Biocompatible Silatrane Polymers
Sugumari Vallinayagam,Karthikeyan Rajendran
Molecules.2021;26(7)339
[DOI]
241Biodegradable and Biocompatible Silatrane Polymers
Narsireddy Amreddy,Anish Babu,Anupama Munshi,Rajagopal Ramesh
Molecules.2020;48(7)245
[DOI]
242Biodegradable and Biocompatible Silatrane Polymers
Aikaterini Lalatsa,Diana M. Leite,Melina F. Figueiredo,Max O’Connor
Molecules.2018;48(7)111
[DOI]
243The influence of different charged poly (amido amine) dendrimer on the transport and deposition of bacteria in porous media
Lei He,Dan Wu,Meiping Tong
Water Research.2019;161(7)364
[DOI]
244Safe Polycationic Dendrimers as Potent Oral In Vivo Inhibitors of Mycobacterium tuberculosis: A New Therapy to Take Down Tuberculosis
Serge Mignani,Vishwa Deepak Tripathi,Dheerj Soam,Rama Pati Tripathi,Swetarka Das,Shriya Singh,Ramakrishna Gandikota,Regis Laurent,Andrii Karpus,Anne-Marie Caminade,Anke Steinmetz,Arunava Dasgupta,Kishore Kumar Srivastava,Jean-Pierre Majoral
Biomacromolecules.2021;22(6)2659
[DOI]
245Effect of Several HIV Antigens Simultaneously Loaded with G2-NN16 Carbosilane Dendrimer in the Cell Uptake and Functionality of Human Dendritic Cells
Daniel Sepúlveda-Crespo,Enrique Vacas-Córdoba,Valeria Márquez-Miranda,Ingrid Araya-Durán,Rafael Gómez,Francisco Javier de la Mata,Fernando Danilo González-Nilo,M Ángeles Muñoz-Fernández
Bioconjugate Chemistry.2016;27(12)2844
[DOI]
246Molecular dynamics simulation study of Glycine tip-functionalisation of single-walled carbon nanotubes as emerging nanovectors for the delivery of anticancer drugs
Zahra Ghadri,Heidar Raissi,Mahnaz Shahabi,Farzaneh Farzad
Molecular Simulation.2020;46(2)111
[DOI]
247Dendrimer nanoparticles for colorectal cancer applications
M. R. Carvalho,R. L. Reis,J. M. Oliveira
Journal of Materials Chemistry B.2020;8(6)1128
[DOI]
248From Diagnosis to Treatment
Christopher S. Digesu,Sophie C. Hofferberth,Mark W. Grinstaff,Yolonda L. Colson
Thoracic Surgery Clinics.2016;26(2)215
[DOI]
249Fetal Neuroprotective Strategies: Therapeutic Agents and Their Underlying Synaptic Pathways
Nada A. Elsayed,Theresa M. Boyer,Irina Burd
Frontiers in Synaptic Neuroscience.2021;13(2)215
[DOI]
250Solvent-Assisted [(Glycine)-(MP-SiO 2 NPs)] Aggregate for Drug Loading and Cancer Therapy
Chander Amgoth,Rompivalasa Santhosh,Tirupathi Malavath,Avinash Singh,Banavoth Murali,Guping Tang
ChemistrySelect.2020;5(27)8221
[DOI]
251Solvent-Assisted [(Glycine)-(MP-SiO 2 NPs)] Aggregate for Drug Loading and Cancer Therapy
Vadivel Siva,Chunchana Kuppe Renuka Prasad Ravikumar,Ponnusamy Thillai Arasu,Nagendra Nath Yadav,Arumugam Murugan,Hardeo Singh Yadav,Sultan Asath Bahadur,Saminathan Balamurali
ChemistrySelect.2021;5(27)53
[DOI]
252Dendrimers for ocular drug delivery
Michael G. Lancina,Hu Yang
Canadian Journal of Chemistry.2017;95(9)897
[DOI]
253Dendrimers for ocular drug delivery
Rahul Shukla,Aakriti Sethi,Mayank Handa,Mradul Mohan,Pushpendra K. Tripathi,Prashant Kesharwani
Canadian Journal of Chemistry.2020;95(9)163
[DOI]
254Dendrimers for ocular drug delivery
Mei Mei Tian,Reinhard Gabathuler
Canadian Journal of Chemistry.2021;157(9)119
[DOI]
255Evolutionary Timeline of Genetic Delivery and Gene Therapy
Natalie J. Holl,Han-Jung Lee,Yue-Wern Huang
Current Gene Therapy.2021;21(2)89
[DOI]
256Smart nanocarrier-based drug delivery systems for cancer therapy and toxicity studies: A review
Sarwar Hossen,M. Khalid Hossain,M.K. Basher,M.N.H. Mia,M.T. Rahman,M. Jalal Uddin
Journal of Advanced Research.2019;15(2)1
[DOI]
257Smart nanocarrier-based drug delivery systems for cancer therapy and toxicity studies: A review
Chitra Rajani,Pooja Borisa,Tukaram Karanwad,Yogeshwari Borade,Vruti Patel,Kuldeep Rajpoot,Rakesh K. Tekade
Journal of Advanced Research.2020;15(2)151
[DOI]
258Smart nanocarrier-based drug delivery systems for cancer therapy and toxicity studies: A review
Erik Laurini,Suzana Aulic,Domenico Marson,Maurizio Fermeglia,Sabrina Pricl
Journal of Advanced Research.2021;2282(2)209
[DOI]
259Newly isolated sporopollenin microcages from Cedrus libani and Pinus nigra as carrier for Oxaliplatin; xCELLigence RTCA-based release assay
Muhammad Mujtaba,Bahar Akyuz Yilmaz,Demet Cansaran-Duman,Lalehan Akyuz,Sevcan Yangin,Murat Kaya,Talip Çeter,Khalid Mahmood Khawar
Polymer Bulletin.2022;79(1)519
[DOI]
260Nucleic acid-based theranostics in type 1 diabetes
Bennett Francis Dwan,Anna Moore,Ping Wang
Translational Research.2019;214(1)50
[DOI]
261Nucleic acid-based theranostics in type 1 diabetes
Saher Islam,Devarajan Thangadurai,Charles Oluwaseun Adetunji,Olugbenga Samuel Michael,Wilson Nwankwo,Oseni Kadiri,Osikemekha Anthony Anani,Samuel Makinde,Juliana Bunmi Adetunji
Translational Research.2021;214(1)117
[DOI]
262Potential of Nanocarrier-Based Drug Delivery Systems for Brain Targeting: A Current Review of Literature
Badriyah Shadid Alotaibi,Manal Buabeid,Nihal Abdalla Ibrahim,Zelal Jaber Kharaba,Munazza Ijaz,Sobia Noreen,Ghulam Murtaza
International Journal of Nanomedicine.2021;Volume 16(1)7517
[DOI]
263Potential of Nanocarrier-Based Drug Delivery Systems for Brain Targeting: A Current Review of Literature
Jayvadan Patel,Anita Patel,Mukesh Patel,Govind Vyas
International Journal of Nanomedicine.2022;Volume 16(1)3
[DOI]
264Potential of Nanocarrier-Based Drug Delivery Systems for Brain Targeting: A Current Review of Literature
Rohini Kharwade,Nilesh M. Mahajan
International Journal of Nanomedicine.2022;Volume 16(1)291
[DOI]
265Gd3+-Asparagine-Anionic Linear Globular Dendrimer Second-Generation G2 Complexes: Novel Nanobiohybrid Theranostics
Nasim Hashempour Alamdari,Mahmood Alaei-Beirami,Seyed Ataollah Sadat Shandiz,Hadi Hejazinia,Rahimeh Rasouli,Mostafa Saffari,Seyed Esmaeil Sadat Ebrahimi,Artin Assadi,Mehdi Shafiee Ardestani
Contrast Media & Molecular Imaging.2017;2017(1)1
[DOI]
266Gd3+-Asparagine-Anionic Linear Globular Dendrimer Second-Generation G2 Complexes: Novel Nanobiohybrid Theranostics
Arunachalam Muthuraman,Narahari Rishitha,Seema Mehdi
Contrast Media & Molecular Imaging.2018;2017(1)529
[DOI]
267Blood Compatibility of Amphiphilic Phosphorous Dendrons—Prospective Drug Nanocarriers
Simon Suty,Veronika Oravczova,Zuzana Garaiova,Veronika Subjakova,Maksim Ionov,Dzmitry Shcharbin,Zuzana Simonikova,Peter Bartek,Milan Zvarik,Xiangyang Shi,Serge Mignani,Jean-Pierre Majoral,Maria Bryszewska,Tibor Hianik,Iveta Waczulikova
Biomedicines.2021;9(11)1672
[DOI]
268Polymeric and lipid-based drug delivery systems for treatment of glioblastoma multiforme
Ramesh Duwa,Fakhrossadat Emami,Sooyeun Lee,Jee-Heon Jeong,Simmyung Yook
Journal of Industrial and Engineering Chemistry.2019;79(11)261
[DOI]
269Synthesis, Internalization and Visualization of N-(4-Carbomethoxy) Pyrrolidone Terminated PAMAM [G5:G3-TREN] Tecto(dendrimers) in Mammalian Cells
Maciej Studzian,Paula Dzialak,Lukasz Pulaski,David M. Hedstrand,Donald A. Tomalia,Barbara Klajnert-Maculewicz
Molecules.2020;25(19)4406
[DOI]
270Neue Modalitäten für schwierige Zielstrukturen in der Wirkstoffentwicklung
Eric Valeur,Stéphanie M. Guéret,Hélène Adihou,Ranganath Gopalakrishnan,Malin Lemurell,Herbert Waldmann,Tom N. Grossmann,Alleyn T. Plowright
Angewandte Chemie.2017;129(35)10428
[DOI]
271Role of miRNAs in Cancer Diagnostics and Therapy: A Recent Update
Adil A. Sayyed,Piyush Gondaliya,Palak Bhat,Mukund Mali,Neha Arya,Amit Khairnar,Kiran Kalia
Current Pharmaceutical Design.2022;28(6)471
[DOI]
272Role of miRNAs in Cancer Diagnostics and Therapy: A Recent Update
Akhilesh K. Singh,Thakur P. Yadav,Brijesh Pandey,Vinay Gupta,Satarudra P. Singh
Current Pharmaceutical Design.2019;28(6)411
[DOI]
273Photochemical Internalization of Etoposide Using Dendrimer Nanospheres Loaded with Etoposide and Protoporphyrin IX on a Glioblastoma Cell Line
Martin Hsiu-Chu Lin,Li-Ching Chang,Chiu-Yen Chung,Wei-Chao Huang,Ming-Hsueh Lee,Kuo-Tai Chen,Ping-Shan Lai,Jen-Tsung Yang
Pharmaceutics.2021;13(11)1877
[DOI]
274Noyes-Whitney Dissolution Model-Based pH-Sensitive Slow Release of Paclitaxel (Taxol) from Human Hair-Derived Keratin Microparticle Carriers
V. W. Wimalasiri,S. P. Dunuweera,A. N. Dunuweera,R. M. G. Rajapakse,Victor Feitosa
BioMed Research International.2021;2021(11)1
[DOI]
275Targeting Tumour Metastasis: The Emerging Role of Nanotechnology
Sarah Visentin,Mirela Sedic,Sandra Kraljevic Pavelic,Krešimir Pavelic
Current Medicinal Chemistry.2020;27(8)1367
[DOI]
276Dendrimers: A versatile nanocarrier for drug delivery and targeting
Atul P. Sherje,Mrunal Jadhav,Bhushan R. Dravyakar,Darshana Kadam
International Journal of Pharmaceutics.2018;548(1)707
[DOI]
277Dendrimers: A versatile nanocarrier for drug delivery and targeting
Maryam Tabarzad,Fatemeh Ghorbani-Bidkorbeh,Tahereh Hosseinabadi
International Journal of Pharmaceutics.2021;548(1)417
[DOI]
278Therapeutic Potential of Foldamers: From Chemical Biology Tools To Drug Candidates?
Ranganath Gopalakrishnan,Andrey I. Frolov,Laurent Knerr,William J. Drury,Eric Valeur
Journal of Medicinal Chemistry.2016;59(21)9599
[DOI]
279Advances of nanosystems containing cyclodextrins and their applications in pharmaceuticals
Paula dos Passos Menezes,Tatianny de Araújo Andrade,Luiza Abrahão Frank,Eloísa Portugal Barros Silva Soares de Souza,Gabriela das Graças Gomes Trindade,Igor Araújo Santos Trindade,Mairim Russo Serafini,Sílvia Stanisçuaski Guterres,Adriano Antunes de Souza Araújo
International Journal of Pharmaceutics.2019;559(21)312
[DOI]
280Advances of nanosystems containing cyclodextrins and their applications in pharmaceuticals
Laura Crociani,Ludovica Ruggiero
International Journal of Pharmaceutics.2020;559(21)19
[DOI]
281Nanodelivery Systems Targeting Epidermal Growth Factor Receptors for Glioma Management
Sathishbabu Paranthaman,Meghana Goravinahalli Shivananjegowda,Manohar Mahadev,Afrasim Moin,Shivakumar Hagalavadi Nanjappa,Nandakumar Dalavaikodihalli Nanjaiyah,Saravana Babu Chidambaram,Devegowda Vishakante Gowda
Pharmaceutics.2020;12(12)1198
[DOI]
282Nanodelivery Systems Targeting Epidermal Growth Factor Receptors for Glioma Management
Ravi Goyal,Rupinder K. Sodhi,Jitender Madan
Pharmaceutics.2021;12(12)194
[DOI]
283Preparation of ellagic acid micro and nano formulations with amazingly increased water solubility by its entrapment in pectin or non-PAMAM dendrimers suitable for clinical applications
Silvana Alfei,Federica Turrini,Silvia Catena,Paola Zunin,Brunella Parodi,Guendalina Zuccari,Anna Maria Pittaluga,Raffaella Boggia
New Journal of Chemistry.2019;43(6)2438
[DOI]
284Preparation of ellagic acid micro and nano formulations with amazingly increased water solubility by its entrapment in pectin or non-PAMAM dendrimers suitable for clinical applications
Deepti Pandita,Aman Munjal,Sandeep Godara,Viney Lather
New Journal of Chemistry.2018;43(6)71
[DOI]
285Thermodynamic insights into interaction of protein coated gold nanoclusters with DNA and influence of coating on drug binding
Achal Mukhija,Nand Kishore
Journal of Molecular Liquids.2019;283(6)558
[DOI]
286Influence cationic and anionic PAMAM dendrimers of low generation on selected hemostatic parameters in vitro
Roza Aisina,Liliya Mukhametova,Elizaveta Ivanova
Materials Science and Engineering: C.2020;109(6)110605
[DOI]
287Drug/Vehicle Impacts and Formulation Centered Stratagems for Enhanced Transdermal Drug Permeation, Controlled Release and Safety: Unparalleled Past and Recent Innovations-An Overview
Balamurugan Manickam,Rajesh Sreedharan,Kumarappan Chidambaram
Current Drug Therapy.2019;14(3)192
[DOI]
288Drug/Vehicle Impacts and Formulation Centered Stratagems for Enhanced Transdermal Drug Permeation, Controlled Release and Safety: Unparalleled Past and Recent Innovations-An Overview
Saher Islam,Devarajan Thangadurai,Charles Oluwaseun Adetunji,Olugbenga Samuel Micheal,Wilson Nwankwo,Oseni Kadiri,Osikemekha Anthony Anani,Samuel Makinde,Juliana Bunmi Adetunji
Current Drug Therapy.2020;14(3)1
[DOI]
289Drug/Vehicle Impacts and Formulation Centered Stratagems for Enhanced Transdermal Drug Permeation, Controlled Release and Safety: Unparalleled Past and Recent Innovations-An Overview
Baranya Murugan
Current Drug Therapy.2021;14(3)193
[DOI]
290Multi-sensitive curcumin-loaded nanomicelle based on ABC-CBA block copolymer for sustained drug delivery
Marzieh Kazemi,Mohsen Ashjari,Masoomeh Nazarabi
Drug Development and Industrial Pharmacy.2021;47(4)552
[DOI]
291Emerging Applications of Nanotechnology in Healthcare Systems: Grand Challenges and Perspectives
Sumaira Anjum,Sara Ishaque,Hijab Fatima,Wajiha Farooq,Christophe Hano,Bilal Haider Abbasi,Iram Anjum
Pharmaceuticals.2021;14(8)707
[DOI]
292Recent Findings on Nanotechnology-based Therapeutic Strategies Against Hepatocellular Carcinoma
Hany A. Abdel Samie,Mohd Saeed,Syed Mohd Faisal,Mohd Adnan Kausar,Mohammad A. Kamal
Current Drug Metabolism.2019;20(4)283
[DOI]
293Gambogic acid: A shining natural compound to nanomedicine for cancer therapeutics
Elham Hatami,Meena Jaggi,Subhash C. Chauhan,Murali M. Yallapu
Biochimica et Biophysica Acta (BBA) - Reviews on Cancer.2020;1874(1)188381
[DOI]
294Gambogic acid: A shining natural compound to nanomedicine for cancer therapeutics
Sukhbir Singh,Neelam Sharma,Anil Bansal,Neha Kanojia,Sheshank Sethi,Jitender Madan,Rupinder Kaur Sodhi
Biochimica et Biophysica Acta (BBA) - Reviews on Cancer.2021;1874(1)153
[DOI]
295PEG-Citrate dendrimer second generation: is this a good carrier for imaging agents In Vitro and In Vivo ?
Pardis Mohammadzadeh,Mehdi Shafiee Ardestani,Sobhan Mortazavi-Derazkola,Ahmad Bitarafan-Rajabi,Seyedeh Masoumeh Ghoreishi
IET Nanobiotechnology.2019;13(6)560
[DOI]
296pH-labile and photochemically cross-linkable polymer vesicles from coumarin based random copolymer for cancer therapy
Pousali Samanta,Kausik Kapat,Saikat Maiti,Gargi Biswas,Santanu Dhara,Dibakar Dhara
Journal of Colloid and Interface Science.2019;555(6)132
[DOI]
297Nanostructures for drug delivery in respiratory diseases therapeutics: Revision of current trends and its comparative analysis
Luis Ángel Ibarra-Sánchez,Ana Gámez-Méndez,Manuel Martínez-Ruiz,Erik Francisco Nájera-Martínez,Brando Alan Morales-Flores,Elda M. Melchor-Martínez,Juan Eduardo Sosa-Hernández,Roberto Parra-Saldívar,Hafiz M.N. Iqbal
Journal of Drug Delivery Science and Technology.2022;70(6)103219
[DOI]
298Miniaturized SPME tips directly coupled to mass spectrometry for targeted determination and untargeted profiling of small samples
Tijana Vasiljevic,Varoon Singh,Janusz Pawliszyn
Talanta.2019;199(6)689
[DOI]
299Emerging therapeutic delivery capabilities and challenges utilizing enzyme/protein packaged bacterial vesicles
Nathan J Alves,Kendrick B Turner,Igor L Medintz,Scott A Walper
Therapeutic Delivery.2015;6(7)873
[DOI]
300Emerging therapeutic delivery capabilities and challenges utilizing enzyme/protein packaged bacterial vesicles
Tayo Alex Adekiya,Pierre P.D. Kondiah,Pradeep Kumar,Yahya E. Choonara
Therapeutic Delivery.2022;6(7)695
[DOI]
301Emerging therapeutic delivery capabilities and challenges utilizing enzyme/protein packaged bacterial vesicles
Hira Choudhury,Sreenivas Patro Sisinthy,Bapi Gorain,Prashant Kesharwani
Therapeutic Delivery.2021;6(7)1
[DOI]
302Preparation and Evaluation of Antimicrobial Hyperbranched Emulsifiers for Waterborne Coatings
Pei Zhao,Francesco Mecozzi,Stefan Wessel,Bram Fieten,Marianne Driesse,Willem Woudstra,Henk J. Busscher,Henny C. van der Mei,Ton J. A. Loontjens
Langmuir.2019;35(17)5779
[DOI]
303Preparation and Evaluation of Antimicrobial Hyperbranched Emulsifiers for Waterborne Coatings
Motahare-Sadat Hosseini,Issa Amjadi,Mohammad Mohajeri,M. Zubair Iqbal,Aiguo Wu,Masoud Mozafari
Langmuir.2019;35(17)1
[DOI]
304Pressurized DNA state inside herpes capsids—A novel antiviral target
Alberto Brandariz-Nuñez,Scott J. Robinson,Alex Evilevitch,Donna Neumann
PLOS Pathogens.2020;16(7)e1008604
[DOI]
305Nano based drug delivery systems: recent developments and future prospects
Jayanta Kumar Patra,Gitishree Das,Leonardo Fernandes Fraceto,Estefania Vangelie Ramos Campos,Maria del Pilar Rodriguez-Torres,Laura Susana Acosta-Torres,Luis Armando Diaz-Torres,Renato Grillo,Mallappa Kumara Swamy,Shivesh Sharma,Solomon Habtemariam,Han-Seung Shin
Journal of Nanobiotechnology.2018;16(1)e1008604
[DOI]
306Nano based drug delivery systems: recent developments and future prospects
P. Janhavi,J. Natasha,R. Neelam,P. V. Ravindra
Journal of Nanobiotechnology.2020;16(1)359
[DOI]
307Sugar-conjugated dendritic mesoporous silica nanoparticles as pH-responsive nanocarriers for tumor targeting and controlled release of deferasirox
Arezoo Sodagar Taleghani,Pedram Ebrahimnejad,Amir Heidarinasab,Azim Akbarzadeh
Materials Science and Engineering: C.2019;98(1)358
[DOI]
308Immunotoxicity Considerations for Next Generation Cancer Nanomedicines
Gary Hannon,Joanne Lysaght,Neill J. Liptrott,Adriele Prina-Mello
Advanced Science.2019;6(19)1900133
[DOI]
309Immunotoxicity Considerations for Next Generation Cancer Nanomedicines
Gulzhian I. Dzhardimalieva,Igor E. Uflyand
Advanced Science.2018;257(19)13
[DOI]
310Removal of heavy metals and organic pollutants from water using dendritic polymers based adsorbents: A critical review
Muhammad Sajid,Mazen Khaled Nazal,Mazen Khaled Ihsanullah,Nadeem Baig,Abdalghaffar Mohammad Osman
Separation and Purification Technology.2018;191(19)400
[DOI]
311Dendrimer-based strategies for cancer therapy: Recent advances and future perspectives
Zhijuan Xiong,Mingwu Shen,Xiangyang Shi
Science China Materials.2018;61(11)1387
[DOI]
312Three-Component Sequential Reactions for Polymeric Nanoparticles with Tailorable Core and Surface Functionalities
Bin Liu,S. Thayumanavan
Chem.2019;5(12)3166
[DOI]
313Applications and Limitations of Dendrimers in Biomedicine
Adriana Aurelia Chis,Carmen Dobrea,Claudiu Morgovan,Anca Maria Arseniu,Luca Liviu Rus,Anca Butuca,Anca Maria Juncan,Maria Totan,Andreea Loredana Vonica-Tincu,Gabriela Cormos,Andrei Catalin Muntean,Maria Lucia Muresan,Felicia Gabriela Gligor,Adina Frum
Molecules.2020;25(17)3982
[DOI]
314Vibrational spectroscopic study of cationic phosphorus dendrimers with aminoethylpiperidine terminal groups
V.L. Furer,A.E. Vandyukov,V. Tripathi,J.P. Majoral,A.M. Caminade,V.I. Kovalenko
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy.2018;194(17)211
[DOI]
315Cytotoxicity of Dendrimers
V.I. Janaszewska,V.I. Lazniewska,V.I. Trzepinski,V.I. Marcinkowska,V.I. Klajnert-Maculewicz
Biomolecules.2019;9(8)330
[DOI]
316Synthesis, Photophysical, Electrochemical Properties, DFT Studies and DSSC Performance of BODIPY Cored Triazole Bridged 3,6-Ditertiary Butyl Carbazole Decorated Dendrimers
Janakiraman Babu,Shanmugam Ganesan,Masiyappan Karuppusamy,Perumal Rajakumar
ChemistrySelect.2018;3(32)9222
[DOI]
317Synthesis, Photophysical, Electrochemical Properties, DFT Studies and DSSC Performance of BODIPY Cored Triazole Bridged 3,6-Ditertiary Butyl Carbazole Decorated Dendrimers
Nadun H. Madanayake,Ryan Rienzie,Nadeesh M. Adassooriya
ChemistrySelect.2019;3(32)19
[DOI]
318Trends in Nanomedicines for Cancer Treatment
Tatielle do Nascimento,Adriane R. Todeschini,Ralph Santos-Oliveira,Mariana S. de Souza de Bustamante Monteiro,Vilênia T. de Souza,Eduardo Ricci-Júnior
Current Pharmaceutical Design.2020;26(29)3579
[DOI]
319Trends in Nanomedicines for Cancer Treatment
Yousef Javadzadeh,Leila Azharshekoufeh Bahari
Current Pharmaceutical Design.2017;26(29)131
[DOI]
320Novel advances in targeted drug delivery
Kivilcim Öztürk-Atar,Hakan Eroglu,Sema Çalis
Journal of Drug Targeting.2018;26(8)633
[DOI]
321Cytotoxicity and in vivo plasma kinetic behavior of surface-functionalized PAMAM dendrimers
Carola Diaz,Carolina Benitez,Felipe Vidal,Luis F. Barraza,Verónica A. Jiménez,Leonardo Guzman,Jorge Fuentealba,Gonzalo E. Yevenes,Joel B. Alderete
Nanomedicine: Nanotechnology, Biology and Medicine.2018;14(7)2227
[DOI]
322Biocompatible Nanocarriers for Enhanced Cancer Photodynamic Therapy Applications
Sathish Sundar Dhilip Kumar,Heidi Abrahamse
Pharmaceutics.2021;13(11)1933
[DOI]
323Biocompatible Nanocarriers for Enhanced Cancer Photodynamic Therapy Applications
Prasoon Pandey,Neelam Balekar
Pharmaceutics.2018;13(11)117
[DOI]
324Biocompatible Nanocarriers for Enhanced Cancer Photodynamic Therapy Applications
Narsireddy Amreddy,Anish Babu,Ranganayaki Muralidharan,Janani Panneerselvam,Akhil Srivastava,Rebaz Ahmed,Meghna Mehta,Anupama Munshi,Rajagopal Ramesh
Pharmaceutics.2018;137(11)115
[DOI]
325Significant perspectives on various viral infections targeted antiviral drugs and vaccines including COVID-19 pandemicity
Gandarvakottai Senthilkumar Arumugam,Kannan Damodharan,Mukesh Doble,Sathiah Thennarasu
Molecular Biomedicine.2022;3(1)115
[DOI]
326A comparative study between two models of active cluster crystals
Lorenzo Caprini,Emilio Hernández-García,Cristóbal López,Umberto Marini Bettolo Marconi
Scientific Reports.2019;9(1)115
[DOI]
327Exploring dendrimer-based drug delivery systems and their potential applications in cancer immunotherapy
Shreyas Mukherjee,Samrat Mukherjee,Mohammed A.S. Abourehab,Amirhossein Sahebkar,Prashant Kesharwani
European Polymer Journal.2022;177(1)111471
[DOI]
328Dendrimers as Nanocarriers for Nucleic Acid and Drug Delivery in Cancer Therapy
Livia Palmerston Mendes,Jiayi Pan,Vladimir Torchilin
Molecules.2017;22(9)1401
[DOI]
329Recent Advances in Polymeric Nanoparticle-Encapsulated Drugs against Intracellular Infections
Arturo Sánchez,Susana P. Mejía,Jahir Orozco
Molecules.2020;25(16)3760
[DOI]
330Recent Advances in Polymeric Nanoparticle-Encapsulated Drugs against Intracellular Infections
Rebaz Ahmed,Narsireddy Amreddy,Anish Babu,Anupama Munshi,Rajagopal Ramesh
Molecules.2019;1974(16)265
[DOI]
331The role of terminal groups in dendrimer systems for the treatment of organic contaminants in aqueous environments
Ye-Lim Han,So-Yeon Kim,Taejin Kim,Ki-Hyun Kim,Jae-Woo Park
Journal of Cleaner Production.2020;250(16)119494
[DOI]
332Interactions between PAMAM dendrimers and DOPC lipid multilayers: Membrane thinning and structural disorder
Laura J. Fox,Anna Slastanova,Nicolas Taylor,Magdalena Wlodek,Oier Bikondoa,Robert M. Richardson,Wuge H. Briscoe
Biochimica et Biophysica Acta (BBA) - General Subjects.2021;1865(4)129542
[DOI]
333Oral Bioavailability: Issues and Solutions via Nanoformulations
Kamla Pathak,Smita Raghuvanshi
Clinical Pharmacokinetics.2015;54(4)325
[DOI]
334Drug-dendrimer complexes and conjugates: Detailed furtherance through theory and experiments
Rohit Y. Sathe,Prasad V. Bharatam
Advances in Colloid and Interface Science.2022;303(4)102639
[DOI]
335Polymer-drug conjugates: Design principles, emerging synthetic strategies and clinical overview
Ankit Javia,Jigar Vanza,Denish Bardoliwala,Saikat Ghosh,Late Ambikanandan Misra,Mrunali Patel,Hetal Thakkar
International Journal of Pharmaceutics.2022;623(4)121863
[DOI]
336Polymer-drug conjugates: Design principles, emerging synthetic strategies and clinical overview
Pallabi Banerjee,Imteyaz Qamar
International Journal of Pharmaceutics.2022;623(4)345
[DOI]
337Polymer-drug conjugates: Design principles, emerging synthetic strategies and clinical overview
Dhruv Kumar,Neelam Sharma-Walia,Sonia Kapoor,Simran Tandon
International Journal of Pharmaceutics.2020;623(4)35
[DOI]
338Polymer-drug conjugates: Design principles, emerging synthetic strategies and clinical overview
Flavia Fontana,Nazanin Zanjanizadeh Ezazi,Nayab Tahir,Helder A. Santos
International Journal of Pharmaceutics.2021;623(4)207
[DOI]
339Synthesis and Evaluation of 177Lu-DOTA-DN(PTX)-BN for Selective and Concomitant Radio and Drug—Therapeutic Effect on Breast Cancer Cells
Brenda Gibbens-Bandala,Enrique Morales-Avila,Guillermina Ferro-Flores,Clara Santos-Cuevas,Myrna Luna-Gutiérrez,Gerardo Ramírez-Nava,Blanca Ocampo-García
Polymers.2019;11(10)1572
[DOI]
340Covalent and noncovalent films made up of sulfonimide-based dendrimers
Julia Bondareva,Sergey Luchkin,Sarkis Dagesyan,Alexander Egorov,Stanislav Evlashin,Oleg Lukin
Applied Surface Science.2021;535(10)146345
[DOI]
341Understanding the Pharmaceutical Aspects of Dendrimers for the Delivery of Anticancer Drugs
Sunil Kumar Dubey,Shubham Salunkhe,Mukta Agrawal,Maithili Kali,Gautam Singhvi,Sanjay Tiwari,Swarnlata Saraf,Shailendra Saraf,Amit Alexander
Current Drug Targets.2020;21(6)528
[DOI]
342Hydrophilic and amphiphilic water-soluble dendrimer prodrugs suitable for parenteral administration of a non-soluble non-nucleoside HIV-1 reverse transcriptase inhibitor thiocarbamate derivative
Silvana Alfei,Silvia Catena,Marco Ponassi,Camillo Rosano,Vittoria Zoppi,Andrea Spallarossa
European Journal of Pharmaceutical Sciences.2018;124(6)153
[DOI]
343Polyamidoamine dendrimer–digoxin impregnated PVC film in the fingerprint detection of herbs’ essential oil coupled to gas chromatography–mass spectrometry
Eskandar Moghimipour,Zahra Ramezani,Somayeh Handali,Ahmad Babapoor
Journal of the Iranian Chemical Society.2020;17(10)2545
[DOI]
344Simultaneous removal of pollutants from sub-nanometric to nanometric scales by hierarchical dendrimers modified aerogels
Zhichao He,Fan Wu,Li Liu,Xin Song,Shengjie Guan,Zhonghua Li,Jun Li,Yudong Huang
Separation and Purification Technology.2022;286(10)120440
[DOI]
345Peptide-Based Multicomponent Oligonucleotide Delivery Systems: Optimisation of Poly-l-lysine Dendrons for Plasmid DNA Delivery
Khairul A. Kamaruzaman,Peter M. Moyle,Istvan Toth
International Journal of Peptide Research and Therapeutics.2017;23(1)119
[DOI]
346

PAMAM Dendrimer Nanomolecules Utilized as Drug Delivery Systems for Potential Treatment of Glioblastoma: A Systematic Review

Michael Fana,John Gallien,Bhairavi Srinageshwar,Gary L. Dunbar,Julien Rossignol
International Journal of Nanomedicine.2020;Volume 15(1)2789
[DOI]
347Dendrimer-based drug delivery systems: history, challenges, and latest developments
Juan Wang,Boxuan Li,Li Qiu,Xin Qiao,Hu Yang
Journal of Biological Engineering.2022;16(1)2789
[DOI]
348Therapeutic Role and Drug Delivery Potential of Neuroinflammation as a Target in Neurodegenerative Disorders
Abhijeet Singh,Ankit Chokriwal,Madan Mohan Sharma,Devendra Jain,Juhi Saxena,Bjorn John Stephen
ACS Chemical Neuroscience.2017;8(8)1645
[DOI]
349Chiral Recognition of Homochiral Poly (amidoamine) Dendrimers Substituted with R- and S-Glycidol by Keratinocyte (HaCaT) and Squamous Carcinoma (SCC-15) Cells In Vitro
Malgorzata Malinga-Drozd,Lukasz Uram,Konrad Wróbel,Stanislaw Wolowiec
Polymers.2021;13(7)1049
[DOI]
350Considerable Improvement of Ursolic Acid Water Solubility by Its Encapsulation in Dendrimer Nanoparticles: Design, Synthesis and Physicochemical Characterization
Silvana Alfei,Anna Maria Schito,Guendalina Zuccari
Nanomaterials.2021;11(9)2196
[DOI]
351Stabilization of polypropylene-based materials via molecular retention with hyperbranched polymer
Akanksha Matta,Ikki Katada,Junji Kawazoe,Patchanee Chammingkwan,Minoru Terano,Toshiaki Taniike
Polymer Degradation and Stability.2017;142(9)50
[DOI]
352Graft hyper-branched dendrimer onto WS2 nanosheets modified Poly (N-Vinylcaprolactam) as a thermosensitive nanocarrier for Pioglitazone delivery using near-infrared radiation
Mohadeseh Sobhani,Alireza Zieglari,Elham Moniri,Homayon Ahmad Panahi,Maryam Daghighi Asli
International Journal of Pharmaceutics.2021;607(9)120985
[DOI]
353Green surfactant-dendrimer aggreplexes: An ingenious way to launch dual attack on arch-enemy cancer
Nilesh Malavia,Rohan Ghadi,Kaushik Kuche,Tushar Date,Nallamothu Bhargavi,Dasharath Chaudhari,Rajan Swami,Parmeshwar B. Katare,Sanjay K. Banerjee,Sanyog Jain
Colloids and Surfaces B: Biointerfaces.2021;204(9)111821
[DOI]
354In Vitro Carcinoma Treatment Using Magnetic Nanocarriers under Ultrasound and Magnetic Fields
Somoshree Sengupta,Chandra Khatua,Vamsi K. Balla
ACS Omega.2018;3(5)5459
[DOI]
355Dendrimer assisted dye-removal: A critical review of adsorption and catalytic degradation for wastewater treatment
Muhammad B. Wazir,Muhammad Daud,Faheem Ali,Mamdouh A. Al-Harthi
Journal of Molecular Liquids.2020;315(5)113775
[DOI]
356Alternative approaches for the treatment of airway diseases: focus on nanoparticle medicine
E. Ratemi,A. Sultana Shaik,A. Al Faraj,R. Halwani
Clinical & Experimental Allergy.2016;46(8)1033
[DOI]
357Pyrrolidone Modification Prevents PAMAM Dendrimers from Activation of Pro-Inflammatory Signaling Pathways in Human Monocytes
Anna Janaszewska,Michal Gorzkiewicz,Mario Ficker,Johannes Fabritius Petersen,Valentina Paolucci,Jørn Bolstad Christensen,Barbara Klajnert-Maculewicz
Molecular Pharmaceutics.2018;15(1)12
[DOI]
358Drug Delivery of Natural Products Through Nanocarriers for Effective Breast Cancer Therapy: A Comprehensive Review of Literature
Kah Min Yap,Mahendran Sekar,Shivkanya Fuloria,Yuan Seng Wu,Siew Hua Gan,Nur Najihah Izzati Mat Rani,Vetriselvan Subramaniyan,Chandrakant Kokare,Pei Teng Lum,M Yasmin Begum,Shankar Mani,Dhanalekshmi Unnikrishnan Meenakshi,Kathiresan V Sathasivam,Neeraj Kumar Fuloria
International Journal of Nanomedicine.2021;Volume 16(1)7891
[DOI]
359IL-6 Antibody and RGD Peptide Conjugated Poly(amidoamine) Dendrimer for Targeted Drug Delivery of HeLa Cells
Shewaye Lakew Mekuria,Tilahun Ayane Debele,Hsiao-Ying Chou,Hsieh-Chih Tsai
The Journal of Physical Chemistry B.2016;120(1)123
[DOI]
360IL-6 Antibody and RGD Peptide Conjugated Poly(amidoamine) Dendrimer for Targeted Drug Delivery of HeLa Cells
Elena Popova,Dilorom Khamidova,Igor Neelov,Faizali Komilov
The Journal of Physical Chemistry B.2018;120(1)123
[DOI]
361Chemo-biologic combinatorial drug delivery using folate receptor-targeted dendrimer nanoparticles for lung cancer treatment
Narsireddy Amreddy,Anish Babu,Janani Panneerselvam,Akhil Srivastava,Ranganayaki Muralidharan,Allshine Chen,Yan D. Zhao,Anupama Munshi,Rajagopal Ramesh
Nanomedicine: Nanotechnology, Biology and Medicine.2018;14(2)373
[DOI]
362Insight into pulmonary drug delivery: Mechanism of drug deposition to device characterization and regulatory requirements
Nagarjun Rangaraj,Sravanthi Reddy Pailla,Sunitha Sampathi
Pulmonary Pharmacology & Therapeutics.2019;54(2)1
[DOI]
363Insight into pulmonary drug delivery: Mechanism of drug deposition to device characterization and regulatory requirements
Maha Nasr,Enas Elmowafy,Mahmoud Eid Soliman
Pulmonary Pharmacology & Therapeutics.2019;54(2)217
[DOI]
364Nanocarriers based delivery of nutraceuticals for cancer prevention and treatment: A review of recent research developments
Divya Arora,Sundeep Jaglan
Trends in Food Science & Technology.2016;54(2)114
[DOI]
365Star nanoparticles delivering HIV-1 peptide minimal immunogens elicit near-native envelope antibody responses in nonhuman primates
Joseph R. Francica,Richard Laga,Geoffrey M. Lynn,Gabriela Mužíková,Ladislav Androvic,Baptiste Aussedat,William E. Walkowicz,Kartika Padhan,Ramiro Andrei Ramirez-Valdez,Robert Parks,Stephen D. Schmidt,Barbara J. Flynn,Yaroslav Tsybovsky,Guillaume B. E. Stewart-Jones,Kevin O. Saunders,Faezzah Baharom,Constantinos Petrovas,Barton F. Haynes,Robert A. Seder,James J. Moon
PLOS Biology.2019;17(6)e3000328
[DOI]
366Recent developments in the use of organic–inorganic nanohybrids for drug delivery
Danushika C. Manatunga,V. Umayangana Godakanda,Rohini M. Silva,K. M. Nalin Silva
WIREs Nanomedicine and Nanobiotechnology.2020;12(3)e3000328
[DOI]
367Graphene Oxide/ZnS:Mn Nanocomposite Functionalized with Folic Acid as a Nontoxic and Effective Theranostic Platform for Breast Cancer Treatment
Daysi Diaz-Diestra,Bibek Thapa,Dayra Badillo-Diaz,Juan Beltran-Huarac,Gerardo Morell,Brad Weiner
Nanomaterials.2018;8(7)484
[DOI]
368A Review on Solubility Enhancement of Carvedilol—a BCS Class II Drug
Gasper J. Fernandes,Lalit Kumar,Kartik Sharma,Rupa Tunge,Mahalaxmi Rathnanand
Journal of Pharmaceutical Innovation.2018;13(3)197
[DOI]
369Receptor specific, stimuli responsive and subcellular targeted approaches for effective therapy of Alzheimer: Role of surface engineered nanocarriers
Divya Gopalan,Abhijeet Pandey,Nayanabhirama Udupa,Srinivas Mutalik
Journal of Controlled Release.2020;319(3)183
[DOI]
370Carbon Nanotube as a Tool for Fighting Cancer
Edson José Comparetti,Valber de Albuquerque Pedrosa,Ramon Kaneno
Bioconjugate Chemistry.2018;29(3)709
[DOI]
371Carbon Nanotube as a Tool for Fighting Cancer
Chandramani Pathak,Foram U. Vaidya,Shashibhal M. Pandey
Bioconjugate Chemistry.2019;29(3)35
[DOI]
372Combinational drug delivery using nanocarriers for breast cancer treatments: A review
Nafise Olov,Shadab Bagheri-Khoulenjani,Hamid Mirzadeh
Journal of Biomedical Materials Research Part A.2018;106(8)2272
[DOI]
373Combinational drug delivery using nanocarriers for breast cancer treatments: A review
Trisha Bhatt,Bhoomika M. Patel,Mayur M. Patel
Journal of Biomedical Materials Research Part A.2021;106(8)491
[DOI]
374Interactions between microbiome and lungs: Paving new paths for microbiome based bio-engineered drug delivery systems in chronic respiratory diseases
Dinesh Kumar Chellappan,Quinnie Ling Sze Ning,Sandra Khoo Su Min,Saw Yan Bin,Pang Jia Chern,Tan Pei Shi,Sylvia Wong Ee Mei,Tan Hui Yee,Ong Jing Qi,Lakshmi Thangavelu,S. Rajeshkumar,Poonam Negi,Jestin Chellian,Ridhima Wadhwa,Gaurav Gupta,Trudi Collet,Philip M. Hansbro,Kamal Dua
Chemico-Biological Interactions.2019;310(8)108732
[DOI]
375Interactions between microbiome and lungs: Paving new paths for microbiome based bio-engineered drug delivery systems in chronic respiratory diseases
Abhishek Arya,Hafsa Ahmad,Kiran Khandelwal,Satish Agrawal,Anil Kumar Dwivedi
Chemico-Biological Interactions.2019;310(8)185
[DOI]
376Designing Dendrimer and Miktoarm Polymer Based Multi-Tasking Nanocarriers for Efficient Medical Therapy
Anjali Sharma,Ashok Kakkar
Molecules.2015;20(9)16987
[DOI]
377Designing Dendrimer and Miktoarm Polymer Based Multi-Tasking Nanocarriers for Efficient Medical Therapy
Chockaiyan Usha,Pandi Sakthieaswari,Parameswaran Kiruthika Lakshmi
Molecules.2021;20(9)133
[DOI]
378Delivery strategies for CRISPR/Cas genome editing tool for retinal dystrophies: challenges and opportunities
Aayushi Lohia,Deepak Kumar Sahel,Mohd Salman,Vivek Singh,Indumathi Mariappan,Anupama Mittal,Deepak Chitkara
Asian Journal of Pharmaceutical Sciences.2022;17(2)153
[DOI]
379Doxorubicin and Imatinib co-drug delivery using non-covalently functionalized carbon nanotube: Molecular dynamics study
Abdolhalim Torrik,Shamim Zaerin,Mahdi Zarif
Journal of Molecular Liquids.2022;362(2)119789
[DOI]
380Combination of ovalbumin-coated iron oxide nanoparticles and poly(amidoamine) dendrimer-cisplatin nanocomplex for enhanced anticancer efficacy
Tefera Worku Mekonnen,Haile Fentahun Darge,Hsieh-Chih Tsai,Yihenew Simegniew Birhan,Endiries Yibru Hanurry,Hailemichael Tegenu Gebrie,Hsiao-Ying Chou,Juin-Yih Lai,Shinn-Zong Lin,Horng-Jyh Harn,Yu-Shuan Chen
Colloids and Surfaces B: Biointerfaces.2022;213(2)112391
[DOI]
381Nanocarrier-hydrogel composite delivery systems for precision drug release
Lauren E. Kass,Juliane Nguyen
WIREs Nanomedicine and Nanobiotechnology.2022;14(2)112391
[DOI]
382Multifunctional nanoparticles: recent progress in cancer therapeutics
G. Seeta Rama Raju,Leah Benton,E. Pavitra,Jae Su Yu
Chemical Communications.2015;51(68)13248
[DOI]
383Fast Dissolving Dendrimer Nanofiber Mats as Alternative to Eye Drops for More Efficient Antiglaucoma Drug Delivery
Michael G. Lancina,Sudha Singh,Uday B. Kompella,Shahid Husain,Hu Yang
ACS Biomaterials Science & Engineering.2017;3(8)1861
[DOI]
  Feedback 
  Subscribe 
  Advertise 

Submit articles
Most popular articles
Joiu us as a reviewer
Email alerts
Recommend this journal