Journal of Advanced Pharmaceutical Technology & Research : Table of Contents

Users Online: 123

Article Cited by others

REVIEW ARTICLE

Niosome: A future of targeted drug delivery systems

Karim Kazi Masud, Mandal Asim Sattwa, Biswas Nikhil, Guha Arijit, Chatterjee Sugata, Behera Mamata, Kuotsu Ketousetuo

Year : 2010| Volume: 1| Issue : 4 | Page no: 374-380

This article has been cited by

1	Proniosomes as a carrier system for transdermal delivery of clozapine

	Fahad Khan Tareen,Kifayat Ullah Shah,Naveed Ahmad,Naveed Asim.ur.Rehman,Shefaat Ullah Shah,Naseem Ullah

	Drug Development and Industrial Pharmacy. 2020; : 1

	[Pubmed] [Google Scholar] [DOI]

2	Niosomes for nose-to-brain delivery of bromocriptine: Formulation development, efficacy evaluation and toxicity profiling

	V.G. Sita,Dhananjay Jadhav,Pradeep Vavia

	Journal of Drug Delivery Science and Technology. 2020; 58: 101791

	[Pubmed] [Google Scholar] [DOI]

3	An Overview of Properties and Analytical Methods for Lycopene in Organic Nanocarriers

	Gabriela Corrêa Carvalho,Rafael Miguel Sábio,Marlus Chorilli

	Critical Reviews in Analytical Chemistry. 2020; : 1

	[Pubmed] [Google Scholar] [DOI]

4	Synthesis and Characterization of Sulfanilamide-Based Nonionic Surfactants and Evaluation of Their Nano-Vesicular Drug Loading Application

	Imdad Ali,Salim Saifullah,Babiker M. El-Haj,Heyam Saad Ali,Saira Yasmeen,Muhammad Imran,Jan Nisar,Muhammad Raza Shah

	Journal of Surfactants and Detergents. 2020;

	[Pubmed] [Google Scholar] [DOI]

5	Development of Provesicular Nanodelivery System of Curcumin as a Safe and Effective Antiviral Agent: Statistical Optimization, In Vitro Characterization, and Antiviral Effectiveness

	Farid A. Badria,Abdelaziz E. Abdelaziz,Amira H. Hassan,Abdullah A. Elgazar,Eman A. Mazyed

	Molecules. 2020; 25(23): 5668

	[Pubmed] [Google Scholar] [DOI]

6	Formulation optimization and in vitro characterization of rifampicin and ceftriaxone dual drug loaded niosomes with high energy probe sonication technique

	Daulat Haleem Khan,Sajid Bashir,Muhammad Imran Khan,Patrícia Figueiredo,Hélder A. Santos,Leena Peltonen

	Journal of Drug Delivery Science and Technology. 2020; : 101763

	[Pubmed] [Google Scholar] [DOI]

7	Topical Administration of Terpenes Encapsulated in Nanostructured Lipid-Based Systems

	Elwira Lason

	Molecules. 2020; 25(23): 5758

	[Pubmed] [Google Scholar] [DOI]

8	Niosome-based hydrogel as a potential drug delivery system for topical and transdermal applications

	Fiammetta Nigro,Cristal dos Santos Cerqueira Pinto,Elisabete Pereira dos Santos,Claudia Regina Elias Mansur

	International Journal of Polymeric Materials and Polymeric Biomaterials. 2020; : 1

	[Pubmed] [Google Scholar] [DOI]

9	Synthesis and biocompatibility of self-assembling multi-tailed resorcinarene-based supramolecular amphiphile

	Imdad Ali,Salim Saifullah,Muhammed Imran,Jan Nisar,Ibrahim Javed,Muhammad Raza Shah

	Colloid and Polymer Science. 2020;

	[Pubmed] [Google Scholar] [DOI]

10	Niosomes: A review on niosomal research in the last decade

	Peeyush Bhardwaj,Purnima Tripathi,Rishikesh Gupta,Sonia Pandey

	Journal of Drug Delivery Science and Technology. 2020; 56: 101581

	[Pubmed] [Google Scholar] [DOI]

11	Lipid-based nanoparticle technologies for liver targeting

	Roland Böttger,Griffin Pauli,Po-Han Chao,Nojoud Al-Fayez,Lukas Hohenwarter,Shyh-Dar Li

	Advanced Drug Delivery Reviews. 2020;

	[Pubmed] [Google Scholar] [DOI]

12	Curcumin Loaded in Niosomal Nanoparticles Improved the Anti-tumor Effects of Free Curcumin on Glioblastoma Stem-like Cells: an In Vitro Study

	Sajad Sahab-Negah,Fatemeh Ariakia,Mohammad Jalili-Nik,Amir R. Afshari,Sahar Salehi,Fariborz Samini,Ghadir Rajabzadeh,Ali Gorji

	Molecular Neurobiology. 2020;

	[Pubmed] [Google Scholar] [DOI]

13	A new formulation of hydrophobin-coated niosome as a drug carrier to cancer cells

	Mahmood Barani,Mohammad Mirzaei,Masoud Torkzadeh-Mahani,Azadeh Lohrasbi-Nejad,Mohammad Hadi Nematollahi

	Materials Science and Engineering: C. 2020; : 110975

	[Pubmed] [Google Scholar] [DOI]

14	Formulation of Nanospanlastics as a Promising Approach for ?Improving the Topical Delivery of a Natural Leukotriene Inhibitor (3-?Acetyl-11-Keto-ß-Boswellic Acid): Statistical Optimization, in vitro ?Characterization, and ex vivo Permeation Study

	Farid Badria,Eman Mazyed

	Drug Design, Development and Therapy. 2020; Volume 14: 3697

	[Pubmed] [Google Scholar] [DOI]

15	Emerging Nanopharmaceuticals and Nanonutraceuticals in Cancer Management

	Lavinia Salama,Elizabeth R. Pastor,Tyler Stone,Shaker A. Mousa

	Biomedicines. 2020; 8(9): 347

	[Pubmed] [Google Scholar] [DOI]

16	The Challenge of Nanovesicles for Selective Topical Delivery for Acne Treatment: Enhancing Absorption Whilst Avoiding Toxicity

	Antonia Mancuso,Maria Chiara Cristiano,Massimo Fresta,Donatella Paolino

	International Journal of Nanomedicine. 2020; Volume 15: 9197

	[Pubmed] [Google Scholar] [DOI]

17	New Insights on Unique Features and Role of Nanostructured Materials in Cosmetics

	Muhammad Bilal,Hafiz M. N. Iqbal

	Cosmetics. 2020; 7(2): 24

	[Pubmed] [Google Scholar] [DOI]

18	Nanomaterials for Skin Delivery of Cosmeceuticals and Pharmaceuticals

	Eliana B. Souto,Ana Rita Fernandes,Carlos Martins-Gomes,Tiago E. Coutinho,Alessandra Durazzo,Massimo Lucarini,Selma B. Souto,Amélia M. Silva,Antonello Santini

	Applied Sciences. 2020; 10(5): 1594

	[Pubmed] [Google Scholar] [DOI]

19	Letrozole-loaded nonionic surfactant vesicles prepared via a slurry-based proniosome technology: Formulation development and characterization

	Nada Khudair,Abdelali Agouni,Mohamed A. Elrayess,Mohammad Najlah,Husam M. Younes,Abdelbary Elhissi

	Journal of Drug Delivery Science and Technology. 2020; : 101721

	[Pubmed] [Google Scholar] [DOI]

20	Nanomedicine Approaches to Negotiate Local Biobarriers for Topical Drug Delivery

	Salman Ahmad Mustfa,Eleonora Maurizi,John McGrath,Ciro Chiappini

	Advanced Therapeutics. 2020; : 2000160

	[Pubmed] [Google Scholar] [DOI]

21	In vitro Characterization and Release Studies of Combined Nonionic Surfactant-Based Vesicles for the Prolonged Delivery of an Immunosuppressant Model Drug

	Akhtar Rasul,Muhammad Imran Khan,Mujeeb Rehman,Ghulam Abbas,Nosheen Aslam,Shabbir Ahmad,Khizar Abbas,Pervaiz Akhtar Shah,Muhammad Iqbal,Ali Mohammed Ahmed Al Subari,Talal Shaheer,Shahid Shah

	International Journal of Nanomedicine. 2020; Volume 15: 7937

	[Pubmed] [Google Scholar] [DOI]

22	Assessment of a New Ginsenoside Rh2 Nanoniosomal Formulation for Enhanced Antitumor Efficacy on Prostate Cancer: An in vitro Study

	Hadi Zare-Zardini,Ashraf Alemi,Asghar Taheri-Kafrani,Seyed Ahmad Hosseini,Hossein Soltaninejad,Amir Ali Hamidieh,Mojtaba Haghi Karamallah,Majid Farrokhifar,Mohammad Farrokhifar

	Drug Design, Development and Therapy. 2020; Volume 14: 3315

	[Pubmed] [Google Scholar] [DOI]

23	Tailoring Solulan C24 based Niosomes for Transdermal Delivery of Donepezil: In vitro characterization, Evaluation of pH sensitivity, and Microneedle-assisted Ex vivo Permeation Studies

	Archana S. Nayak,Srivani Chodisetti,Shivaprasad Gadag,Usha Yogendra Nayak,Srinikethan Govindan,Keyur Raval

	Journal of Drug Delivery Science and Technology. 2020; : 101945

	[Pubmed] [Google Scholar] [DOI]

24	Design and development of a proniosomal transdermal drug delivery system of caffeine for management of migraine: In vitro characterization, 131I-radiolabeling and in vivo biodistribution studies

	Mohamed H. Aboumanei,Ashgan. F. Mahmoud

	Process Biochemistry. 2020; 97: 201

	[Pubmed] [Google Scholar] [DOI]

25	Formulation, Characterization and In-vitro and In-vivo Evaluation of Capecitabine Loaded Niosomes

	Parth Patel,Tejas Barot,Pratik Kulkarni

	Current Drug Delivery. 2020; 17(3): 257

	[Pubmed] [Google Scholar] [DOI]

26	Nanoparticles for topical drug delivery: Potential for skin cancer

	Vinu Krishnan,Samir Mitragotri

	Advanced Drug Delivery Reviews. 2020;

	[Pubmed] [Google Scholar] [DOI]

27	Development of dental implant coating with minocycline-loaded niosome for antibacterial application

	Nattarat Wongsuwan,Anupma Dwivedi,Salunya Tancharoen,Norased Nasongkla

	Journal of Drug Delivery Science and Technology. 2020; : 101555

	[Pubmed] [Google Scholar] [DOI]

28	Innovation of testosome as a green formulation for the transdermal delivery of testosterone enanthate

	Mahgol Tajbakhsh,Majid Saeedi,Katayoun Morteza-Semnani,Jafar Akbari,Ali Nokhodchi

	Journal of Drug Delivery Science and Technology. 2020; 57: 101685

	[Pubmed] [Google Scholar] [DOI]

29	Niosomal Drug Delivery Systems for Ocular Disease—Recent Advances and Future Prospects

	Saliha Durak,Monireh Esmaeili Rad,Abuzer Alp Yetisgin,Hande Eda Sutova,Ozlem Kutlu,Sibel Cetinel,Ali Zarrabi

	Nanomaterials. 2020; 10(6): 1191

	[Pubmed] [Google Scholar] [DOI]

30	Chitosan-based particulate systems for drug and vaccine delivery in the treatment and prevention of neglected tropical diseases

	Sevda Senel,Selin Yüksel

	Drug Delivery and Translational Research. 2020;

	[Pubmed] [Google Scholar] [DOI]

31	Noninvasive transdermal delivery of liposomes by weak electric current

	Mahadi Hasan,Anowara Khatun,Tatsuya Fukuta,Kentaro Kogure

	Advanced Drug Delivery Reviews. 2020;

	[Pubmed] [Google Scholar] [DOI]

32	Topical film prepared with Rhus verniciflua extract-loaded pullulan hydrogel for atopic dermatitis treatment

	Ji Heun Jeong,Seung Keun Back,Jong Hun An,Nam-Seob Lee,Do-Kyung Kim,Chun Soo Na,Young-Gil Jeong,Seung Yun Han

	Journal of Biomedical Materials Research Part B: Applied Biomaterials. 2019;

	[Pubmed] [Google Scholar] [DOI]

33	Cationic Niosomes as Non-Viral Vehicles for Nucleic Acids: Challenges and Opportunities in Gene Delivery

	Santiago Grijalvo,Gustavo Puras,Jon Zárate,Myriam Sainz-Ramos,Nuseibah A. L. Qtaish,Tania López,Mohamed Mashal,Noha Attia,David Díaz,Ramon Pons,Eduardo Fernández,José Luis Pedraz,Ramon Eritja

	Pharmaceutics. 2019; 11(2): 50

	[Pubmed] [Google Scholar] [DOI]

34	Synthesis of Nitrogen Containing Biocompatible Non-ionic Surfactants and Investigation for Their Self-Assembly Based Nano-Scale Vesicles

	Imdad Ali,Hiba Manzoor,Muhamad Imran,Muhamad Shafiulah,Muhammad Raza Shah

	Tenside Surfactants Detergents. 2019; 56(1): 35

	[Pubmed] [Google Scholar] [DOI]

35	Nanomedicines towards targeting intracellular Mtb for the treatment of tuberculosis

	Samantha Donnellan,Marco Giardiello

	Journal of Interdisciplinary Nanomedicine. 2019;

	[Pubmed] [Google Scholar] [DOI]

36	A novel plier-like gemini cationic niosome for nucleic acid delivery

	Supusson Pengnam,Prasopchai Patrojanasophon,Theerasak Rojanarata,Tanasait Ngawhirunpat,Boon-ek Yingyongnarongkul,Widchaya Radchatawedchakoon,Praneet Opanasopit

	Journal of Drug Delivery Science and Technology. 2019;

	[Pubmed] [Google Scholar] [DOI]

37	Nanotechnology: Revolutionizing the Science of Drug Delivery

	Mohini Mishra,Pramod Kumar,Jitendra Singh Rajawat,Ruchi Malik,Gitanjali Sharma,Amit Modgil

	Current Pharmaceutical Design. 2019; 24(43): 5086

	[Pubmed] [Google Scholar] [DOI]

38	Microbial biosurfactants: current trends and applications in agricultural and biomedical industries

	P.J. Naughton,R. Marchant,V. Naughton,I.M. Banat

	Journal of Applied Microbiology. 2019;

	[Pubmed] [Google Scholar] [DOI]

39	Oligonucleotide 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: 206

	[Pubmed] [Google Scholar] [DOI]

40	PEGylated Plier-Like Cationic Niosomes on Gene Delivery in HeLa Cells

	Supusson Pengnam,Samarwadee Plianwong,Kanokwan Singpanna,Nattisa Ni-yomtham,Widchaya Radchatawedchakoon,Boon Ek Yingyongnarongkul,Praneet Opanasopit

	Key Engineering Materials. 2019; 819: 151

	[Pubmed] [Google Scholar] [DOI]

41	Nanotechnology Advanced Strategies for the Management of Diabetes Mellitus

	Amira Mohamed Mohsen

	Current Drug Targets. 2019; 20(10): 995

	[Pubmed] [Google Scholar] [DOI]

42	Niosomal formulation of amphotericin B alone and in combination with glucantime: In vitro and in vivo leishmanicidal effects

	Mahshid Mostafavi,Iraj Sharifi,Saeedeh Farajzadeh,Payam Khazaeli,Hamid Sharifi,Elnaz Pourseyedi,Sina Kakooei,Mehdi Bamorovat,Alireza Keyhani,Maryam Hakimi Parizi,Ahmad Khosravi,Ali Khamesipour

	Biomedicine & Pharmacotherapy. 2019; 116: 108942

	[Pubmed] [Google Scholar] [DOI]

43	Lipid-Based Nanocarriers for Lymphatic Transportation

	Nikhar Vishwakarma,Anamika Jain,Rajeev Sharma,Nishi Mody,Sonal Vyas,Suresh P. Vyas

	AAPS PharmSciTech. 2019; 20(2)

	[Pubmed] [Google Scholar] [DOI]

44	A Review on Bioengineering Approaches to Insulin Delivery: A Pharmaceutical and Engineering Perspective

	Zahra Baghban Taraghdari,Rana Imani,Fatemeh Mohabatpour

	Macromolecular Bioscience. 2019; : 1800458

	[Pubmed] [Google Scholar] [DOI]

45	Process optimization of ecological probe sonication technique for production of rifampicin loaded niosomes

	Daulat Haleem Khan,Sajid Bashir,Patrícia Figueiredo,Hélder A. Santos,Muhammad Imran Khan,Leena Peltonen

	Journal of Drug Delivery Science and Technology. 2019; 50: 27

	[Pubmed] [Google Scholar] [DOI]

46	Do niosomes have a place in the field of drug delivery?

	Rita Muzzalupo,Elisabetta Mazzotta

	Expert Opinion on Drug Delivery. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

47	Enhanced nuclear translocation and activation of aryl hydrocarbon receptor (AhR) in THP-1 monocytic cell line by a novel niosomal formulation of indole-3-carbinol

	Neda Abbaspour Sani,Mahsa Hasani,Anvarsadat Kianmehr,Saeed Mohammadi,Mehdi Sheikh Arabi,Yaghoub Yazdani

	Journal of Liposome Research. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

48	Nanotechnological breakthroughs in the development of topical phytocompounds-based formulations

	Ana Cláudia Santos,Dora Rodrigues,Joana A.D. Sequeira,Irina Pereira,Ana Simões,Diana Costa,Diana Peixoto,Gustavo Costa,Francisco Veiga

	International Journal of Pharmaceutics. 2019; : 118787

	[Pubmed] [Google Scholar] [DOI]

49	Antileishmanial Activity of Niosomal Combination Forms of Tioxolone along with Benzoxonium Chloride against Leishmania tropica

	Maryam Hakimi Parizi,Saeedeh Farajzadeh,Iraj Sharifi,Abbas Pardakhty,Mohammad Hossein Daie Parizi,Hamid Sharifi,Ehsan Salarkia,Saeid Hassanzadeh

	The Korean Journal of Parasitology. 2019; 57(4): 359

	[Pubmed] [Google Scholar] [DOI]

50	Formulation and optimisation of novel transfersomes for sustained release of local anaesthetic

	Ruba Bnyan,Iftikhar Khan,Touraj Ehtezazi,Imran Saleem,Sarah Gordon,Francis O’Neill,Matthew Roberts

	Journal of Pharmacy and Pharmacology. 2019;

	[Pubmed] [Google Scholar] [DOI]

51	In Vitro Release Test of Nano-drug Delivery Systems Based on Analytical and Technological Perspectives

	Emirhan Nemutlu,Ipek Eroglu,Hakan Eroglu,Sedef Kir

	Current Analytical Chemistry. 2019; 15(4): 373

	[Pubmed] [Google Scholar] [DOI]

52	Synthesis of Biocompatible Double-Tailed Nonionic Surfactants and Their Investigation for Niosomal Drug-Loading Applications

	Imdad Ali,Muhammad Raza Shah,Said Nadeem,Heyam Saad Ali,Salim Saifullah,Farid Ahmed,Muhammad Imran

	Journal of Surfactants and Detergents. 2019;

	[Pubmed] [Google Scholar] [DOI]

53	Nanostructured Lipid Carriers of Pioglitazone Loaded Collagen/Chitosan Composite Scaffold for Diabetic Wound Healing

	Jawahar Natarajan,Bharat Kumar Reddy Sanapalli,Mehjabeen Bano,Sachin Kumar Singh,Monica Gulati,Veera Venkata Satyanarayana Reddy Karri

	Advances in Wound Care. 2019;

	[Pubmed] [Google Scholar] [DOI]

54	Antileishmanial activity and immune modulatory effects of benzoxonium chloride and its entrapped forms in niosome on Leishmania tropica

	Maryam Hakimi Parizi,Abbas Pardakhty,Iraj sharifi,Saeedeh Farajzadeh,Mohammad Hossein Daie Parizi,Hamid Sharifi,Ali Reza Keyhani,Mahshid Mostafavi,Mehdi Bamorovat,Daryoush Ghaffari

	Journal of Parasitic Diseases. 2019;

	[Pubmed] [Google Scholar] [DOI]

55	Preparation and evaluation of transdermal naproxen niosomes: formulation optimization to preclinical anti-inflammatory assessment on murine model

	Dibyalochan Mohanty,Miriyala Jhansi Rani,M. Akiful Haque,Vasudha Bakshi,Mohammed Asadullah Jahangir,Syed Sarim Imam,Sadaf Jamal Gilani

	Journal of Liposome Research. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

56	Brief Effect of a Small Hydrophobic Drug (Cinnarizine) on the Physicochemical Characterisation of Niosomes Produced by Thin-Film Hydration and Microfluidic Methods

	Li Yeo,Temidayo Olusanya,Cheng Chaw,Amal Elkordy

	Pharmaceutics. 2018; 10(4): 185

	[Pubmed] [Google Scholar] [DOI]

57	Surfactant Effects on Lipid-Based Vesicles Properties

	Ruba Bnyan,Iftikhar Khan,Touraj Ehtezazi,Imran Saleem,Sarah Gordon,Francis OæNeill,Matthew Roberts

	Journal of Pharmaceutical Sciences. 2018;

	[Pubmed] [Google Scholar] [DOI]

58	A Road to Bring Brij52 Back to Attention: Shear Stress Sensitive Brij52 Niosomal Carriers for Targeted Drug Delivery to Obstructed Blood Vessels

	Shokouh Arjmand,Abbas Pardakhty,Hamid Forootanfar,Payam Khazaeli

	Medical Hypotheses. 2018;

	[Pubmed] [Google Scholar] [DOI]

59	Magnetic delivery of antitumor carboplatin by using PEGylated-Niosomes

	Fereshteh Davarpanah,Aliakbar Khalili Yazdi,Mahmood Barani,Mohammad Mirzaei,Masoud Torkzadeh-Mahani

	DARU Journal of Pharmaceutical Sciences. 2018;

	[Pubmed] [Google Scholar] [DOI]

60	Multi-drug resistant Mycobacterium tuberculosis & oxidative stress complexity: Emerging need for novel drug delivery approaches

	Kamal Dua,Vamshi Krishna Rapalli,Shakti Dhar Shukla,Gautam Singhvi,Madhur D. Shastri,Dinesh Kumar Chellappan,Saurabh Satija,Meenu Mehta,Monica Gulati,Terezinha De Jesus Andreoli Pinto,Gaurav Gupta,Philip M. Hansbro

	Biomedicine & Pharmacotherapy. 2018; 107: 1218

	[Pubmed] [Google Scholar] [DOI]

61	Embelin-loaded oral niosomes ameliorate streptozotocin-induced diabetes in Wistar rats

	Md. Shamsir Alam,Abdul Ahad,Lubna Abidin,Mohd. Aqil,Showkat Rasool Mir,Mohd Mujeeb

	Biomedicine & Pharmacotherapy. 2018; 97: 1514

	[Pubmed] [Google Scholar] [DOI]

62	Application of different nanocarriers for encapsulation of curcumin

	Zahra Rafiee,Mohammad Nejatian,Marjan Daeihamed,Seid Mahdi Jafari

	Critical Reviews in Food Science and Nutrition. 2018; : 1

	[Pubmed] [Google Scholar] [DOI]

63	Nanoparticulate-based drug delivery systems for small molecule anti-diabetic drugs: An emerging paradigm for effective therapy

	Siddharth Uppal,Kishan S. Italiya,Deepak Chitkara,Anupama Mittal

	Acta Biomaterialia. 2018;

	[Pubmed] [Google Scholar] [DOI]

64	Encapsulation of oils and fragrances by core-in-shell structures from silica particles, polymers and surfactants: The brick-and-mortar concept

	Gergana M. Radulova,Tatiana G. Slavova,Peter A. Kralchevsky,Elka S. Basheva,Krastanka G. Marinova,Krassimir D. Danov

	Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2018; 559: 351

	[Pubmed] [Google Scholar] [DOI]

65	Role of Nanotechnology in Cosmeceuticals: A Review of Recent Advances

	Shreya Kaul,Neha Gulati,Deepali Verma,Siddhartha Mukherjee,Upendra Nagaich

	Journal of Pharmaceutics. 2018; 2018: 1

	[Pubmed] [Google Scholar] [DOI]

66	Niosomes: 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

	[Pubmed] [Google Scholar] [DOI]

67	Use of Curcumin, a Natural Polyphenol for Targeting Molecular Pathways in Treating Age-Related Neurodegenerative Diseases

	Panchanan Maiti,Gary Dunbar

	International Journal of Molecular Sciences. 2018; 19(6): 1637

	[Pubmed] [Google Scholar] [DOI]

68	Thymoquinone-based nanotechnology for cancer therapy: promises and challenges

	Farah Ballout,Zeina Habli,Omar Nasser Rahal,Maamoun Fatfat,Hala-Gali Muhtasib

	Drug Discovery Today. 2018;

	[Pubmed] [Google Scholar] [DOI]

69	Rapid on-Chip Assembly of Niosomes: Batch versus Continuous Flow Reactors

	Sara Garcia-Salinas,Erico Himawan,Gracia Mendoza,Manuel Arruebo,Victor Sebastian

	ACS Applied Materials & Interfaces. 2018;

	[Pubmed] [Google Scholar] [DOI]

70	Micro-/nano-sized delivery systems of ginsenosides for improved systemic bioavailability

	Hyeongmin Kim,Jong Hyuk Lee,Jee Eun Kim,Young Su Kim,Choong Ho Ryu,Hong Joo Lee,Hye Min Kim,Hyojin Jeon,Hyo-Joong Won,Ji-Yun Lee,Jaehwi Lee

	Journal of Ginseng Research. 2018;

	[Pubmed] [Google Scholar] [DOI]

71	Ocular delivery of proteins and peptides: Challenges and novel formulation approaches

	Abhirup Mandal,Dhananjay Pal,Vibhuti Agrahari,Hoang My Trinh,Mary Joseph,Ashim K. Mitra

	Advanced Drug Delivery Reviews. 2018;

	[Pubmed] [Google Scholar] [DOI]

72	Influence of serum on DNA protection ability and transfection efficiency of cationic lipid-based nanoparticles for gene delivery

	Supusson Pengnam,Lalita Leksantikul,Prasopchai Tonglairoum,Praneet Opanasopit,Nattisa Ni-yomtham,Boon-Ek Yingyongnarongkul,Samarwadee Plianwong,C. Hamontree

	MATEC Web of Conferences. 2018; 192: 01025

	[Pubmed] [Google Scholar] [DOI]

73	Propolis-based niosomes as oromuco-adhesive films: A randomized clinical trial of a therapeutic drug delivery platform for the treatment of oral recurrent aphthous ulcers

	Mona G. Arafa,Dalia Ghalwash,Dina M. El-Kersh,M. M. Elmazar

	Scientific Reports. 2018; 8(1)

	[Pubmed] [Google Scholar] [DOI]

74	In vitro and in vivo investigation for optimization of niosomal ability for sustainment and bioavailability enhancement of diltiazem after nasal administration

	H. O. Ammar,M. Haider,M. Ibrahim,N. M. El Hoffy

	Drug Delivery. 2017; 24(1): 414

	[Pubmed] [Google Scholar] [DOI]

75	Nanotechnology based approaches for anti-diabetic drugs delivery

	Prashant Kesharwani,Bapi Gorain,Siew Yeng Low,Siew Ann Tan,Emily Chai Siaw Ling,Yin Khai Lim,Chuan Ming Chin,Pei Yee Lee,Chun Mey Lee,Chun Haw Ooi,Hira Choudhury,Manisha Pandey

	Diabetes Research and Clinical Practice. 2017;

	[Pubmed] [Google Scholar] [DOI]

76	Nanotechnology-Based Approach in Tuberculosis Treatment

	Mohammad Nasiruddin,Md. Kausar Neyaz,Shilpi Das

	Tuberculosis Research and Treatment. 2017; 2017: 1

	[Pubmed] [Google Scholar] [DOI]

77	DOE Optimization of Nano-based Carrier of Pregabalin as Hydrogel: New Therapeutic & Chemometric Approaches for Controlled Drug Delivery Systems

	Mona G. Arafa,Bassam M. Ayoub

	Scientific Reports. 2017; 7: 41503

	[Pubmed] [Google Scholar] [DOI]

78	Potential enhancement and targeting strategies of polymeric and lipid-based nanocarriers in dermal drug delivery

	Emine Kahraman,Sevgi Güngör,Yildiz Özsoy

	Therapeutic Delivery. 2017; 8(11): 967

	[Pubmed] [Google Scholar] [DOI]

79	Synthesis 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;

	[Pubmed] [Google Scholar] [DOI]

80	Anti-biofilm activity of a sophorolipid-amphotericin B niosomal formulation against Candida albicans

	Farazul Haque,Mohammad Sajid,Swaranjit Singh Cameotra,Mani Shankar Battacharyya

	Biofouling. 2017; : 1

	[Pubmed] [Google Scholar] [DOI]

81	Stem cell-based gene delivery mediated by cationic niosomes for bone regeneration

	Noha Attia,Mohamed Mashal,Santiago Grijalvo,Ramon Eritja,Jon Zárate,Gustavo Puras,José Luis Pedraz

	Nanomedicine: Nanotechnology, Biology and Medicine. 2017;

	[Pubmed] [Google Scholar] [DOI]

82	Novel carters and targeted approaches: Way out for rheumatoid arthritis quandrum

	Shikha Srivastava,Deependra Singh,Satish Patel,Arun K.S. Parihar,Manju R. Singh

	Journal of Drug Delivery Science and Technology. 2017; 40: 125

	[Pubmed] [Google Scholar] [DOI]

83	Anti-CD123 antibody-modified niosomes for targeted delivery of daunorubicin against acute myeloid leukemia

	Fu-rong Liu,Hui Jin,Yin Wang,Chen Chen,Ming Li,Sheng-jun Mao,Qiantao Wang,Hui Li

	Drug Delivery. 2017; 24(1): 882

	[Pubmed] [Google Scholar] [DOI]

84	Enhanced oral bioavailability and sustained delivery of glimepiride via niosomal encapsulation: in-vitro characterization and in-vivo evaluation

	Amira Mohamed Mohsen,Mona Mahmoud AbouSamra,Shaimaa Ahmed ElShebiney

	Drug Development and Industrial Pharmacy. 2017; : 1

	[Pubmed] [Google Scholar] [DOI]

85	Topical Delivery of Fenoprofen Calcium via Elastic Nano-vesicular Spanlastics: Optimization Using Experimental Design and In Vivo Evaluation

	Dalia Ali Farghaly,Ahmed A. Aboelwafa,Manal Y. Hamza,Magdy I. Mohamed

	AAPS PharmSciTech. 2017;

	[Pubmed] [Google Scholar] [DOI]

86	Retinal gene delivery enhancement by lycopene incorporation into cationic niosomes based on DOTMA and polysorbate 60

	Mohamed Mashal,Noha Attia,Gustavo Puras,Gema Martínez-Navarrete,Eduardo Fernández,Jose Luis Pedraz

	Journal of Controlled Release. 2017; 254: 55

	[Pubmed] [Google Scholar] [DOI]

87	pH-sensitive pHLIP® coated niosomes

	Mohan C. Pereira,Monica Pianella,Da Wei,Anna Moshnikova,Carlotta Marianecci,Maria Carafa,Oleg A. Andreev,Yana K. Reshetnyak

	Molecular Membrane Biology. 2017; : 1

	[Pubmed] [Google Scholar] [DOI]

88	Formulation and optimization of lacidipine loaded niosomal gel for transdermal delivery: In-vitro characterization and in-vivo activity

	Mohd Qumbar,Mohd Ameeduzzafar,Syed Sarim Imam,Javed Ali,Javed Ahmad,Asgar Ali

	Biomedicine & Pharmacotherapy. 2017; 93: 255

	[Pubmed] [Google Scholar] [DOI]

89	A review of solute encapsulating nanoparticles used as delivery systems with emphasis on branched amphipathic peptide capsules

	Sheila M. Barros,Susan K. Whitaker,Pinakin Sukthankar,L. Adriana Avila,Sushanth Gudlur,Matt Warner,Eduardo I.C. Beltrão,John M. Tomich

	Archives of Biochemistry and Biophysics. 2016; 596: 22

	[Pubmed] [Google Scholar] [DOI]

90	Recent advances in amphiphilic polymers for simultaneous delivery of hydrophobic and hydrophilic drugs

	Chloe Martin,Noorjahan Aibani,John F Callan,Bridgeen Callan

	Therapeutic Delivery. 2016; 7(1): 15

	[Pubmed] [Google Scholar] [DOI]

91	Exploring the use of nanocarrier systems to deliver the magical molecule; Curcumin and its derivatives

	Mina Mehanny,Rania M. Hathout,Ahmed S. Geneidi,Samar Mansour

	Journal of Controlled Release. 2016; 225: 1

	[Pubmed] [Google Scholar] [DOI]

92	Preparation and evaluation of niosome gel containing acyclovir for enhanced dermal deposition

	Shery Jacob,Anroop B. Nair,Bandar E. Al-Dhubiab

	Journal of Liposome Research. 2016; : 1

	[Pubmed] [Google Scholar] [DOI]

93	Development and in-vitro characterization of sorbitan monolaurate and poloxamer 184 based niosomes for oral delivery of diacerein

	Muhammad Imran Khan,Asadullah Madni,Leena Peltonen

	European Journal of Pharmaceutical Sciences. 2016;

	[Pubmed] [Google Scholar] [DOI]

94	A single intravenous dose of novel flurbiprofen-loaded proniosome formulations provides prolonged systemic exposure and anti-inflammatory effect

	Preeti Verma,Sunil Kumar Prajapati,Rajbharan Yadav,Danielle Senyschyn,Peter R Shea,Natalie L Trevaskis

	Molecular Pharmaceutics. 2016;

	[Pubmed] [Google Scholar] [DOI]

95	Advances in psoriasis physiopathology and treatments: Up to date of mechanistic insights and perspectives of novel therapies based on innovative skin drug delivery systems (ISDDS)

	M. Sala,A. Elaissari,H. Fessi

	Journal of Controlled Release. 2016;

	[Pubmed] [Google Scholar] [DOI]

96	Niosomes: a potential tool for novel drug delivery

	Rizwana Khan,Raghuveer Irchhaiya

	Journal of Pharmaceutical Investigation. 2016; 46(3): 195

	[Pubmed] [Google Scholar] [DOI]

97	Engineering of a hybrid polymer-lipid nanocarrier for the nasal delivery of tenofovir disoproxil fumarate: Physicochemical, molecular, microstructural, and stability evaluation

	Varsha B Pokharkar,Mallika R Jolly,Dipak D Kumbhar

	European Journal of Pharmaceutical Sciences. 2015;

	[Pubmed] [Google Scholar] [DOI]

98	Design and optimization of topical methotrexate loaded niosomes for enhanced management of psoriasis: Application of Box–Behnken design, in-vitro evaluation and in-vivo skin deposition study

	Aly A. Abdelbary,Mohamed H.H. AbouGhaly

	International Journal of Pharmaceutics. 2015; 485(1-2): 235

	[Pubmed] [Google Scholar] [DOI]

99	Development, Characterization, andIn VitroBiological Performance of Fluconazole-Loaded Microemulsions for the Topical Treatment of Cutaneous Leishmaniasis

	Marcela Brito Oliveira,Giovana Calixto,Márcia Graminha,Hugo Cerecetto,Mercedes González,Marlus Chorilli

	BioMed Research International. 2015; 2015: 1

	[Pubmed] [Google Scholar] [DOI]

100	Formulation of tretinoin-loaded topical proniosomes for treatment of acne:in-vitrocharacterization, skin irritation test and comparative clinical study

	Salwa Abdel Rahman,Nevine Shawky Abdelmalak,Alia Badawi,Tahany Elbayoumy,Nermeen Sabry,Amany El Ramly

	Drug Delivery. 2014; : 1

	[Pubmed] [Google Scholar] [DOI]

101	Statistically designed nonionic surfactant vesicles for dermal delivery of itraconazole: Characterization and in vivo evaluation using a standardized Tinea pedis infection model

	Neeraj Kumar,Shishu Goindi

	International Journal of Pharmaceutics. 2014; 472(1-2): 224

	[Pubmed] [Google Scholar] [DOI]

102	Branched amphiphilic peptide capsules: Cellular uptake and retention of encapsulated solutes

	Pinakin Sukthankar,L. Adriana Avila,Susan K. Whitaker,Takeo Iwamoto,Alfred Morgenstern,Christos Apostolidis,Ke Liu,Robert P. Hanzlik,Ekaterina Dadachova,John M. Tomich

	Biochimica et Biophysica Acta (BBA) - Biomembranes. 2014;

	[Pubmed] [Google Scholar] [DOI]

103	Polymer Micro- and Nanocapsules as Biological Carriers with Multifunctional Properties

	Anna Musyanovych,Katharina Landfester

	Macromolecular Bioscience. 2014; : n/a

	[Pubmed] [Google Scholar] [DOI]

104	Vesicular system: Versatile carrier for transdermal delivery of bioactives

	Deependra Singh,Madhulika Pradhan,Mukesh Nag,Manju Rawat Singh

	Artificial Cells, Nanomedicine, and Biotechnology. 2014; : 1

	[Pubmed] [Google Scholar] [DOI]

105	Nanotechnology-Applied Curcumin for Different Diseases Therapy

	Negar Ghalandarlaki,Ali Mohammad Alizadeh,Soheil Ashkani-Esfahani

	BioMed Research International. 2014; 2014: 1

	[Pubmed] [Google Scholar] [DOI]

106	Colloidal drug delivery system: amplify the ocular delivery

	Javed Ali,Mohd Fazil,Mohd Qumbar,Nazia Khan,Asgar Ali

	Drug Delivery. 2014; : 1

	[Pubmed] [Google Scholar] [DOI]

107	Quantiosomes as a Multimodal Nanocarrier for Integrating Bioimaging and Carboplatin Delivery

	Chwan-Fwu Lin,Chih-Jen Wen,Ibrahim A. Aljuffali,Chun-Lin Huang,Jia-You Fang

	Pharmaceutical Research. 2014;

	[Pubmed] [Google Scholar] [DOI]

108	Effect of polycaprolactone on in vitro release of melatonin encapsulated niosomes in artificial and whole saliva

	C. Nukulkit,A. Priprem,T. Damrongrungruang,E. Benjavongkulchai,N. Pratheepawanit Johns

	Journal of Drug Delivery Science and Technology. 2014; 24(2): 153

	[Pubmed] [Google Scholar] [DOI]

109	Niosomes from 80s to present: The state of the art

	Carlotta Marianecci,Luisa Di Marzio,Federica Rinaldi,Christian Celia,Donatella Paolino,Franco Alhaique,Sara Esposito,Maria Carafa

	Advances in Colloid and Interface Science. 2013;

	[Pubmed] [Google Scholar] [DOI]

110	Construction of hyaluronic acid noisome as functional transdermal nanocarrier for tumor therapy

	Kong M, Park H, Feng C, Hou L, Cheng X, Chen X.

	Carbohydrate Polymers. 2013; 94(1): 634-641

	[Pubmed] [Google Scholar]

111	Formulation and evaluation of metformin hydrochloride-loaded niosomes as controlled release drug delivery system

	Hasan AA, Madkor H, Wageh S.

	Drug Delivery. 2013; 20((3-4)): 120-126

	[Pubmed] [Google Scholar]

112	Vesicular systems in treatment of rheumatoid arthritis

	Letha, S. and Viswanad, V.

	International Journal of Pharmaceutical Sciences Review and Research. 2013; 21(1): 64-69

	[Pubmed] [Google Scholar]

113	Exploring the fluorescence switching phenomenon of curcumin encapsulated niosomes: In vitro real time monitoring of curcumin release to cancer cells

	Puvvada N, Rajput S, Kumar BN, Mandal M, Pathak A.

	RSC Advances. 2013; 3(8): 2553-2557

	[Pubmed] [Google Scholar]

114	Nanotechnology in corneal neovascularization therapy - A review

	Gonzalez L, Loza RJ, Han KY, Sunoqrot S, Cunningham C, Purta P, Drake J, Chang JH.

	Journal of Ocular Pharmacology and Therapeutics. 2013; 29(2): 124-134

	[Pubmed] [Google Scholar]

115	Exploring the fluorescence switching phenomenon of curcumin encapsulated niosomes: in vitro real time monitoring of curcumin release to cancer cells

	Nagaprasad Puvvada,Shashi Rajput,B. N. Prashanth Kumar,Mahitosh Mandal,Amita Pathak

	RSC Advances. 2013; 3(8): 2553

	[Pubmed] [Google Scholar] [DOI]

116	Nanotechnology in Corneal Neovascularization Therapy—A Review

	Lilian Gonzalez,Raymond J. Loza,Kyu-Yeon Han,Suhair Sunoqrot,Christy Cunningham,Patryk Purta,James Drake,Sandeep Jain,Seungpyo Hong,Jin-Hong Chang

	Journal of Ocular Pharmacology and Therapeutics. 2013; 29(2): 124

	[Pubmed] [Google Scholar] [DOI]

117	Formulation and evaluation of metformin hydrochloride-loaded niosomes as controlled release drug delivery system

	Azza A. Hasan,Hafez Madkor,Sherief Wageh

	Drug Delivery. 2013; 20(3-4): 120

	[Pubmed] [Google Scholar] [DOI]

118	Construction of hyaluronic acid noisome as functional transdermal nanocarrier for tumor therapy

	Ming Kong,Hyunjin Park,Chao Feng,Lin Hou,Xiaojie Cheng,Xiguang Chen

	Carbohydrate Polymers. 2013; 94(1): 634

	[Pubmed] [Google Scholar] [DOI]

119	Niosomes: Novel sustained release nonionic stable vesicular systems — An overview

	N.B. Mahale,P.D. Thakkar,R.G. Mali,D.R. Walunj,S.R. Chaudhari

	Advances in Colloid and Interface Science. 2012; 183-184: 46

	[Pubmed] [Google Scholar] [DOI]

120	Recent Trends in Niosome as Vesicular Drug Delivery System

	Anchal Sankhyan, Pravin Pawar

	Journal of Applied Pharmaceutical Science. 2012; 2(6): 20-32

	[Pubmed] [Google Scholar]

121	Preparation and evaluation of niosomes containing autoclavedLeishmania major: a preliminary study

	Abbas Pardakhty,Mojtaba Shakibaie,Hamid Daneshvar,Ali Khamesipour,Tayebe Mohammadi-Khorsand,Hamid Forootanfar

	Journal of Microencapsulation. 2012; 29(3): 219

	[Pubmed] [Google Scholar] [DOI]

122	Preparation and evaluation of niosomes containing autoclaved Leishmania major: A preliminary study

	Pardakhty A, Shakibaie M, Daneshvar H, Khamesipour A, Mohammadi-Khorsand T, Forootanfar H.

	Journal of Microencapsulation. 2012; 29(3): 219-224

	[Pubmed] [Google Scholar]

123	Development of novel lipid carrier systems for ocular drug delivery

	Jiang M, Gan L, Gan Y.

	Chinese Pharmaceutical Journal. 2012; 47(16): 1265-1270

	[Pubmed] [Google Scholar]

124	Niosomes: Novel sustained release nonionic stable vesicular systems - An overview

	Mahale NB, Thakkar PD, Mali RG, Walunj DR, Chaudhari SR.

	Advances in Colloid and Interface Science. 2012; : 46-54

	[Pubmed] [Google Scholar]

125	Provesicular niosomes gel: A novel absorption modulator for transdermal delivery

	Litha T, Shoma J, John GS, Viswanad V.

	International Journal of Drug Development and Research. 2011; 3(3): 58-69

	[Pubmed] [Google Scholar]

126	Nonionic surfactant vesicular systems for effective drug delivery—an overview

	Kumar GP, Rajeshwarrao P

	Acta Pharmaceutica Sinica B. 2011; 1(4): 208-219

	[Pubmed] [Google Scholar]

127	Nonionic surfactant vesicular systems for effective drug delivery—an overview

	Gannu P. Kumar,Pogaku Rajeshwarrao

	Acta Pharmaceutica Sinica B. 2011; 1(4): 208

	[Pubmed] [Google Scholar] [DOI]