Cancer nanomedicine: A review on approaches and applications towards targeted drug delivery

Shameera Begum Basheer Ahamed; Faridha Begum Ibrahim; Hemalatha Srinivasan

Cancer nanomedicine: A review on approaches and applications towards targeted drug delivery

Publish place: International Journal of Nano Dimension، Vol: 12، Issue: 4

Publish Year: 1400

نوع سند: مقاله ژورنالی

زبان: English

This Paper With 18 Page And PDF Format Ready To Download

دریافت فایل کامل Paper

Certificate
من نویسنده این مقاله هستم

این Paper در بخشهای موضوعی زیر دسته بندی شده است:

علوم پزشکی > سرطان

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:

https://civilica.com/doc/1455502

شناسه ملی سند علمی:

JR_IJND-12-4_001

تاریخ نمایه سازی: 10 خرداد 1401

Abstract:

Cancer prevails to be one of the main reasons of death across the globe. A large group of drugs and other therapies exist in the market for cancer treatment, yet, these conventional therapies have huge drawbacks such as low-specificity, off-target toxicity, and multidrug resistance that impact the standard of living of the patients. The concept of nanomedicine for targeted cancer therapy was able to overcome these problems, enhance the antitumor activity, and reduce systemic toxicity. Nanomedicine aims at utilizing properties of materials in the range of ۱ to ۱۰۰ nm for the treatment of diseases. Nanomedicine can achieve targeted therapy owing to the uncommon properties of nanoparticles and cancer itself. Cancer nanomedicine is used not only for treatment but its potential can also be expanded for early cancer diagnosis and tumor imaging. Many nanomedicines are currently in various phases of clinical trials and a few have already been authorized by the Food and Drug Administration for clinical use. This review highlights different approaches to targeted delivery of drugs and summarizes the utilization of various nanoparticles in targeted drug delivery, combination therapy, diagnosis, and imaging. Finally, this review also discusses the challenges that need to be overcome and provides an insight into future perspectives in the area of cancer nanomedicine.

Keywords:

Antitumor activity , cancer , Drug delivery , Nanomedicine , Targeted Therapy

Authors

Shameera Begum Basheer Ahamed

School of Life Sciences, B.S. Abdur Rahman Crescent Institute of Science and Technology, Vandalur, Chennai-۴۸, India.

Faridha Begum Ibrahim

School of Life Sciences, B.S. Abdur Rahman Crescent Institute of Science and Technology, Vandalur, Chennai-۴۸, India.

Hemalatha Srinivasan

School of Life Sciences, B.S. Abdur Rahman Crescent Institute of Science and Technology, Vandalur, Chennai-۴۸, India.

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

Siegel R. L., Miller K. D., Jemal A., (۲۰۱۹), Cancer ...
Lakshya M., Ignacio G. C., Gowri Sree V., Hemalatha S., ...
Mittal L., Ranjani S., Shariq Ahmed M., Jeya Shree T., ...
Pérez-Herrero E., Fernández-Medarde A., (۲۰۱۵), Advanced targeted therapies in cancer: ...
Arpudha M., Priya S., Muhammed A. P., Mubarakali D., Hemalatha ...
Shariq A. M., Ranjani S., Tahira A., Waseem M., Khan ...
Schirrmacher V., (۲۰۱۹), From chemotherapy to biological therapy: A review ...
Zhao C. Y., Cheng R., Yang Z., Tian Z. M., ...
Rohini B., Tahira A., Waseem M., Khan J., Kashif M., ...
Tran S., De Giovanni P. J., Piel B., Rai P., ...
Tahira A., Vabeiryureilai M., Senthil Kumar N., MubarakAli D., Hemalatha ...
Kim B. Y., Rutka J. T., Chan W. C., (۲۰۱۰), ...
Begum S., Priya S., Sundararajan R., Hemalatha S., (۲۰۱۷), Novel ...
Ubaid R., Hemalatha S., (۲۰۱۷), Marine endophytic actinomycetes assisted synthesis ...
Ubaid R., Saroj Kumar S.., Hemalatha S., (۲۰۱۸), Growth inhibitory ...
Boisseau P., Loubaton B., (۲۰۱۱), Nanomedicine, nanotechnology in medicine. C. ...
Tahira Ak., Mohd S. Kh., Hemalatha S., (۲۰۱۸), A facile ...
Tahira Ak., Mohd Shahanbaj Kh., Hemalatha S., (۲۰۱۸), Novel Silver ...
Ubaid R., Hemalatha S., (۲۰۱۹), Effect of biosynthesized copper nanoparticles ...
Tahira A., Priya S., Sarojkumar S., Mohd Shahanbaj Kh., Hemalatha ...
Tahira A., Hemalatha S., (۲۰۱۹), Mycosilver nanoparticles: Synthesis, characterization and ...
Ranjani S., Shariq Ahmed M., Ruckmani K., Hemalatha S., (۲۰۱۹), ...
Ranjani S., Tamanna K., Hemalatha S., (۲۰۱۹), Triphala green nano ...
Ranjani S., Faridha Begum I., Santhoshini J., Senthil Kumar N., ...
Ranjani S., Faridha Begum I., Tasneem I. K., Senthil Kumar ...
Ranjani S., Shariq Ahmed M., MubarakAli D., Ramachandran C., Senthil ...
Ranjani S., Shariq Ahmed M., Mohd A., Senthil Kumar N., ...
Ranjani S., Salman A., Farzi M., Shruthy Priya P., Mohammad ...
Mariam Adhila H., Shariq Ahmed M., Ranjani S., Senthilkumar N., ...
Martins J. P., Das Neves J., de la Fuente M., ...
Anselmo A. C., Mitragotri S., (۲۰۱۹), Nanoparticles in the clinic: ...
Xin Y., Yin M., Zhao L., Meng F., Luo L., ...
Pearce A. K., O’Reilly R. K., (۲۰۱۹), Insights into active ...
Shi J., Kantoff P. W., Wooster R., Farokhzad O. C., ...
Rosenblum D., Joshi N., Tao W., Karp J. M., Peer ...
Attia M. F., Anton N., Wallyn J., Omran Z., Vandamme ...
Dai Y., Xu C., Sun X., Chen X., (۲۰۱۷), Nanoparticle ...
Du B., Yu M., Zheng J., (۲۰۱۸), Transport and interactions ...
Nalwa H. S., (۲۰۱۴), A special issue on reviews in ...
Zhai Y., Su J., Ran W., Zhang P., Yin Q., ...
Zhen Xu., Penghui Ch., Kanyi Pu., (۲۰۱۹), Recent advances in ...
Ahmad A., Khan F., Mishra R. K., Khan R., (۲۰۱۹), ...
Yoo J., Park C., Yi G., Lee D., Koo H., ...
Sutradhar K. B., Amin M., (۲۰۱۴), Nanotechnology in cancer drug ...
Mitra A. K., Agrahari V., Mandal A., Cholkar K., Natarajan ...
Liyanage P. Y., Hettiarachchi S. D., Zhou Y., Ouhtit A., ...
Ranjani S., Das R., Shariq Ahmed M., Lalnunmawii E., Senthilkumar ...
Sai Nivetha S., Ranjani S., Hemalatha S., (۲۰۲۰), Synthesis and ...
Anitha S., Ranjani S., Hemalatha S., (۲۰۲۱), In silico Analysis ...
Jia Y., Omri A., Krishnan L., Mc Cluskie M. J., ...
Bazak R., Houri M., El Achy S., Kamel S., Refaat ...
Wu F., Li X., Jiang B., Yan J., Zhang Z., ...
Rompicharla S. V. K., Kumari P., Bhatt H., Ghosh B., ...
Duffy M. J., Harbeck N., Nap M., Molina R., Nicolini ...
Fernandes E., Freitas R., Ferreira D., Soares J., Azevedo R., ...
Fernandes E., Ferreira D., Peixoto A., Freitas R., Relvas-Santos M., ...
Ruttala H. B., Ramasamy T., Madeshwaran T., Hiep T. T., ...
Gu M., Wang X., Toh T. B., Chow E. K. ...
El-Sawy H. S., Al-Abd A. M., Ahmed T. A., El-Say ...
Boedtkjer E., Pedersen S. F., (۲۰۲۰), The acidic tumor microenvironment ...
Tian B., Liu S., Wu S., Lu W., Wang D., ...
Oei A. L., Vriend L. E. M., Krawczyk P. M., ...
Liu Y., Crawford B. M., Vo-Dinh T., (۲۰۱۸), Gold nanoparticles-mediated ...
Riley R. S., Day E. S., (۲۰۱۷), Gold nanoparticle mediated ...
Shen S., Ding B., Zhang S., Qi X., Wang K., ...
Nosrati H., Mojtahedi A., Danafar H., Kheiri Manjili H., (۲۰۱۸), ...
Wang Y., Deng Y., Luo H., Zhu A., Ke H., ...
Guisasola E., Asín L., Beola L., de la Fuente J. ...
Sau T. K., Biswas A., Ray P., (۲۰۱۸), Metal nanoparticles ...
Gurunathan S., Kang M. H., Qasim M., Kim J. H., ...
Sabiha Sulthana H. B., Ranjani S., Hemalatha S., (۲۰۲۰), Comparison ...
Tahira A., Khan M. S., Hemalatha S., (۲۰۲۰), Biosynthesis of ...
Meir R., Shamalov K., Sadan T., Motiei M., Yaari G., ...
Coelho S. C., Reis D. P., Pereira, M. C., Coelho ...
Zhang X. F., Liu Z. G., Shen W., Gurunathan S., ...
Akther T., Mathipi V., Kumar N. S., Davoodbasha M., Srinivasan ...
Ranjani S., Pradeep P., Vimalkumar U., Ramesh Kumar V., Hemalatha ...
Rohini B., Akther T., Waseem M., Khan J., Kashif M., ...
Ahmed M. S., Soundhararajan R., Akther T., Kashif M., Khan ...
Al-Sheddi E. S., Farshori N. N., Al-Oqail M. M., Al-Massarani ...
Azizi M., Ghourchian H., Yazdian F., Bagherifam S., Bekhradnia S., ...
Pedone D., Moglianetti M., De Luca E., Bardi G., Pompa ...
Xia H., Li F., Hu X., Park W., Wang S., ...
[۸۵]Shoshan M. S., Vonderach T., Hattendorf B., Wennemers H., (۲۰۱۹), ...
Pugazhendhi A., Edison T. N. J. I., Karuppusamy I., Kathirvel ...
Arachchige M. P., Laha S. S., Naik A. R., Lewis ...
Abdelaziz H. M., Gaber M., Abd-Elwakil M. M., Mabrouk M. ...
Sharma H., Kumar K., Choudhary C., Mishra P. K., Vaidya ...
Hassan H. F. H., Mansour A. M., Abo Youssef A. ...
Ancona A., Dumontel B., Garino N., Demarco B., Chatzitheodoridou D., ...
Boroumand Moghaddam A., Moniri M., Azizi S., Abdul Rahim R., ...
Masood F., (۲۰۱۶), Polymeric nanoparticles for targeted drug delivery system ...
Wong H. L., Rauth A. M., Bendayan R., Manias J. ...
de Oliveira Pedro R., Hoffmann S., Pereira S., Goycoolea F. ...
Katiyar S. S., Muntimadugu E., Rafeeqi T. A., Domb A. ...
Deshmukh A. S., Chauhan P. N., Noolvi M. N., Chaturvedi ...
Wan X., Beaudoin J. J., Vinod N., Min Y., Makita ...
Oh W. K., Yoon H., Jang J., (۲۰۱۰), Size control ...
Tu X., Wang L., Cao Y., Ma Y., Shen H., ...
Qin X. C., Guo Z. Y., Liu Z. M., Zhang ...
Chandra S., Das P., Bag S., Laha D., Pramanik P., ...
Simon J., Flahaut E., Golzio M., (۲۰۱۹), Overview of carbon ...
Sobhani Z., Dinarvand R., Atyabi F., Ghahremani M., Adeli M., ...
Akbarzadeh A., Rezaei-Sadabady R., Davaran S., Joo S. W., Zarghami ...
Voinea M., Simionescu M., (۲۰۰۲), Designing of ‘intelligent’ liposomes for ...
Deshpande P. P., Biswas S., Torchilin V. P., (۲۰۱۳), Current ...
Riehemann K., Schneider S. W., Luger T. A., Godin B., ...
Kang X. J., Wang H. Y., Peng H. G., Chen ...
Lakkadwala S., dos Santos Rodrigues B., Sun C., Singh J., ...
Watermann A., Brieger J., (۲۰۱۷), Mesoporous silica nanoparticles as drug ...
Meka A. K., Jenkins L. J., Dàvalos-Salas M., Pujara N., ...
Pan G., Jia T. T., Huang Q. X., Qiu Y. ...
Xin Y., Huang M., Guo W. W., Huang Q., Zhen ...
Kokkinos J., Ignacio R. M., Sharbeen G., Boyer C., Gonzales-Aloy ...
Yang W. Q., Zhang Y., (۲۰۱۲), RNAi-mediated gene silencing in ...
Padayachee J., Daniels A., Balgobind A., Ariatti M., Singh M., ...
Li Y., Ding J., Xu X., Shi R., Saw P. ...
Wang C., Shi X., Song H., Zhang C., Wang X., ...
Shaabani E., Sharifiaghdam M., De Keersmaecker H., De Rycke R., ...
Shen S., Liu M., Li T., Lin S., Mo R., ...
Wang H., Wu J., Xie K., Fang T., Chen C., ...
Rawal S., Patel M. M., (۲۰۱۹), Threatening cancer with nanoparticle ...
Guo X. L., Kang X. X., Wang Y. Q., Zhang ...
Batra H., Pawar S., Bahl D., (۲۰۱۹), Curcumin in combination ...
Xiao B., Ma L., Merlin D., (۲۰۱۷), Nanoparticle-mediated co-delivery of ...
Bear A. S., Kennedy L. C., Young J. K., Perna ...
Zhang X., Li Y., Wei M., Liu C., Yu T., ...
Mirrahimi M., Abed Z., Beik J., Shiri I., Dezfuli A. ...
Li R., Liu B., Gao J., (۲۰۱۷), The application of ...
Madamsetty V. S., Mukherjee A., Mukherjee S., (۲۰۱۹), Recent trends ...
Key J., Park K., (۲۰۱۷), Multicomponent, tumor-homing chitosan nanoparticles for ...
Wang Y. W., Kang S., Khan A., Bao P. Q., ...
Yi X., Wang F., Qin W., Yang X., Yuan J., ...
Li J., Chen K., Liu H., Cheng K., Yang M., ...
Nam T., Park S., Lee S. Y., Park K., Choi ...
Weber J., Beard P. C., Bohndiek S. E., (۲۰۱۶), Contrast ...
He J., Li C., Ding L., Huang Y., Yin X., ...
Li R., He Y., Zhang S., Qin J., Wang J., ...
Rao L., Bu L. L., Meng Q. F., Cai B., ...
Wang H., Li X., Tse B. W. C., Yang H., ...
Schaafsma B. E., Mieog J. S. D., Hutteman M., Van ...
Ranjani S., Ahmed M., Ali D., Ramachandran C., Kumar N., ...
Rahman L., Jacobsen N. R., Aziz S. A., Wu D., ...
Kumar V., Sharma N., Maitra S. S., (۲۰۱۷), In vitro ...
Musetti S., Huang L., (۲۰۱۸), Nanoparticle-mediated remodeling of the tumor ...
Van der Meel R., Lammers T., Hennink W. E., (۲۰۱۷), ...
Siddique S., Alexander A., Yadav P., Agrawal M., Shehata A. ...
Patra J. K., Das G., Fraceto L. F., Campos E. ...
Salvioni L., Rizzuto M. A., Bertolini J. A., Pandolfi L., ...
Day C. P., Merlino G., Van Dyke T., (۲۰۱۵), Preclinical ...

نمایش کامل مراجع