Literature DB >> 25279172

Passive targeting of nanoparticles to cancer: A comprehensive review of the literature.

Remon Bazak1, Mohamad Houri2, Samar El Achy3, Wael Hussein1, Tamer Refaat4.   

Abstract

Cancer remains the one of the most common causes of mortality in humans; thus, cancer treatment is currently a major focus of investigation. Researchers worldwide have been searching for the optimal treatment (the 'magic bullet') that will selectively target cancer, without afflicting significant morbidity. Recent advances in cancer nanotechnology have raised exciting opportunities for specific drug delivery by an emerging class of nanotherapeutics that may be targeted to neoplastic cells, thereby offering a major advantage over conventional chemotherapeutic agents. There are two ways by which targeting of nanoparticles may be achieved, namely passive and active targeting. The aim of this study was to provide a comprehensive review of the literature focusing on passive targeting.

Entities:  

Keywords:  cancer; nanoparticles; passive targeting

Year:  2014        PMID: 25279172      PMCID: PMC4179822          DOI: 10.3892/mco.2014.356

Source DB:  PubMed          Journal:  Mol Clin Oncol        ISSN: 2049-9450


  45 in total

Review 1.  The enhanced permeability and retention (EPR) effect in tumor vasculature: the key role of tumor-selective macromolecular drug targeting.

Authors:  H Maeda
Journal:  Adv Enzyme Regul       Date:  2001

Review 2.  Kallikrein-kinin in infection and cancer.

Authors:  H Maeda; J Wu; T Okamoto; K Maruo; T Akaike
Journal:  Immunopharmacology       Date:  1999-09

Review 3.  Targeting nanoparticles to cancer.

Authors:  M Wang; M Thanou
Journal:  Pharmacol Res       Date:  2010-04-07       Impact factor: 7.658

Review 4.  Exploiting the enhanced permeability and retention effect for tumor targeting.

Authors:  Arun K Iyer; Greish Khaled; Jun Fang; Hiroshi Maeda
Journal:  Drug Discov Today       Date:  2006-09       Impact factor: 7.851

5.  A lipophilic derivative of neocarzinostatin. A polymer conjugation of an antitumor protein antibiotic.

Authors:  H Maeda; J Takeshita; R Kanamaru
Journal:  Int J Pept Protein Res       Date:  1979-08

6.  A new approach to cancer chemotherapy: selective enhancement of tumor blood flow with angiotensin II.

Authors:  M Suzuki; K Hori; I Abe; S Saito; H Sato
Journal:  J Natl Cancer Inst       Date:  1981-09       Impact factor: 13.506

7.  A new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancs.

Authors:  Y Matsumura; H Maeda
Journal:  Cancer Res       Date:  1986-12       Impact factor: 12.701

8.  Enhanced vascular permeability in solid tumor involving peroxynitrite and matrix metalloproteinases.

Authors:  J Wu; T Akaike; K Hayashida; T Okamoto; A Okuyama; H Maeda
Journal:  Jpn J Cancer Res       Date:  2001-04

9.  Tumor-selective blood flow decrease induced by an angiotensin converting enzyme inhibitor, temocapril hydrochloride.

Authors:  K Hori; S Saito; H Takahashi; H Sato; H Maeda; Y Sato
Journal:  Jpn J Cancer Res       Date:  2000-02

10.  Involvement of the kinin-generating cascade in enhanced vascular permeability in tumor tissue.

Authors:  Y Matsumura; M Kimura; T Yamamoto; H Maeda
Journal:  Jpn J Cancer Res       Date:  1988-12
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  52 in total

1.  PAMAM dendrimers as efficient drug and gene delivery nanosystems for cancer therapy.

Authors:  Fereydoon Abedi-Gaballu; Gholamreza Dehghan; Maryam Ghaffari; Reza Yekta; Soheil Abbaspour-Ravasjani; Behzad Baradaran; Jafar Ezzati Nazhad Dolatabadi; Michael R Hamblin
Journal:  Appl Mater Today       Date:  2018-05-29

Review 2.  Oligonucleotide-based theranostic nanoparticles in cancer therapy.

Authors:  Reza Shahbazi; Bulent Ozpolat; Kezban Ulubayram
Journal:  Nanomedicine (Lond)       Date:  2016-04-22       Impact factor: 5.307

Review 3.  Protein based therapeutic delivery agents: Contemporary developments and challenges.

Authors:  Liming Yin; Carlo Yuvienco; Jin Kim Montclare
Journal:  Biomaterials       Date:  2017-04-21       Impact factor: 12.479

4.  Acoustically Driven Microbubbles Enable Targeted Delivery of microRNA-Loaded Nanoparticles to Spontaneous Hepatocellular Neoplasia in Canines.

Authors:  Sukumar Uday Kumar; Arsenii V Telichko; Huaijun Wang; Dongwoon Hyun; Eric G Johnson; Michael S Kent; Robert B Rebhun; Jeremy J Dahl; William T N Culp; Ramasamy Paulmurugan
Journal:  Adv Ther (Weinh)       Date:  2020-11-12

Review 5.  Biointerfacing and Applications of Cell Membrane-Coated Nanoparticles.

Authors:  Ashley V Kroll; Ronnie H Fang; Liangfang Zhang
Journal:  Bioconjug Chem       Date:  2016-11-16       Impact factor: 4.774

6.  Conventional Nanosized Drug Delivery Systems for Cancer Applications.

Authors:  Cristian Vergallo; Muhammad Nadeem Hafeez; Dalila Iannotta; Hélder A Santos; Nicola D'Avanzo; Luciana Dini; Felisa Cilurzo; Massimo Fresta; Luisa Di Marzio; Celia Christian
Journal:  Adv Exp Med Biol       Date:  2021       Impact factor: 2.622

7.  A solid lipid nanoparticle formulation of 4-(N)-docosahexaenoyl 2', 2'-difluorodeoxycytidine with increased solubility, stability, and antitumor activity.

Authors:  Solange A Valdes; Riyad F Alzhrani; Andres Rodriguez; Dharmika S P Lansakara-P; Sachin G Thakkar; Zhengrong Cui
Journal:  Int J Pharm       Date:  2019-08-12       Impact factor: 5.875

Review 8.  Recent advances in dendrimer-based nanovectors for tumor-targeted drug and gene delivery.

Authors:  Prashant Kesharwani; Arun K Iyer
Journal:  Drug Discov Today       Date:  2014-12-31       Impact factor: 7.851

Review 9.  Emerging Strategies of Cancer Therapy Based on Ferroptosis.

Authors:  Zheyu Shen; Jibin Song; Bryant C Yung; Zijian Zhou; Aiguo Wu; Xiaoyuan Chen
Journal:  Adv Mater       Date:  2018-01-22       Impact factor: 30.849

Review 10.  Applied Nanotoxicology.

Authors:  David W Hobson; Stephen M Roberts; Anna A Shvedova; David B Warheit; Georgia K Hinkley; Robin C Guy
Journal:  Int J Toxicol       Date:  2016 Jan-Feb       Impact factor: 2.032
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