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Literature DB >> 16292880

In vivo biodistribution of dendrimers and dendrimer nanocomposites -- implications for cancer imaging and therapy.

Mohamed K Khan¹, Shraddha S Nigavekar, Leah D Minc, Muhammed S T Kariapper, Bindu M Nair, Wojciech G Lesniak, Lajos P Balogh.

Abstract

Our results indicate that the surface chemistry, composition, and 3-D structure of nanoparticles are critical in determining their in vivo biodistribution, and therefore the efficacy of nanodevice imaging and therapies. We demonstrate that gold/dendrimer nanocomposites in vivo, present biodistribution characteristics different from PAMAM dendrimers in a B16 mouse tumor model system. We review important chemical and biologic uses of these nanodevices and discuss the potential of nanocomposite devices to greatly improve cancer imaging and therapy, in particular radiation therapy. We also discuss major issues confronting the use of nanoparticles in the near future, with consideration of toxicity analysis and whether biodegradable devices are needed or even desirable.

Entities: Disease Species

Mesh：

Substances：
Dendrimers
Polyamines

Year: 2005 PMID： 16292880 DOI： 10.1177/153303460500400604

Source DB: PubMed Journal: Technol Cancer Res Treat ISSN： 1533-0338

Keyword Cloud
Cited

19 in total

1. Physiologically based pharmacokinetic model for composite nanodevices: effect of charge and size on in vivo disposition.

Authors: Donald E Mager; Vidhi Mody; Chao Xu; Alan Forrest; Wojciech G Lesniak; Shraddha S Nigavekar; Muhammed T Kariapper; Leah Minc; Mohamed K Khan; Lajos P Balogh
Journal: Pharm Res Date: 2012-06-12 Impact factor: 4.200

Review 2. Designing dendrimers for drug delivery and imaging: pharmacokinetic considerations.

Authors: Wassana Wijagkanalan; Shigeru Kawakami; Mitsuru Hashida
Journal: Pharm Res Date: 2010-12-23 Impact factor: 4.200

3. Effect of mannose targeting of hydroxyl PAMAM dendrimers on cellular and organ biodistribution in a neonatal brain injury model.

Authors: Anjali Sharma; Joshua E Porterfield; Elizabeth Smith; Rishi Sharma; Sujatha Kannan; Rangaramanujam M Kannan
Journal: J Control Release Date: 2018-06-05 Impact factor: 9.776

Review 4. Rational chemical design of the next generation of molecular imaging probes based on physics and biology: mixing modalities, colors and signals.

Authors: Hisataka Kobayashi; Michelle R Longmire; Mikako Ogawa; Peter L Choyke
Journal: Chem Soc Rev Date: 2011-05-23 Impact factor: 54.564

5. Biodistribution of fluorescently labeled PAMAM dendrimers in neonatal rabbits: effect of neuroinflammation.

Authors: Wojciech G Lesniak; Manoj K Mishra; Amar Jyoti; Bindu Balakrishnan; Fan Zhang; Elizabeth Nance; Roberto Romero; Sujatha Kannan; Rangaramanujam M Kannan
Journal: Mol Pharm Date: 2013-10-30 Impact factor: 4.939

6. Ion-ion correlation, solvent excluded volume and pH effects on physicochemical properties of spherical oxide nanoparticles.

Authors: Zaven Ovanesyan; Amal Aljzmi; Manal Almusaynid; Asrar Khan; Esteban Valderrama; Kelly L Nash; Marcelo Marucho
Journal: J Colloid Interface Sci Date: 2015-10-08 Impact factor: 8.128

In vivo biodistribution of dendrimers and dendrimer nanocomposites -- implications for cancer imaging and therapy.

1. Physiologically based pharmacokinetic model for composite nanodevices: effect of charge and size on in vivo disposition.

Review 2. Designing dendrimers for drug delivery and imaging: pharmacokinetic considerations.

3. Effect of mannose targeting of hydroxyl PAMAM dendrimers on cellular and organ biodistribution in a neonatal brain injury model.

Review 4. Rational chemical design of the next generation of molecular imaging probes based on physics and biology: mixing modalities, colors and signals.

5. Biodistribution of fluorescently labeled PAMAM dendrimers in neonatal rabbits: effect of neuroinflammation.

6. Ion-ion correlation, solvent excluded volume and pH effects on physicochemical properties of spherical oxide nanoparticles.

7. Copper-64 Radiopharmaceuticals for Oncologic Imaging.

8. Intrinsic targeting of inflammatory cells in the brain by polyamidoamine dendrimers upon subarachnoid administration.

Review 9. Engineering nanomedicines for improved melanoma therapy: progress and promises.

10. Tissue- and organ-selective biodistribution of NIR fluorescent quantum dots.