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Literature DB >> 24219800

In vivo applications of magnetic nanoparticle hyperthermia.

Abstract

Hyperthermia is considered to be a promising tool for the treatment of tumours. Intensive research activities reveal a distinct impact not only on the cellular level but also on tumour physiology which favours the combination with the classical oncologic modalities radio- and chemotherapy. Different techniques have been established so far. Among them, magnetic hyperthermia exploits the intrinsic magnetic properties of iron oxide nanoparticles (magnetite and maghemite) which induce heating during the exposure to an alternating magnetic field. Beyond the advantage that heating is generated within the tumour and not from outside the body, the amounts of magnetic material and their intratumoral distribution patterns are key factors determining the therapeutic outcome. They can be influenced by the use of different application routes, which will be discussed in this paper.

Entities: Chemical Disease

Mesh：

Year: 2013 PMID： 24219800 DOI： 10.3109/02656736.2013.832815

Source DB: PubMed Journal: Int J Hyperthermia ISSN： 0265-6736 Impact factor: 3.914

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Cited

19 in total

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Review 3. Radiosensitizing properties of magnetic hyperthermia mediated by superparamagnetic iron oxide nanoparticles (SPIONs) on human cutaneous melanoma cell lines.

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4. Biocompatible Nanoclusters with High Heating Efficiency for Systemically Delivered Magnetic Hyperthermia.

Authors: Hassan A Albarqi; Leon H Wong; Canan Schumann; Fahad Y Sabei; Tetiana Korzun; Xiaoning Li; Mikkel N Hansen; Pallavi Dhagat; Abraham S Moses; Olena Taratula; Oleh Taratula
Journal: ACS Nano Date: 2019-05-17 Impact factor: 15.881

5. Targeted Nanoparticles with High Heating Efficiency for the Treatment of Endometriosis with Systemically Delivered Magnetic Hyperthermia.

Authors: Youngrong Park; Ananiya A Demessie; Addie Luo; Olena R Taratula; Abraham S Moses; Peter Do; Leonardo Campos; Younes Jahangiri; Cory R Wyatt; Hassan A Albarqi; Khashayar Farsad; Ov D Slayden; Oleh Taratula
Journal: Small Date: 2022-04-17 Impact factor: 15.153

6. Fate of cerium dioxide nanoparticles in endothelial cells: exocytosis.

Authors: Claudia Strobel; Hartmut Oehring; Rudolf Herrmann; Martin Förster; Armin Reller; Ingrid Hilger
Journal: J Nanopart Res Date: 2015-05-05 Impact factor: 2.253

7. Efficient treatment of breast cancer xenografts with multifunctionalized iron oxide nanoparticles combining magnetic hyperthermia and anti-cancer drug delivery.

Authors: Susanne Kossatz; Julia Grandke; Pierre Couleaud; Alfonso Latorre; Antonio Aires; Kieran Crosbie-Staunton; Robert Ludwig; Heidi Dähring; Volker Ettelt; Ana Lazaro-Carrillo; Macarena Calero; Maha Sader; José Courty; Yuri Volkov; Adriele Prina-Mello; Angeles Villanueva; Álvaro Somoza; Aitziber L Cortajarena; Rodolfo Miranda; Ingrid Hilger
Journal: Breast Cancer Res Date: 2015-05-13 Impact factor: 6.466

8. Antibody-mediated targeting of iron oxide nanoparticles to the folate receptor alpha increases tumor cell association in vitro and in vivo.

Authors: Christian Ndong; Seiko Toraya-Brown; Katsiaryna Kekalo; Ian Baker; Tillman U Gerngross; Steven N Fiering; Karl E Griswold
Journal: Int J Nanomedicine Date: 2015-04-01

9. Heat-stimuli-enhanced osteogenesis using clinically available biomaterials.

Authors: Takehiro Ota; Yoshihiro Nishida; Kunihiro Ikuta; Ryuji Kato; Eiji Kozawa; Shunsuke Hamada; Tomohisa Sakai; Naoki Ishiguro
Journal: PLoS One Date: 2017-07-18 Impact factor: 3.240

Review 10. Recommendations for In Vitro and In Vivo Testing of Magnetic Nanoparticle Hyperthermia Combined with Radiation Therapy.

Authors: Spiridon V Spirou; Sofia A Costa Lima; Penelope Bouziotis; Sanja Vranješ-Djurić; Eleni Κ Efthimiadou; Anna Laurenzana; Ana Isabel Barbosa; Ignacio Garcia-Alonso; Carlton Jones; Drina Jankovic; Oliviero L Gobbo
Journal: Nanomaterials (Basel) Date: 2018-05-06 Impact factor: 5.076