Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy
Alternative cancer treatments such as photothermal therapy (PTT) and magnetic hyperthermia (MHT) techniques have been studied to show promising potential as supplementary modalities. However, such techniques have their own limitations; for instance, highly concentrated intratumoral injections of mag...
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sg-ntu-dr.10356-1714172023-10-24T05:50:49Z Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy Shen, Kaiming Yan, Yunfei Xue, Zongguo Wu, Shuo You, Jingxiang Li, Lixian Lew, Wen Siang School of Physical and Mathematical Sciences Science::Chemistry Functional Nanohybrids Photothermal Therapy Alternative cancer treatments such as photothermal therapy (PTT) and magnetic hyperthermia (MHT) techniques have been studied to show promising potential as supplementary modalities. However, such techniques have their own limitations; for instance, highly concentrated intratumoral injections of magnetic nanoparticles are required to compensate their low specific loss power under safe and low magnetic field intensity for the MHT, while the PTT has limitations in the treatment of deep-seated tumors due to low light penetration. Here, the decoration of the multi-walled carbon nanotube (MWCNT) surface by magnetic nanoparticles (≈8.5 nm) was achieved by a hydrothermal method and the development of MWCNT/Mn0.5Zn0.5Fe2O4 (MZFC) hybrids for magneto-photothermal dual-mode cancer therapy. The obtained specific loss power of the MZFC hybrids is found to be at least 1 order of magnitude higher, with improvement from ∼19 W/g to 225 W/g, under the excitation of both an AMF with a magnetic field intensity of 6.4 kA/m and a frequency of 300 kHz and a simultaneous NIR laser of 0.5 W/cm2 irradiation. The synergistic utilization of the photothermal and magnetic properties of MZFC effectively diminishes the required magnetic field amplitude and NIR laser power density. Our in vitro cell experiments confirmed that the thermal effects mediated by the MZFC after endocytosis delivered enhanced cytotoxicity in the presence of dual excitation of NIR laser and AMF. These findings indicate that MZFC nanohybrids possess significant potential as targeted nanoheating agents for hyperthermia applications. The authors gratefully acknowledge financial support from the Fundamental Research Funds for the Central Universities (2019CDYGYB022) and the Natural Science Foundation of Chongqing (cstc2021jcyj-msxmX0448). 2023-10-24T05:50:49Z 2023-10-24T05:50:49Z 2023 Journal Article Shen, K., Yan, Y., Xue, Z., Wu, S., You, J., Li, L. & Lew, W. S. (2023). Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy. ACS Applied Nano Material, 6(14), 13330-13341. https://dx.doi.org/10.1021/acsanm.3c01929 2574-0970 https://hdl.handle.net/10356/171417 10.1021/acsanm.3c01929 2-s2.0-85167340125 14 6 13330 13341 en ACS Applied Nano Material © 2023 American Chemical Society. All rights reserved. |
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Science::Chemistry Functional Nanohybrids Photothermal Therapy Shen, Kaiming Yan, Yunfei Xue, Zongguo Wu, Shuo You, Jingxiang Li, Lixian Lew, Wen Siang Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| description |
Alternative cancer treatments such as photothermal therapy (PTT) and magnetic hyperthermia (MHT) techniques have been studied to show promising potential as supplementary modalities. However, such techniques have their own limitations; for instance, highly concentrated intratumoral injections of magnetic nanoparticles are required to compensate their low specific loss power under safe and low magnetic field intensity for the MHT, while the PTT has limitations in the treatment of deep-seated tumors due to low light penetration. Here, the decoration of the multi-walled carbon nanotube (MWCNT) surface by magnetic nanoparticles (≈8.5 nm) was achieved by a hydrothermal method and the development of MWCNT/Mn0.5Zn0.5Fe2O4 (MZFC) hybrids for magneto-photothermal dual-mode cancer therapy. The obtained specific loss power of the MZFC hybrids is found to be at least 1 order of magnitude higher, with improvement from ∼19 W/g to 225 W/g, under the excitation of both an AMF with a magnetic field intensity of 6.4 kA/m and a frequency of 300 kHz and a simultaneous NIR laser of 0.5 W/cm2 irradiation. The synergistic utilization of the photothermal and magnetic properties of MZFC effectively diminishes the required magnetic field amplitude and NIR laser power density. Our in vitro cell experiments confirmed that the thermal effects mediated by the MZFC after endocytosis delivered enhanced cytotoxicity in the presence of dual excitation of NIR laser and AMF. These findings indicate that MZFC nanohybrids possess significant potential as targeted nanoheating agents for hyperthermia applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Shen, Kaiming Yan, Yunfei Xue, Zongguo Wu, Shuo You, Jingxiang Li, Lixian Lew, Wen Siang |
| format |
Article |
| author |
Shen, Kaiming Yan, Yunfei Xue, Zongguo Wu, Shuo You, Jingxiang Li, Lixian Lew, Wen Siang |
| author_sort |
Shen, Kaiming |
| title |
Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| title_short |
Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| title_full |
Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| title_fullStr |
Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| title_full_unstemmed |
Multiwalled carbon nanotubes decorated with Mn₀.₅Zn₀.₅Fe₂O₄ nanoparticles for magneto-photothermal cancer therapy |
| title_sort |
multiwalled carbon nanotubes decorated with mn₀.₅zn₀.₅fe₂o₄ nanoparticles for magneto-photothermal cancer therapy |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171417 |
| _version_ |
1781793713460084736 |