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Analysis of institutional authors

Lazaro, MAuthor

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June 4, 2025
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The importance of cell uptake in photothermal treatments mediated by biomimetic magnetic nanoparticles

Publicated to: COLLOIDS AND SURFACES B-BIOINTERFACES. 234 113722- - 2024-02-01 234(), DOI: 10.1016/j.colsurfb.2023.113722

Authors:

Lazaro, M; Lupianez, P; Sola-Leyva, A; Pozo-Gualda, T; Oltolina, F; Jimenez-Carretero, M; Jimenez-Lopez, C; Carrasco-Jimenez, M P; Iglesias, G R
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Affiliations

Fac Sci, Dept Biochem & Mol Biol 1, Granada 18071, Spain - Author
Fac Sci, Dept Microbiol, Granada 18071, Spain - Author
Univ Granada, Dept Appl Phys, NanoMag Lab, Inst Invest Biosanit, Edificio 1 Josefina Castro,Ave Madrid,28, Granada 18012, Spain - Author
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Abstract

Biomimetic magnetic nanoparticles (BMNPs) mediated by MamC have proven to be photothermal agents able to allow an optimized cytotoxicity against tumoral cells when used simultaneously as drug nanotransporters and as hyperthermia agents. However, it remains unclear whether BMNPs need to be internalized by the cells and/or if there is a threshold for internal Fe concentration for the photothermal therapy to be effective. In this study, three different situations for photothermal treatments have been simulated to disentangle the effect of BMNPs cell uptake on cell viability after photothermal treatments. Human hepatoblastoma (HepG2) cell line was treated with suspensions of BMNPs, and protocols were developed to have only intracellular BMNPs, only extracellular BMNPs or both, followed by photothermal exposure of the treated cell cultures. Our data demonstrate that: (1) Although the heating efficiency of the photothermal agent is not altered by its location (intra/extracellular), the intracellular location of BMNPs is crucial to ensure the cytotoxic effect of photothermal treatments, especially at low Fe concentration. In fact, the concentration of BMNPs needed to reach the same cytotoxic effect following upon laser irradiation of 0.2 W/cm(2) is three times larger if BMNPs are located extracellularly compared to that needed if BMNPs are located intracellularly; (2) For a given location of the BMNPs, cell death increases with BMNPs (or Fe) concentration. When BMNPs are located intracellularly, there is a threshold for Fe concentration (similar to 0.5 mM at laser power intensities of 0.1 W/cm(2)) needed to affect cell viability following upon cell exposure to photothermia. (3) Bulk temperature rise is not the only factor accounting for cell death. Actually, temperature increases inside the cells cause more damage to cell structures and trigger cell death more efficiently than an increase in the temperature outside the cell.
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Keywords

Biomimetic magnetic nanoparticlesBiomimeticsBmnp cell uptakeCell line, tumorHumansHyperthermiaHyperthermia, inducedIron-oxide nanoparticlesLaser irradiationMagnetite nanoparticlesNanoparticlesNanotechnologNanotechnologyPhototherapyPhotothermiaTherap

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal COLLOIDS AND SURFACES B-BIOINTERFACES due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2024 there are still no calculated indicators, but in 2023, it was in position 7/79, thus managing to position itself as a Q1 (Primer Cuartil), in the category Biophysics. Notably, the journal is positioned above the 90th percentile.

Independientemente del impacto esperado determinado por el canal de difusión, es importante destacar el impacto real observado de la propia aportación.

Según las diferentes agencias de indexación, el número de citas acumuladas por esta publicación hasta la fecha 2026-04-09:

  • WoS: 4
  • Scopus: 4
  • Europe PMC: 1
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Impact and social visibility

From the perspective of influence or social adoption, and based on metrics associated with mentions and interactions provided by agencies specializing in calculating the so-called "Alternative or Social Metrics," we can highlight as of 2026-04-09:

  • The use of this contribution in bookmarks, code forks, additions to favorite lists for recurrent reading, as well as general views, indicates that someone is using the publication as a basis for their current work. This may be a notable indicator of future more formal and academic citations. This claim is supported by the result of the "Capture" indicator, which yields a total of: 9 (PlumX).
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Leadership analysis of institutional authors

This work has been carried out with international collaboration, specifically with researchers from: Granada.

There is a significant leadership presence as some of the institution’s authors appear as the first or last signer, detailed as follows: First Author (Lázaro Callejón, Marina) .

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Awards linked to the item

Financial support of this investigation by Ministerio de Economia y Competitividad (PID2019-109294RB-100 and PDC2021-121135.100), Instituto de Salud Carlos III (PI20-01658), FEDER/Junta de Andalucia- Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Spain (Grant No. P20_00346 and P20_00233) and Consejeria de Conocimiento, Investigacion y Universidad, Junta de Andalucia, Spain (Grants No B-BIO-432-UGR20, B-CTS-216-UGR20, A- FQM492-UGR20) are gratefully acknowledged. CJL thanks UCE- PP2016-05 and Biotechnology Institute (University of Granada). G.R.I and M.L thanks grant TED2021-131855BI00/Union Europea Next Generation EU/PRTR. European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 10106426 and F.O N degrees 754446 and UGR Research and Knowledge Transfer Found-Athenea3i. M.J.-C thanks FPU2021 grant (ref. FPU21_01529) from the Ministerio de Universidades (Spain)
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