Investigation of the Dose-Enhancement Effects of Spherical and Rod-Shaped Gold Nanoparticles on the HeLa Cell Line

Amani, Samad; Mehdizadeh, Alireza; Movahedi, Mohammad Mehdi; Keshavarz, Marzieh; Koosha, Fereshteh

doi:10.31661/gmj.v9i0.1581

Cited by 6 publications

(6 citation statements)

References 44 publications

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“…The diffusion cell experiments performed with the porcine vaginal mucosa membrane using PET imaging revealed the kinetics of AuNP release from the hydrogel, their accumulation in the membrane, and permeation across it and into the AC. PET is ∼1000 times more sensitive than spectroscopic analytical techniques usually employed for diffusion cell measurements, and it allows a continuous acquisition of a signal for a period of several days. , Overall, the diffusion cell results demonstrated that a very large fraction (47%) of AuNPs accumulated in the membrane after 42 h. This is a very significant result since potential toxicity of AuNPs to the uterus and other healthy tissues should be considered at all steps in the development of future cervical cancer therapies. − The gradual liberation of AuNPs from the hydrogel, coupled to their very strong retention at the membrane site, is in agreement with the requirements of AuNP administration locally prior to photothermal and radiosensitization procedures.…”

Section: Discussionmentioning

confidence: 92%

“…Photothermal and brachytherapy applications are being developed for the treatment of cervical cancer that often require the topical administration of therapeutic nanoparticles. − In the PTT method, the absorption of light in the visible and near-infrared region by AuNPs leads to local heat generation, which induces damage to cancer cells . In radiotherapy, AuNPs could be used as additives to enhance the effects of radiation on cancer tissues. ,, Moreover, in combination with chemotherapeutics ( e.g.…”

Section: Discussionmentioning

confidence: 99%

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A Three-Dimensional Printable Hydrogel Formulation for the Local Delivery of Therapeutic Nanoparticles to Cervical Cancer

Kiseleva

Omar

Boisselier

et al. 2022

ACS Biomater. Sci. Eng.

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Cervical cancer is the fourth most common malignancy among women. Compared to other types of cancer, therapeutic agents can be administrated locally at the mucosal vaginal membrane. Thermosensitive gels have been developed over the years for contraception or for the treatment of bacterial, fungal, and sexually transmitted infections. These formulations often carry therapeutic nanoparticles and are now being considered in the arsenal of tools for oncology. They can also be three-dimensionally (3D) printed for a better geometrical adjustment to the anatomy of the patient, thus enhancing the local delivery treatment. In this study, a localized delivery system composed of a Pluronic F127-alginate hydrogel with efficient nanoparticle (NP) release properties was prepared for intravaginal application procedures. The kinetics of hydrogel degradation and its NP releasing properties were demonstrated with ultrasmall gold nanoparticles (∼80% of encapsulated AuNPs released in 48 h). The mucoadhesive properties of the hydrogel formulation were assayed by the periodic acid/Schiff reagent staining, which revealed that 19% of mucins were adsorbed on the gel’s surface. The hydrogel formulation was tested for cytocompatibility in three cell lines (HeLa, CRL 2616, and BT-474; no sign of cytotoxicity revealed). The release of AuNPs from the hydrogel and their accumulation in vaginal membranes were quantitatively measured in vitro/ex vivo with positron emission tomography, a highly sensitive modality allowing real-time imaging of nanoparticle diffusion (lag time to start of permeation of 3.3 h, 47% of AuNPs accumulated in the mucosa after 42 h). Finally, the potential of the AuNP-containing Pluronic F127-alginate hydrogel for 3D printing was demonstrated, and the geometrical precision of the 3D printed systems was measured by magnetic resonance imaging (<0.5 mm precision; deviation from the design values <2.5%). In summary, this study demonstrates the potential of Pluronic F127-alginate formulations for the topical administration of NP-releasing gels applied to vaginal wall therapy. This technology could open new possibilities for photothermal and radiosensitizing oncology applications.

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Section: Discussionmentioning

confidence: 92%

Section: Discussionmentioning

confidence: 99%

A Three-Dimensional Printable Hydrogel Formulation for the Local Delivery of Therapeutic Nanoparticles to Cervical Cancer

Kiseleva

Omar

Boisselier

et al. 2022

ACS Biomater. Sci. Eng.

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“…GNPs are very well known for their anticancer properties and tested on various cell lines and especially used on Hela cell lines to decrease their resistance to radiation because of their positive radiosensetizing properties 9 .…”

Section: Discussionmentioning

confidence: 99%

“…Nano-medicine was a new approach for a higher degree of efficacy in treating cancers with least possible side effects 9 . Gold nanoparticles (AuNPs) are considered one of the most dominant systems for many biological applications such as drug delivery and cancer treatment because of their ease in preparation, anti-inflammatory, antioxidant properties, biocompatibility and many possibilities of bio-conjugation 6 .…”

mentioning

confidence: 99%

An insight into synthesis and antitumor activity of citrate and gallate stabilizing gold nanospheres

Fathy

Elfiky

Bashandy

et al. 2023

Sci Rep

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Both gallic and citrate are well-established antioxidants that show promise as new selective anti-cancer drugs. Gold nanoparticles (AuNPs) as well can be developed as flexible and nontoxic nano-carriers for anti-cancer drugs. This article evaluating the efficiency and biocompatibility of gallic acid and citrate capping gold nanoparticles to be used as anti-cancer drug. The biosafety and therapeutic efficiency of prepared nano-formulations were tested on Hela and normal BHK cell line. Gold nanospheres coated with citrate and gallate were synthesized via wet chemical reduction method. The prepared nano-formulations, citrate and gallate coated gold nanospheres (Cit-AuNPs and Ga-AuNPs), were characterized with respect to their morphology, FTIR spectra, and physical properties. In addition, to assess their cytotoxicity, cell cycle arrest and flow cytometry to measure biological response were performed. Cit-Au NPs and Ga-Au NPs were shown to significantly reduce the viability of Hela cancer cells. Both G0/G cell cycle arrest and comet assay results showed that genotoxic effect was induced in Hela cells by Cit-Au NPs and Ga-Au NPs. The results of this study showed that Cit-Au NPs and Ga-AuNPs inhibit the growth of metastatic cervical cancer cells, which could have therapeutic implications.

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“…In a comparative study, Amani et al (2020) examined the dose enhancement effect of GNP and GNR on HeLa cells using 6 MV photons. They introduced three concentrations (5, 10, and 15 μg ml −1 ) of these two nanoparticle forms into the cell line and observed that the toxicity of GNRs in HeLa cells was significantly higher than that of GNPs.…”

Section: Introductionmentioning

confidence: 99%

A simulation study on the radiosensitization properties of gold nanorods

Taheri,

Khandaker,

Moradi

et al. 2024

Phys. Med. Biol.

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Objective: Gold nanorods (GNRs) have emerged as versatile nanoparticles with unique properties, holding promise in various modalities of cancer treatment through drug delivery and photothermal therapy. In the rapidly evolving field of nanoparticle radiosensitization (NPRS) for cancer therapy, this study assessed the potential of gold nanorods as radiosensitizing agents by quantifying the key features of NPRS, such as secondary electron emission and dose enhancement, using Monte Carlo simulations.Approach: Employing the TOPAS track structure code, we conducted a comprehensive evaluation of the radiosensitization behavior of spherical gold nanoparticles and gold nanorods. We systematically explored the impact of nanorod geometry (in particular size and aspect ratio) and orientation on secondary electron emission and deposited energy ratio, providing validated results against previously published simulations.Main Results: Our findings demonstrate that gold nanorods exhibit comparable secondary electron emission to their spherical counterparts. Notably, nanorods with smaller surface-area-to-volume ratios (SA:V) and alignment with the incident photon beam proved to be more efficient radiosensitizing agents, showing superiority in emitted electron fluence. However, in the microscale, the deposited energy ratio (DER) was not markedly influenced by the SA:V of the nanorod. Additionally, our findings revealed that the geometry of gold nanoparticles has a more significant impact on the emission of M-shell Auger electrons (with energies below 3.5 keV) than on higher-energy electrons.Significance: This research investigated the radiosensitization properties of gold nanorods, positioning them as promising alternatives to the more conventionally studied spherical gold nanoparticles in the context of cancer research. With increasing interest in multimodal cancer therapy, our findings have the potential to contribute valuable insights into the perspective of gold nanorods as effective multipurpose agents for synergistic photothermal therapy and radiotherapy. Future directions may involve exploring alternative metallic nanorods as well as further optimizing the geometry and coating materials, opening new possibilities for more effective cancer treatments.

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Investigation of the Dose-Enhancement Effects of Spherical and Rod-Shaped Gold Nanoparticles on the HeLa Cell Line

Cited by 6 publications

References 44 publications

A Three-Dimensional Printable Hydrogel Formulation for the Local Delivery of Therapeutic Nanoparticles to Cervical Cancer

A Three-Dimensional Printable Hydrogel Formulation for the Local Delivery of Therapeutic Nanoparticles to Cervical Cancer

An insight into synthesis and antitumor activity of citrate and gallate stabilizing gold nanospheres

A simulation study on the radiosensitization properties of gold nanorods

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