Dosimetry Effects Due to the Presence of Fe Nanoparticles for Potential Combination of Hyperthermic Cancer Treatment with MRI-Based Image-Guided Radiotherapy

Gayol, Amiel; Malano, Francisco; Montenovo, Clara Ribo; Pérez, Pedro; Valente, M.

doi:10.3390/ijms24010514

Cited by 5 publications

(3 citation statements)

References 91 publications

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“…This therapeutic approach enhances clinical outcomes and lessens the toxic effects of standard therapies. From a therapeutic perspective, it is not possible for it to be used as a therapeutic technique and must be paired with radiation and/or chemotherapy ( Gayol et al, 2023 ). Nanotechnology advancements have made it possible to create novel hyperthermic agents, such as nanoparticles, which can intensify the impacts of hyperthermia by absorbing heat from outside sources.…”

Section: Nanomedicine (Nm) For Hnscc Therapymentioning

confidence: 99%

Pharmacological impact of microRNAs in head and neck squamous cell carcinoma: Prevailing insights on molecular pathways, diagnosis, and nanomedicine treatment

Bhattacharjee¹,

Syeda

Rynjah³

et al. 2023

Front. Pharmacol.

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Head and neck squamous cell carcinoma is a disease that most commonly produce tumours from the lining of the epithelial cells of the lips, larynx, nasopharynx, mouth, or oro-pharynx. It is one of the most deadly forms of cancer. About one to two percent of all neo-plasm-related deaths are attributed to head and neck squamous cell carcinoma, which is responsible for about six percent of all cancers. MicroRNAs play a critical role in cell proliferation, differentiation, tumorigenesis, stress response, triggering apoptosis, and other physiological process. MicroRNAs regulate gene expression and provide new diagnostic, prognostic, and therapeutic options for head and neck squamous cell carcinoma. In this work, the role of molecular signaling pathways related to head and neck squamous cell carcinoma is emphasized. We also provide an overview of MicroRNA downregulation and overexpression and its role as a diagnostic and prognostic marker in head and neck squamous cell carcinoma. In recent years, MicroRNA nano-based therapies for head and neck squamous cell carcinoma have been explored. In addition, nanotechnology-based alternatives have been discussed as a promising strategy in exploring therapeutic paradigms aimed at improving the efficacy of conventional cytotoxic chemotherapeutic agents against head and neck squamous cell carcinoma and attenuating their cytotoxicity. This article also provides information on ongoing and recently completed clinical trials for therapies based on nanotechnology.

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Section: Nanomedicine (Nm) For Hnscc Therapymentioning

confidence: 99%

Pharmacological impact of microRNAs in head and neck squamous cell carcinoma: Prevailing insights on molecular pathways, diagnosis, and nanomedicine treatment

Bhattacharjee¹,

Syeda

Rynjah³

et al. 2023

Front. Pharmacol.

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“…The majority of research studies involve only in vitro or in vivo experiments. The most significant limitation of electrospun magnetic nanofibers is that they are still in the early stages of development to detect cancer cells [268][269][270][271][272]. Nevertheless, the magnetic properties of electrospun magnetic nanofiber mats depend on the morphological structure of the nanofiber mats, such as the number and distribution of magnetic particles, aggregation or agglomeration, or the formation of beads of magnetic nanomaterials inside the nanostructure and the formation of electrospun magnetic nanofiber mats.…”

Section: Challenges and Future Research Prospectivementioning

confidence: 99%

Electrospun Magnetic Nanofiber Mats for Magnetic Hyperthermia in Cancer Treatment Applications—Technology, Mechanism, and Materials

Mamun

Sabantina

2023

Polymers

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The number of cancer patients is rapidly increasing worldwide. Among the leading causes of human death, cancer can be regarded as one of the major threats to humans. Although many new cancer treatment procedures such as chemotherapy, radiotherapy, and surgical methods are nowadays being developed and used for testing purposes, results show limited efficiency and high toxicity, even if they have the potential to damage cancer cells in the process. In contrast, magnetic hyperthermia is a field that originated from the use of magnetic nanomaterials, which, due to their magnetic properties and other characteristics, are used in many clinical trials as one of the solutions for cancer treatment. Magnetic nanomaterials can increase the temperature of nanoparticles located in tumor tissue by applying an alternating magnetic field. A very simple, inexpensive, and environmentally friendly method is the fabrication of various types of functional nanostructures by adding magnetic additives to the spinning solution in the electrospinning process, which can overcome the limitations of this challenging treatment process. Here, we review recently developed electrospun magnetic nanofiber mats and magnetic nanomaterials that support magnetic hyperthermia therapy, targeted drug delivery, diagnostic and therapeutic tools, and techniques for cancer treatment.

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“…[33][34][35][36] Monte Carlo simulations are a valuable tool to simulate the behavior of complex systems, such as the interaction between ionizing radiation and materials that are commonly used in cancer therapy. [37][38][39][40] We can accurately predict the radial dose distributions around nanoparticles, which may provide valuable insights into the physical means of the combination of nanoparticles with ionizing radiation.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Effect of Ferroptosis‐Inducing Nanoparticles and X‐Ray Irradiation Combination Therapy

Bae,

Hernández Millares,

Ryu

et al. 2024

Small

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Ferroptosis, characterized by the induction of cell death via lipid peroxidation, has been actively studied over the last few years and has shown the potential to improve the efficacy of cancer nanomedicine in an iron‐dependent manner. Radiation therapy, a common treatment method, has limitations as a stand‐alone treatment due to radiation resistance and safety as it affects even normal tissues. Although ferroptosis‐inducing drugs help alleviate radiation resistance, there are no safe ferroptosis‐inducing drugs that can be considered for clinical application and are still in the research stage. Here, the effectiveness of combined treatment with radiotherapy with Fe and hyaluronic acid‐based nanoparticles (FHA‐NPs) to directly induce ferroptosis, considering the clinical applications is reported. Through the induction of ferroptosis by FHA‐NPs and apoptosis by X‐ray irradiation, the therapeutic efficiency of cancer is greatly improved both in vitro and in vivo. In addition, Monte Carlo simulations are performed to assess the physical interactions of the X‐rays with the iron‐oxide nanoparticle. The study provides a deeper understanding of the synergistic effect of ferroptosis and X‐ray irradiation combination therapy. Furthermore, the study can serve as a valuable reference for elucidating the role and mechanisms of ferroptosis in radiation therapy.

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Dosimetry Effects Due to the Presence of Fe Nanoparticles for Potential Combination of Hyperthermic Cancer Treatment with MRI-Based Image-Guided Radiotherapy

Cited by 5 publications

References 91 publications

Pharmacological impact of microRNAs in head and neck squamous cell carcinoma: Prevailing insights on molecular pathways, diagnosis, and nanomedicine treatment

Pharmacological impact of microRNAs in head and neck squamous cell carcinoma: Prevailing insights on molecular pathways, diagnosis, and nanomedicine treatment

Electrospun Magnetic Nanofiber Mats for Magnetic Hyperthermia in Cancer Treatment Applications—Technology, Mechanism, and Materials

Synergistic Effect of Ferroptosis‐Inducing Nanoparticles and X‐Ray Irradiation Combination Therapy

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