Exploring Neuroprotection against Radiation-Induced Brain Injury: A Review of Key Compounds

Lucas González-Johnson; Ariel Fariña; Gonzalo Farías; Gustavo Zomosa; Víctor Pinilla-González; Catalina Rojas-Solé

doi:10.3390/neurosci5040034

Exploring Neuroprotection against Radiation-Induced Brain Injury: A Review of Key Compounds

Lucas González-Johnson
, Ariel Fariña
, Gonzalo Farías
, Gustavo Zomosa
, Víctor Pinilla-González
, Catalina Rojas-Solé

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Brain radiation is a crucial tool in neuro-oncology for enhancing local tumor control, but it can lead to mild-to-profound and progressive impairments in cognitive function. Radiation-induced brain injury is a significant adverse effect of radiotherapy for cranioencephalic tumors, primarily caused by indirect cellular damage through the formation of free radicals. This results in late neurotoxicity manifesting as cognitive impairment due to free radical production. The aim of this review is to highlight the role of different substances, such as drugs used in the clinical setting and antioxidants such as ascorbate, in reducing the neurotoxicity associated with radiation-induced brain injury. Currently, there is mainly preclinical and clinical evidence supporting the benefit of these interventions, representing a cost-effective and straightforward neuroprotective strategy.

Idioma original	Español (Chile)
Páginas (desde-hasta)	462-484
Número de páginas	23
Publicación	NeuroSci
Volumen	5
N.º	4
DOI	https://doi.org/10.3390/neurosci5040034
Estado	Publicada - dic. 2024

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10.3390/neurosci5040034

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https://www.mendeley.com/catalogue/182f4fc5-4ae7-3983-8cb0-0cd982b42ccb/

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abstract = "Brain radiation is a crucial tool in neuro-oncology for enhancing local tumor control, but it can lead to mild-to-profound and progressive impairments in cognitive function. Radiation-induced brain injury is a significant adverse effect of radiotherapy for cranioencephalic tumors, primarily caused by indirect cellular damage through the formation of free radicals. This results in late neurotoxicity manifesting as cognitive impairment due to free radical production. The aim of this review is to highlight the role of different substances, such as drugs used in the clinical setting and antioxidants such as ascorbate, in reducing the neurotoxicity associated with radiation-induced brain injury. Currently, there is mainly preclinical and clinical evidence supporting the benefit of these interventions, representing a cost-effective and straightforward neuroprotective strategy.",

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AU - Zomosa, Gustavo

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