Selenium Nanoparticles for Biomedical Applications: From Development and Characterization to Therapeutics

Cláudio Ferro; Helena F. Florindo; Hélder A. Santos

doi:10.1002/adhm.202100598

Selenium Nanoparticles for Biomedical Applications: From Development and Characterization to Therapeutics

Cláudio Ferro
, Helena F. Florindo^*
, Hélder A. Santos^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

362 Citations (Scopus)

308 Downloads (Pure)

Abstract

Selenium (Se) is an essential element to human health that can be obtained in nature through several sources. In the human body, it is incorporated into selenocysteine, an amino acid used to synthesize several selenoproteins, which have an active center usually dependent on the presence of Se. Although Se shows several beneficial properties in human health, it has also a narrow therapeutic window, and therefore the excessive intake of inorganic and organic Se-based compounds often leads to toxicity. Nanoparticles based on Se (SeNPs) are less toxic than inorganic and organic Se. They are both biocompatible and capable of effectively delivering combinations of payloads to specific cells following their functionalization with active targeting ligands. Herein, the main origin of Se intake, its role on the human body, and its primary biomedical applications are revised. Particular focus will be given to the main therapeutic targets that are explored for SeNPs in cancer therapies, discussing the different functionalization methodologies used to improve SeNPs stability, while enabling the extensive delivery of drug-loaded SeNP to tumor sites, thus avoiding off-target effects.

Original language	English
Article number	2100598
Number of pages	50
Journal	Advanced healthcare materials
Volume	10
Issue number	16
DOIs	https://doi.org/10.1002/adhm.202100598
Publication status	Published - 18-Aug-2021
Externally published	Yes

Keywords

116 Chemical sciences
318 Medical biotechnology
221 Nano-technology
3111 Biomedicine
biomedicine
cancer
reactive oxidative species
selenium nanoparticles
AMYLOID-BETA AGGREGATION
SELECTIVE CELLULAR UPTAKE
IN-VIVO SYNTHESIS
CANCER-CELLS
ANTICANCER EFFICACY
HYALURONIC-ACID
NANO-SELENIUM
PHYSICOCHEMICAL CHARACTERIZATION
SYNERGISTIC COMBINATION
ANTIBACTERIAL ACTIVITY

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@article{b3ed0494ca254b0b9e2588a7ca75651a,

title = "Selenium Nanoparticles for Biomedical Applications: From Development and Characterization to Therapeutics",

abstract = "Selenium (Se) is an essential element to human health that can be obtained in nature through several sources. In the human body, it is incorporated into selenocysteine, an amino acid used to synthesize several selenoproteins, which have an active center usually dependent on the presence of Se. Although Se shows several beneficial properties in human health, it has also a narrow therapeutic window, and therefore the excessive intake of inorganic and organic Se-based compounds often leads to toxicity. Nanoparticles based on Se (SeNPs) are less toxic than inorganic and organic Se. They are both biocompatible and capable of effectively delivering combinations of payloads to specific cells following their functionalization with active targeting ligands. Herein, the main origin of Se intake, its role on the human body, and its primary biomedical applications are revised. Particular focus will be given to the main therapeutic targets that are explored for SeNPs in cancer therapies, discussing the different functionalization methodologies used to improve SeNPs stability, while enabling the extensive delivery of drug-loaded SeNP to tumor sites, thus avoiding off-target effects.",

keywords = "116 Chemical sciences, 318 Medical biotechnology, 221 Nano-technology, 3111 Biomedicine, biomedicine, cancer, reactive oxidative species, selenium nanoparticles, AMYLOID-BETA AGGREGATION, SELECTIVE CELLULAR UPTAKE, IN-VIVO SYNTHESIS, CANCER-CELLS, ANTICANCER EFFICACY, HYALURONIC-ACID, NANO-SELENIUM, PHYSICOCHEMICAL CHARACTERIZATION, SYNERGISTIC COMBINATION, ANTIBACTERIAL ACTIVITY",

author = "Cl{\'a}udio Ferro and Florindo, \{Helena F.\} and Santos, \{H{\'e}lder A.\}",

note = "M1 - 2100598",

year = "2021",

month = aug,

day = "18",

doi = "10.1002/adhm.202100598",

language = "English",

volume = "10",

journal = "Advanced healthcare materials",

issn = "2192-2640",

publisher = "Wiley-Blackwell",

number = "16",

}

TY - JOUR

T1 - Selenium Nanoparticles for Biomedical Applications

T2 - From Development and Characterization to Therapeutics

AU - Ferro, Cláudio

AU - Florindo, Helena F.

AU - Santos, Hélder A.

N1 - M1 - 2100598

PY - 2021/8/18

Y1 - 2021/8/18

N2 - Selenium (Se) is an essential element to human health that can be obtained in nature through several sources. In the human body, it is incorporated into selenocysteine, an amino acid used to synthesize several selenoproteins, which have an active center usually dependent on the presence of Se. Although Se shows several beneficial properties in human health, it has also a narrow therapeutic window, and therefore the excessive intake of inorganic and organic Se-based compounds often leads to toxicity. Nanoparticles based on Se (SeNPs) are less toxic than inorganic and organic Se. They are both biocompatible and capable of effectively delivering combinations of payloads to specific cells following their functionalization with active targeting ligands. Herein, the main origin of Se intake, its role on the human body, and its primary biomedical applications are revised. Particular focus will be given to the main therapeutic targets that are explored for SeNPs in cancer therapies, discussing the different functionalization methodologies used to improve SeNPs stability, while enabling the extensive delivery of drug-loaded SeNP to tumor sites, thus avoiding off-target effects.

AB - Selenium (Se) is an essential element to human health that can be obtained in nature through several sources. In the human body, it is incorporated into selenocysteine, an amino acid used to synthesize several selenoproteins, which have an active center usually dependent on the presence of Se. Although Se shows several beneficial properties in human health, it has also a narrow therapeutic window, and therefore the excessive intake of inorganic and organic Se-based compounds often leads to toxicity. Nanoparticles based on Se (SeNPs) are less toxic than inorganic and organic Se. They are both biocompatible and capable of effectively delivering combinations of payloads to specific cells following their functionalization with active targeting ligands. Herein, the main origin of Se intake, its role on the human body, and its primary biomedical applications are revised. Particular focus will be given to the main therapeutic targets that are explored for SeNPs in cancer therapies, discussing the different functionalization methodologies used to improve SeNPs stability, while enabling the extensive delivery of drug-loaded SeNP to tumor sites, thus avoiding off-target effects.

KW - 116 Chemical sciences

KW - 318 Medical biotechnology

KW - 221 Nano-technology

KW - 3111 Biomedicine

KW - biomedicine

KW - cancer

KW - reactive oxidative species

KW - selenium nanoparticles

KW - AMYLOID-BETA AGGREGATION

KW - SELECTIVE CELLULAR UPTAKE

KW - IN-VIVO SYNTHESIS

KW - CANCER-CELLS

KW - ANTICANCER EFFICACY

KW - HYALURONIC-ACID

KW - NANO-SELENIUM

KW - PHYSICOCHEMICAL CHARACTERIZATION

KW - SYNERGISTIC COMBINATION

KW - ANTIBACTERIAL ACTIVITY

U2 - 10.1002/adhm.202100598

DO - 10.1002/adhm.202100598

M3 - Review article

SN - 2192-2640

VL - 10

JO - Advanced healthcare materials

JF - Advanced healthcare materials

IS - 16

M1 - 2100598

ER -

Selenium Nanoparticles for Biomedical Applications: From Development and Characterization to Therapeutics

Abstract

Keywords

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