The potential biomedical platforms based on the functionalized Gd@C82 nanomaterials

Gadolinium metallofullerene (Gd@C82), a novel star carbonaceous material, has allured considerable attention due to its attractive properties. Increasing evidence exhibits that functionalized Gd@C82 nanomaterials have great potential in various biomedical applications. Except for the earliest bioapp...

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Veröffentlicht in:	View (Beijing, China) China), 2020-03, Vol.1 (1), p.n/a
Hauptverfasser:	Li, Xue, Wang, Chunru
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Sprache:	eng
Schlagworte:	Antineoplastic activities Functionalized Gd@C82 nanomaterials Metabolic disease regulators MRI contrast agents Vascular disrupting agents
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description	Gadolinium metallofullerene (Gd@C82), a novel star carbonaceous material, has allured considerable attention due to its attractive properties. Increasing evidence exhibits that functionalized Gd@C82 nanomaterials have great potential in various biomedical applications. Except for the earliest bioapplication as the next‐generation of magnetic resonance imaging contrast agent, Gd@C82 nanomaterials perform excellent anti‐cancer activities. Functionalized Gd@C82 nanomaterials could inhibit tumor growth by suppressing tumor angiogenesis, cutting off the existing tumor vasculature under radiofrequency irradiation or modulating immune cells. In addition, Gd@C82 nanomaterials could be adjuvant agents to lower the toxicity of chemotherapeutic drugs and alleviate drug resistance. In particular, Gd@C82 nanomaterials are demonstrated to regulate glucose and lipid metabolism, presenting superior anti‐type 2 diabetes mellitus effects. With no detectable toxicity and pleiotropic biological effects, Gd@C82 nanomaterials could be promising biomedical platforms in the future. Functionalized Gd@C82 nanomaterials have been used in various biomedical fields, such as cancer diagnosis and treatment, glucose and lipid modulation, etc. With no detectable toxicity and pleiotropic biological effects, Gd@C82 nanomaterials could be promising biomedical platforms in clinical usein the future.
doi_str_mv	10.1002/viw2.7
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Increasing evidence exhibits that functionalized Gd@C82 nanomaterials have great potential in various biomedical applications. Except for the earliest bioapplication as the next‐generation of magnetic resonance imaging contrast agent, Gd@C82 nanomaterials perform excellent anti‐cancer activities. Functionalized Gd@C82 nanomaterials could inhibit tumor growth by suppressing tumor angiogenesis, cutting off the existing tumor vasculature under radiofrequency irradiation or modulating immune cells. In addition, Gd@C82 nanomaterials could be adjuvant agents to lower the toxicity of chemotherapeutic drugs and alleviate drug resistance. In particular, Gd@C82 nanomaterials are demonstrated to regulate glucose and lipid metabolism, presenting superior anti‐type 2 diabetes mellitus effects. With no detectable toxicity and pleiotropic biological effects, Gd@C82 nanomaterials could be promising biomedical platforms in the future. 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subjects	Antineoplastic activities Functionalized Gd@C82 nanomaterials Metabolic disease regulators MRI contrast agents Vascular disrupting agents
title	The potential biomedical platforms based on the functionalized Gd@C82 nanomaterials
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