Potential applications and human biosafety of nanomaterials used in nanomedicine

Su, Hong; Gu, Yuanliang; Bowman, Linda; Zhao, Jinshun; Ding, Min

doi:10.1002/jat.3476

Cited by 121 publications

(77 citation statements)

References 264 publications

(240 reference statements)

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“…This highlights the versatility of a nanocrystal drug platform. Pharmacokinetic, biodistribution, and bioavailability data for organs involved in delivery routes tested using nanocrystal technology have been addressed at length previously . Specifically, the reviews of Lu et al 2016 and 2017 delve into the biodistribution pattern of nanocrystal drugs in the blood, heart, liver, spleen, lung, kidney, tumor, and thymus (i.e., the organs involved in clearance/circulation and host immune responses) …”

Section: Introductionmentioning

confidence: 99%

“…Pharmacokinetic, biodistribution, and bioavailability data for organs involved in delivery routes tested using nanocrystal technology have been addressed at length previously. 10,13,18,24,25,[29][30][31][32][33][34] Specifically, the reviews of Lu et al 2016 and 2017 delve into the biodistribution pattern of nanocrystal drugs in the blood, heart, liver, spleen, lung, kidney, tumor, and thymus (i.e., the organs involved in clearance/circulation and host immune responses). 24,35 Several articles have been published, discussing the techniques used to synthesize nanocrystal drugs; the type of stabilizers or surfactants involved; and the methods adopted for physicochemical and biological characterization.…”

Section: Introductionmentioning

confidence: 99%

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Nanocrystals: A perspective on translational research and clinical studies

Jarvis

Krishnan

Mitragotri

2018

Bioengineering & Transla Med

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Poorly soluble small molecules typically pose translational hurdles owing to their low solubility, low bioavailability, and formulation challenges. Nanocrystallization is a versatile method for salvaging poorly soluble drugs with the added benefit of a carrier‐free delivery system. In this review, we provide a comprehensive analysis of nanocrystals with emphasis on their clinical translation. Additionally, the review sheds light on clinically approved nanocrystal drug products as well as those in development.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Nanocrystals: A perspective on translational research and clinical studies

Jarvis

Krishnan

Mitragotri

2018

Bioengineering & Transla Med

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“…With the rapid development of nanotechnology, potential applications of nanomaterials in medicine have been researched widely in recent years. 1 Nanomaterials have developed rapidly, and traditional nanomaterials are now unable to meet the needs of some special industries or high technology. Multifunctional Janus nanoparticles (NPs) have become a hot spot in the research field of nanomaterials in recent years.…”

Section: Introductionmentioning

confidence: 99%

Biosafety evaluation of Janus Fe3O4-TiO2 nanoparticles in Sprague Dawley rats after intravenous injection

Song

Li³

et al. 2018

IJN

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IntroductionNewly synthesized Janus-structured Fe3O4-TiO2 nanoparticles (NPs) appear to be a promising candidate for the diagnosis and therapy of cancer. Although the toxicity of individual Fe3O4 or TiO2 NPs has been studied extensively, the toxicity of Janus Fe3O4-TiO2 NPs is not clear.MethodsIn this study, the biosafety of both Janus Fe3O4-TiO2 NPs (20–25 nm) and the maternal material TiO2 NPs (7–10 nm) were evaluated in Sprague Dawley rats after one intravenous injection into the tail vein. Healthy rats were randomly divided into one control group and six experimental groups. Thirty days after treatment, rats were killed, then blood and tissue samples were collected for hematological, biochemical, element-content, histopathological, and Western blot analysis.ResultsThe results show that only a slight Ti element accumulation in the heart, spleen, and liver could be found in the Janus Fe3O4-TiO2 NP groups (P>0.05 compared with control). However, significant Ti element accumulation in the spleen, lungs, and liver was found in the TiO2 NP-treated rats. Both Fe3O4-TiO2 NPs and TiO2 NPs could induce certain histopathological abnormalities. Western blot analysis showed that both NPs could induce certain apoptotic or inflammatory-related molecular protein upregulation in rat livers. A certain degree of alterations in liver function and electrolyte and lipid parameters was also observed in rats treated with both materials. However, compared to Janus structure Fe3O4-TiO2 NP-treated groups, TiO2 NPs at 30 mg/kg showed more severe adverse effects.ConclusionOur results showed that under a low dose (5 mg/kg), both NP types had no significant toxicity in rats. Janus NPs certainly seem less toxic than TiO2 NPs in rats at 30 mg/kg. To ensure safe use of these newly developed Janus NPs in cancer diagnosis and therapy, further animal studies are needed to evaluate long-term bioeffects.

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“…However, since most clinical research reports for nanomedicine products focus mainly on the therapeutic efficacy of drugs, human biosecurity information is limited. In order to evaluate the human biosafety of nanomedicine products in clinical studies, it has been reported that a standardized test battery should be developed, including all indices of blood chemistry, carcinogenic, teratogenic, mutagenic toxicities and immune, nervous and reproductive systems (12).…”

Section: Anahtar Kelimelermentioning

confidence: 99%

Nanomaterials and Their Effects on Health

Sarı¹,

Piyal²

2019

Istanbul Med J

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Introduction Nanotechnology, a rapidly growing science that integrates engineering with biology, chemistry, and physics, is regarded by scientists as the industrial revolution of the 21 st century (1). When the dimensions of solid material are reduced to nanometer (nm) dimensions, their physical and chemical properties change. In order to take advantage of these features, we still lack serious information about the health effects of nanomaterials (NMs), which have been increasing in production in recent years (2).

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Potential applications and human biosafety of nanomaterials used in nanomedicine

Cited by 121 publications

References 264 publications

Nanocrystals: A perspective on translational research and clinical studies

Nanocrystals: A perspective on translational research and clinical studies

Biosafety evaluation of Janus Fe<sub>3</sub>O<sub>4</sub>-TiO<sub>2</sub> nanoparticles in Sprague Dawley rats after intravenous injection

Nanomaterials and Their Effects on Health

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