Silver nanoparticle fate in mammals: Bridging in vitro and in vivo studies

[Display omitted] •The increasing use of Ag nanoparticles is raising safety concerns for Human.•AgNPs are subject to various transformations before and after absorption in mammals.•A gap exists between in vitro and in vivo studies leading to discrepancies.•Cutting-edge imaging methods and speciation...

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Published inCoordination chemistry reviews Vol. 364; pp. 118 - 136
Main Authors Marchioni, Marianne, Jouneau, Pierre-Henri, Chevallet, Mireille, Michaud-Soret, Isabelle, Deniaud, Aurélien
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2018
Elsevier
Subjects
Cellular imaging
Chemical Sciences
Chloride
Coordination chemistry
Electron microscopy
Material chemistry
Silver nanoparticles
Silver speciation
Sulfur
XANES
IgG
PVP
XAS
XRF
EFSA
BSA
Chloride
CSE
NLS
PDI
SPR
AgNP
EDX
EMSD
AgNM
Cys
Sulfur
GSH
Silver nanoparticles
SP-ICP-MS
Silver speciation
3MPS
MT
Cellular imaging
Ksp
Electron microscopy
AF4
SOD1
STEM
Ctr1
FIB-SEM
GIT
SERS
MTF1
SIM
ROS
Ag2S
Pen
JRC
GCLM
TEM
PCR
CRM
Online AccessGet full text
ISSN0010-8545
1873-3840
0010-8545
DOI10.1016/j.ccr.2018.03.008

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Abstract [Display omitted] •The increasing use of Ag nanoparticles is raising safety concerns for Human.•AgNPs are subject to various transformations before and after absorption in mammals.•A gap exists between in vitro and in vivo studies leading to discrepancies.•Cutting-edge imaging methods and speciation analysis provide clues for in vivo study. Silver nanoparticles (AgNPs) are exponentially used in various consumer products including medical devices. This production leads to an increasing human exposure to silver in different forms. Indeed, AgNPs are subject to various transformations in aqueous aerobic conditions that trigger the production of Ag(I) species. The main environmental transformation produces the non-toxic species silver sulfide. Transformations occurring in mammals are more diverse and mainly depend on the interaction of AgNPs with thiol, chloride and proteins. Any of these species have a different impact on AgNPs and induces AgNP dissolution into Ag(I) species, aggregation and/or stabilization. The transformations occurring also depend on the exposure route. The main one is dietary but medical exposure is also growing with the massive use of nanosilver as biocide in medical devices. For the former, AgNP modifications and Ag distribution has been extensively studied using in vitro and in vivo models, while data related to medical use of nanosilver are scarce. However, most of the in vitro and in vivo data often remain inconsistent. In this review, we describe both in vitro, in cellulo and in vivo data about AgNP transformations, silver speciation and biodistribution. We try to reconcile all these data and describe the latest methods for the future studies of AgNP fate in mammals.
AbstractList Silver nanoparticles (AgNPs) are exponentially used in various consumer products including medical devices. This production leads to an increasing human exposure to silver in different forms. Indeed, AgNPs are subject to various transformations in aqueous aerobic conditions that trigger the production of Ag(I) species. The main environmental transformation produces the non-toxic species silver sulfide. Transformations occurring in mammals are more diverse and mainly depend on the interaction of AgNPs with thiol, chloride and proteins. Any of these species have a different impact on AgNPs and induces AgNP dissolution into Ag(I) species, aggregation and/or stabilization. The transformations occurring also depend on the exposure route. The main one is dietary but medical exposure is also growing with the massive use of nanosilver as biocide in medical devices. For the former, AgNP modifications and Ag distribution has been extensively studied using in vitro and in vivo models, while data related to medical use of nanosilver are scarce. However, most of the in vitro and in vivo data often remain inconsistent. In this review, we describe both in vitro, in cellulo and in vivo data about AgNP transformations, silver speciation and biodistribution. We try to reconcile all these data and describe the latest methods for the future studies of AgNP fate in mammals.
[Display omitted] •The increasing use of Ag nanoparticles is raising safety concerns for Human.•AgNPs are subject to various transformations before and after absorption in mammals.•A gap exists between in vitro and in vivo studies leading to discrepancies.•Cutting-edge imaging methods and speciation analysis provide clues for in vivo study. Silver nanoparticles (AgNPs) are exponentially used in various consumer products including medical devices. This production leads to an increasing human exposure to silver in different forms. Indeed, AgNPs are subject to various transformations in aqueous aerobic conditions that trigger the production of Ag(I) species. The main environmental transformation produces the non-toxic species silver sulfide. Transformations occurring in mammals are more diverse and mainly depend on the interaction of AgNPs with thiol, chloride and proteins. Any of these species have a different impact on AgNPs and induces AgNP dissolution into Ag(I) species, aggregation and/or stabilization. The transformations occurring also depend on the exposure route. The main one is dietary but medical exposure is also growing with the massive use of nanosilver as biocide in medical devices. For the former, AgNP modifications and Ag distribution has been extensively studied using in vitro and in vivo models, while data related to medical use of nanosilver are scarce. However, most of the in vitro and in vivo data often remain inconsistent. In this review, we describe both in vitro, in cellulo and in vivo data about AgNP transformations, silver speciation and biodistribution. We try to reconcile all these data and describe the latest methods for the future studies of AgNP fate in mammals.
Author Deniaud, Aurélien
Jouneau, Pierre-Henri
Michaud-Soret, Isabelle
Chevallet, Mireille
Marchioni, Marianne
Author_xml – sequence: 1
  givenname: Marianne
  orcidid: 0000-0001-9862-3617
  surname: Marchioni
  fullname: Marchioni, Marianne
  organization: Univ. Grenoble Alpes, CNRS, CEA, BIG, CBM, F-38000 Grenoble, France
– sequence: 2
  givenname: Pierre-Henri
  orcidid: 0000-0002-7893-8723
  surname: Jouneau
  fullname: Jouneau, Pierre-Henri
  organization: Univ. Grenoble Alpes, CEA, INAC-MEM, 38000 Grenoble, France
– sequence: 3
  givenname: Mireille
  surname: Chevallet
  fullname: Chevallet, Mireille
  organization: Univ. Grenoble Alpes, CNRS, CEA, BIG, CBM, F-38000 Grenoble, France
– sequence: 4
  givenname: Isabelle
  orcidid: 0000-0003-0350-4901
  surname: Michaud-Soret
  fullname: Michaud-Soret, Isabelle
  organization: Univ. Grenoble Alpes, CNRS, CEA, BIG, CBM, F-38000 Grenoble, France
– sequence: 5
  givenname: Aurélien
  surname: Deniaud
  fullname: Deniaud, Aurélien
  email: aurelien.deniaud@cea.fr
  organization: Univ. Grenoble Alpes, CNRS, CEA, BIG, CBM, F-38000 Grenoble, France
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Keywords XANES
IgG
PVP
XAS
XRF
EFSA
BSA
Chloride
CSE
NLS
PDI
SPR
AgNP
EDX
EMSD
AgNM
Cys
Sulfur
GSH
Silver nanoparticles
SP-ICP-MS
Silver speciation
3MPS
MT
Cellular imaging
Ksp
Electron microscopy
AF4
SOD1
STEM
Ctr1
FIB-SEM
GIT
SERS
MTF1
SIM
ROS
Ag2S
Pen
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TEM
PCR
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Snippet [Display omitted] •The increasing use of Ag nanoparticles is raising safety concerns for Human.•AgNPs are subject to various transformations before and after...
Silver nanoparticles (AgNPs) are exponentially used in various consumer products including medical devices. This production leads to an increasing human...
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SubjectTerms Cellular imaging
Chemical Sciences
Chloride
Coordination chemistry
Electron microscopy
Material chemistry
Silver nanoparticles
Silver speciation
Sulfur
Title Silver nanoparticle fate in mammals: Bridging in vitro and in vivo studies
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