Micro(nano)plastics as a vector of pharmaceuticals in aquatic ecosystem: Historical review and future trends

Micro(nano)plastics as a vector of pharmaceuticals in aquatic ecosystem: Historical review and future trends

•MP/NPs combined with pharmaceuticals have high toxicity.•Aged MP/NPs show greater adsorption of pharmaceuticals.•Hydrophobic drugs have higher adsorption on MP/NPs.•Mixture toxicity of MP/NPs and pharmaceuticals on aquatic organisms. Pharmaceuticals can be adsorbed by microplastics (MPs) and nanopl...

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Bibliographic Details
Published in:Journal of hazardous materials advances Vol. 6; p. 100068
Main Authors: Souza, Andreza Martins de, Santos, Andressa Liberal, Araújo, Danielle Silva, Magalhães, Rosana Rodrigues de Barros, Rocha, Thiago Lopes
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2022
Subjects:
Ecotoxicology
Interactive effects
Mixture toxicity
Plastics
CTR
KCZ
PS
FRS
CLO
Aht
STZ
Ayp
SDZ
DXC
POM
AZI
MPs
VSR
SMR
FCZ
NCT
SMX
SER
GFB
ERT
POPs
FLO
CFN
FLU
ASA
SVT
ABS
Abt
CFX
CFZ
Ask
IBU
USA
FEN
TC
Acs
ACT
Atf
PAC
PCPs
WWTP
TIL
ATN
Plastics
Adb
MTF
5-FU
ATR
TAM
4MBC
ETR
MTN
Drt
Adp
PRP
PEPP
EE2
Interactive effects
TRS
PRX
AML
Ecotoxicology
AMP
DCF
AMT
VFX
LSR
AMX
NOR
PCN
ROX
Ang
MET
Anp
Afg
FXT
PLA
TCS
Ans
ENR
EPps
NPX
CBZ
Mixture toxicity
Cci
NAD
NIL
NPs
CCP
PA
PMM
CTC
PE
TMP
CLA
VAC
CTL
Apl
LEV
PVC
PET
OTC
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Description
Summary:•MP/NPs combined with pharmaceuticals have high toxicity.•Aged MP/NPs show greater adsorption of pharmaceuticals.•Hydrophobic drugs have higher adsorption on MP/NPs.•Mixture toxicity of MP/NPs and pharmaceuticals on aquatic organisms. Pharmaceuticals can be adsorbed by microplastics (MPs) and nanoplastics (NPs) in the aquatic environment. The interaction between these emerging pollutants can induce several effects on environmental and human health. Thus, the current study aimed to summarize and discuss the literature on the interactions and ecotoxicity of MP/NPs with pharmaceuticals in the aquatic environment. A scientometric and systematic review was conducted, and the data were summarized and discussed. The historical analysis indicated that the first article on the interactive effects between MP/NPs and pharmaceuticals was published in 2016. Scientific production is emerging in fourteen countries. Several types of MP/NPs (n = 13) and pharmaceuticals (n = 65) were studied, while the toxicity was evaluated in 30 articles (37.04 %). The interaction of MP/NPs with several pharmaceutical groups was confirmed, mainly antibiotics. In general, results confirmed the Trojan horse effects and indicated that MP/NPs changed the bioaccumulation and ecotoxicity of pharmaceuticals. The data reviewed demonstrated that future studies under environmentally relevant conditions are necessary for a better understanding of the mechanisms of action and toxicity of pharmaceuticals adsorbed to MP/NPs, especially mixtures with NPs. This study confirms that MP/NPs can alter the bioaccumulation and ecotoxicity of pharmaceuticals in aquatic organisms, indicating their potential toxicological risk. Graphical Abstract [Display omitted] .
ISSN:2772-4166
2772-4166
DOI:10.1016/j.hazadv.2022.100068