Evaluating the cytotoxicity and pathogenicity of multi-walled carbon nanotube through weighted gene co-expression network analysis: a nanotoxicogenomics study

Salih, Shameran Jamal; Ghobadi, Mohadeseh Zarei

doi:10.1186/s12863-022-01031-3

Cited by 11 publications

(5 citation statements)

References 78 publications

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“…Neurons were found to be able to form tight contacts between the proximal and distal compartments and showed increased synaptic frequencies when grown on carbon-derived substrates [ 111 , 112 , 113 ]. On the other hand, neurons have also shown increased cytotoxicity due to the oxidative stress caused by carbon nanotubes and graphene [ 114 , 115 , 116 ]. In murine models, carbon-derived materials have also triggered inflammation, fibrosis, lung cancer, fetal malformations, and DNA damage.…”

Section: Main Requirements For Scaffolds For Brain Tissue Engineeringmentioning

confidence: 99%

Toward a New Generation of Bio-Scaffolds for Neural Tissue Engineering: Challenges and Perspectives

Villanueva-Flores,

Garcia-Atutxa,

Santos

et al. 2023

Pharmaceutics

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Neural tissue engineering presents a compelling technological breakthrough in restoring brain function, holding immense promise. However, the quest to develop implantable scaffolds for neural culture that fulfill all necessary criteria poses a remarkable challenge for material science. These materials must possess a host of desirable characteristics, including support for cellular survival, proliferation, and neuronal migration and the minimization of inflammatory responses. Moreover, they should facilitate electrochemical cell communication, display mechanical properties akin to the brain, emulate the intricate architecture of the extracellular matrix, and ideally allow the controlled release of substances. This comprehensive review delves into the primary requisites, limitations, and prospective avenues for scaffold design in brain tissue engineering. By offering a panoramic overview, our work aims to serve as an essential resource, guiding the creation of materials endowed with bio-mimetic properties, ultimately revolutionizing the treatment of neurological disorders by developing brain-implantable scaffolds.

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Section: Main Requirements For Scaffolds For Brain Tissue Engineeringmentioning

confidence: 99%

Toward a New Generation of Bio-Scaffolds for Neural Tissue Engineering: Challenges and Perspectives

Villanueva-Flores,

Garcia-Atutxa,

Santos

et al. 2023

Pharmaceutics

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“…Researchers have expressed concerns about the potential risks associated with long, rigid CNTs compared to more flexible or “tangled” CNTs, which tend to be thinner [ 149 , 151 ]. To mitigate these risks, some studies have investigated ways to make CNTs more hydrophilic, which reduces bundling and aggregation [ 152 , 153 ]. This, in turn, decreases the effective length of the aggregate structure and reduces the likelihood of pathogenicity or carcinogenicity [ 154 , 155 ].…”

Section: Human Health Risks and Safety Pattern Of Carbon Nanostructuresmentioning

confidence: 99%

Advanced Theranostic Strategies for Viral Hepatitis Using Carbon Nanostructures

et al. 2023

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There are several treatment protocols for acute viral hepatitis, and it is critical to recognize acute hepatitis in its earliest stages. Public health measures to control these infections also rely on rapid and accurate diagnosis. The diagnosis of viral hepatitis remains expensive, and there is no adequate public health infrastructure, while the virus is not well-controlled. New methods for screening and detecting viral hepatitis through nanotechnology are being developed. Nanotechnology significantly reduces the cost of screening. In this review, the potential of three-dimensional-nanostructured carbon substances as promising materials due to fewer side effects, and the contribution of these particles to effective tissue transfer in the treatment and diagnosis of hepatitis due to the importance of rapid diagnosis for successful treatment, were extensively investigated. In recent years, three-dimensional carbon nanomaterials such as graphene oxide and nanotubes with special chemical, electrical, and optical properties have been used for the diagnosis and treatment of hepatitis due to their high potential. We expect that the future position of nanoparticles in the rapid diagnosis and treatment of viral hepatitis can be better determined.

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“…To determine differentially expressed genes between each ATLL subtype and the AC samples, the Limma package in R environment programming was employed [25]. Benjamini-Hochberg FDR adjusted p-values < 0.05 and logFC = |5| were chosen as the criteria for exploring the remarkable DEGs.…”

Section: Identification Of Differentially Expressed Genes (Degs)mentioning

confidence: 99%

Exploration of mRNAs and miRNA classifiers for various ATLL cancer subtypes using machine learning

2022

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Background Adult T-cell Leukemia/Lymphoma (ATLL) is a cancer disease that is developed due to the infection by human T-cell leukemia virus type 1. It can be classified into four main subtypes including, acute, chronic, smoldering, and lymphoma. Despite the clinical manifestations, there are no reliable diagnostic biomarkers for the classification of these subtypes. Methods Herein, we employed a machine learning approach, namely, Support Vector Machine-Recursive Feature Elimination with Cross-Validation (SVM-RFECV) to classify the different ATLL subtypes from Asymptomatic Carriers (ACs). The expression values of multiple mRNAs and miRNAs were used as the features. Afterward, the reliable miRNA-mRNA interactions for each subtype were identified through exploring the experimentally validated-target genes of miRNAs. Results The results revealed that miR-21 and its interactions with DAAM1 and E2F2 in acute, SMAD7 in chronic, MYEF2 and PARP1 in smoldering subtypes could significantly classify the diverse subtypes. Conclusions Considering the high accuracy of the constructed model, the identified mRNAs and miRNA are proposed as the potential therapeutic targets and the prognostic biomarkers for various ATLL subtypes.

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Evaluating the cytotoxicity and pathogenicity of multi-walled carbon nanotube through weighted gene co-expression network analysis: a nanotoxicogenomics study

Cited by 11 publications

References 78 publications

Toward a New Generation of Bio-Scaffolds for Neural Tissue Engineering: Challenges and Perspectives

Toward a New Generation of Bio-Scaffolds for Neural Tissue Engineering: Challenges and Perspectives

Advanced Theranostic Strategies for Viral Hepatitis Using Carbon Nanostructures

Exploration of mRNAs and miRNA classifiers for various ATLL cancer subtypes using machine learning

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