Carbon nanotubes (CNTs) are currently under active investigation for their use in several biomedical applications, especially in neurological diseases and nervous system injury due to their electrochemical properties. Nowadays, no CNT-based therapeutic products for internal use appear to be close to the market, due to the still limited knowledge on their fate after delivery to living organisms and, in particular, on their toxicological profile. The purpose of the present work was to address the distribution in the brain parenchyma of two intranasally delivered MWCNTs (MWCNTs 1 and a-MWCNTs 2), different from each other, the first being non electroconductive while the second results in being electroconductive. After intranasal delivery, the presence of CNTs was investigated in several brain areas, discriminating the specific cell types involved in the CNT uptake. We also aimed to verify the neuroprotective potential of the two types of CNTs, delivering them in rats affected by early diabetic encephalopathy and analysing the modulation of nerve growth factor metabolism and the effects of CNTs on the neuronal and glial phenotypes. Our findings showed that both CNT types, when intranasally delivered, reached numerous brain areas and, in particular, the limbic area that plays a crucial role in the development and progression of major neurodegenerative diseases. Furthermore, we demonstrated that electroconductive MWCNTs were able to exert neuroprotective effects through the modulation of a key neurotrophic factor and probably the improvement of neurodegeneration-related gliosis.

Soligo M., Felsani F.M., Da Ros T., Bosi S., Pellizzoni E., Bruni S., et al. (2021). Distribution in the brain and possible neuroprotective effects of intranasally delivered multi-walled carbon nanotubes. NANOSCALE ADVANCES, 3(2), 418-431 [10.1039/d0na00869a].

Distribution in the brain and possible neuroprotective effects of intranasally delivered multi-walled carbon nanotubes

Isopi J.;Marcaccio M.;
2021

Abstract

Carbon nanotubes (CNTs) are currently under active investigation for their use in several biomedical applications, especially in neurological diseases and nervous system injury due to their electrochemical properties. Nowadays, no CNT-based therapeutic products for internal use appear to be close to the market, due to the still limited knowledge on their fate after delivery to living organisms and, in particular, on their toxicological profile. The purpose of the present work was to address the distribution in the brain parenchyma of two intranasally delivered MWCNTs (MWCNTs 1 and a-MWCNTs 2), different from each other, the first being non electroconductive while the second results in being electroconductive. After intranasal delivery, the presence of CNTs was investigated in several brain areas, discriminating the specific cell types involved in the CNT uptake. We also aimed to verify the neuroprotective potential of the two types of CNTs, delivering them in rats affected by early diabetic encephalopathy and analysing the modulation of nerve growth factor metabolism and the effects of CNTs on the neuronal and glial phenotypes. Our findings showed that both CNT types, when intranasally delivered, reached numerous brain areas and, in particular, the limbic area that plays a crucial role in the development and progression of major neurodegenerative diseases. Furthermore, we demonstrated that electroconductive MWCNTs were able to exert neuroprotective effects through the modulation of a key neurotrophic factor and probably the improvement of neurodegeneration-related gliosis.
2021
Soligo M., Felsani F.M., Da Ros T., Bosi S., Pellizzoni E., Bruni S., et al. (2021). Distribution in the brain and possible neuroprotective effects of intranasally delivered multi-walled carbon nanotubes. NANOSCALE ADVANCES, 3(2), 418-431 [10.1039/d0na00869a].
Soligo M.; Felsani F.M.; Da Ros T.; Bosi S.; Pellizzoni E.; Bruni S.; Isopi J.; Marcaccio M.; Manni L.; Fiorito S.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/826140
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