Alessandra Fabbro
Overview
Explore the profile of Alessandra Fabbro including associated specialties, affiliations and a list of published articles.
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18
Citations
634
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Recent Articles
1.
Usmani S, Aurand E, Medelin M, Fabbro A, Scaini D, Laishram J, et al.
Sci Adv
. 2016 Jul;
2(7):e1600087.
PMID: 27453939
In modern neuroscience, significant progress in developing structural scaffolds integrated with the brain is provided by the increasing use of nanomaterials. We show that a multiwalled carbon nanotube self-standing framework,...
2.
Rauti R, Lozano N, Leon V, Scaini D, Musto M, Rago I, et al.
ACS Nano
. 2016 Apr;
10(4):4459-71.
PMID: 27030936
Graphene offers promising advantages for biomedical applications. However, adoption of graphene technology in biomedicine also poses important challenges in terms of understanding cell responses, cellular uptake, or the intracellular fate...
3.
Fabbro A, Scaini D, Leon V, Vazquez E, Cellot G, Privitera G, et al.
ACS Nano
. 2015 Dec;
10(1):615-23.
PMID: 26700626
Neural-interfaces rely on the ability of electrodes to transduce stimuli into electrical patterns delivered to the brain. In addition to sensitivity to the stimuli, stability in the operating conditions and...
4.
Martinelli V, Cellot G, Fabbro A, Bosi S, Mestroni L, Ballerini L
Front Physiol
. 2013 Sep;
4:239.
PMID: 24027533
The application of nanotechnology to the cardiovascular system has increasingly caught scientists' attention as a potentially powerful tool for the development of new generation devices able to interface, repair, or...
5.
Fabbro A, Sucapane A, Toma F, Calura E, Rizzetto L, Carrieri C, et al.
PLoS One
. 2013 Aug;
8(8):e73621.
PMID: 23951361
In the last decade, carbon nanotube growth substrates have been used to investigate neurons and neuronal networks formation in vitro when guided by artificial nano-scaled cues. Besides, nanotube-based interfaces are...
6.
Fabbro A, Prato M, Ballerini L
Adv Drug Deliv Rev
. 2013 Jul;
65(15):2034-44.
PMID: 23856411
In the last decade, we have experienced an increasing interest and an improved understanding of the application of nanotechnology to the nervous system. The aim of such studies is that...
7.
Fabbro A, Bosi S, Ballerini L, Prato M
ACS Chem Neurosci
. 2012 Aug;
3(8):611-8.
PMID: 22896805
In the past decade, nanotechnology applications to the nervous system have often involved the study and the use of novel nanomaterials to improve the diagnosis and therapy of neurological diseases....
8.
Fabbro A, Villari A, Laishram J, Scaini D, Toma F, Turco A, et al.
ACS Nano
. 2012 Feb;
6(3):2041-55.
PMID: 22339712
New developments in nanotechnology are increasingly designed to modulate relevant interactions between nanomaterials and neurons, with the aim of exploiting the physical properties of synthetic materials to tune desired and...
9.
Fabbro A, Cellot G, Prato M, Ballerini L
Prog Brain Res
. 2011 Aug;
194:241-52.
PMID: 21867808
Carbon nanotubes (CNTs) are cylindrically shaped nanostructures made by sheets of graphene rolled up to form hollow tubes. Owing to their unique range of thermal, electronic, and structural properties, CNTs...
10.
Sibilla S, Fabbro A, Grandolfo M, DAndrea P, Nistri A, Ballerini L
Eur J Neurosci
. 2009 May;
29(8):1543-59.
PMID: 19419420
Embryonic spinal neurons maintained in organotypic slice culture are known to mimic certain maturation-dependent signalling changes. With such a model we investigated, in embryonic mouse spinal segments, the age-dependent spatio-temporal...