@Article{NevesSiBrMaPaLo:2013:CaViBi,
author = "Neves, Marcele Florencio and Silva, Gislene Rodrigues da and
Brazil, Tayra Rodrigues and Marciano, Fernanda Roberta and
Pacheco-Soares, Cristina and Lobo, Anderson Oliveira",
affiliation = "{Universidade do Vale do Paraiba (UniVap)} and {Instituto Nacional
de Pesquisas Espaciais (INPE)} and {Universidade do Vale do
Paraiba (UniVap)} and {Universidade do Vale do Paraiba (UniVap)}
and {Universidade do Vale do Paraiba (UniVap)} and {Universidade
do Vale do Paraiba (UniVap)}",
title = "Calcification in vitro of biomineralizated
nanohydroxyapatite/superydrophilic vertically aligned multiwalled
carbon nanotube scaffolds",
journal = "Materials Research",
year = "2013",
volume = "16",
number = "3",
pages = "614--618",
keywords = "carbon nanotubes, hydroxyapatite, superhydrophilic, osteoblastic
cells, SBF, calcification.",
abstract = "Nanocomposites based on superhydrophilic vertically aligned
multi-walled carbon nanotubes (VAMWCNT-O2) and nanohydroxyapatite
(nHAp) are of great interest in bone regenerative medicine. The
biomineralization using simulated body fluid (SBF) has been
extensively studied to evaluate the bioactivity of biomaterials.
Thus, the combination of nHAp and VAMWCNT-O2 is attractive and
promising. The aim of this study was to evaluate the in vitro
calcification of nHAp/VAMWCNT-O2 nanocomposites before and after
the period of biomineralization in SBF. In vitro calcification of
the extracellular matrix (ECM) of HOB cells in culture after 24
hours was investigated through the assay of alkaline phosphatase.
These promising in vitro results validate biomineralized
nHAp/VAMWCNT-O2 as possible scaffolds for bone tissue
regeneration.",
doi = "10.1590/s1516-14392013005000029",
url = "http://dx.doi.org/10.1590/s1516-14392013005000029",
issn = "1516-1439",
label = "lattes: 2287604419235230 2 NevesSiBrMaPaLo:2013:CaViBi",
language = "en",
targetfile = "aop_1703-12.pdf",
urlaccessdate = "26 jan. 2021"
}