Data di Pubblicazione:
2019
Abstract:
In this paper a novel procedure to produce rigid polymeric foams, with well interconnected open pores and with potential
application as scaffolds for tissue engineering, is presented. The materials were prepared starting from a precursor obtained by
melt blending a poly(L-lactic acid) (PLLA)/poly(caprolactone) (PCL) blend with a superabsorbent polymer (SAP), consisting of
crosslinked particles of sodium polyacrylate. Immersion in water allowed the SAP particles to swell and leach from the matrix,
giving rise to a foam structure, easily and safely obtained without the need of organic solvents or chemical foaming agents. The
achievement of a proper property profile and foamed structure was investigated through thermal, mechanical and morphological
analyses on the prepared systems, comparing properties and structure before and after SAP particles leaching. SEM analysis
evidenced the precursor structure formed by a PLLA matrix embedding PCL particles (average diameter: 6 μm) and SAP
particles (30-50 μm), and the achievement of a porous structure after water immersion. The effectiveness of the SAP particles
leaching was ensured by the weak particles-matrix adhesion, as suggested by mechanical tests. A preliminary biological
investigation showed that the chemical composition allowed good cell adhesion on neat and foamed PLA/PCL blends, and
highlighted the role of the interconnected porous morphology in significantly increasing cell proliferation.
application as scaffolds for tissue engineering, is presented. The materials were prepared starting from a precursor obtained by
melt blending a poly(L-lactic acid) (PLLA)/poly(caprolactone) (PCL) blend with a superabsorbent polymer (SAP), consisting of
crosslinked particles of sodium polyacrylate. Immersion in water allowed the SAP particles to swell and leach from the matrix,
giving rise to a foam structure, easily and safely obtained without the need of organic solvents or chemical foaming agents. The
achievement of a proper property profile and foamed structure was investigated through thermal, mechanical and morphological
analyses on the prepared systems, comparing properties and structure before and after SAP particles leaching. SEM analysis
evidenced the precursor structure formed by a PLLA matrix embedding PCL particles (average diameter: 6 μm) and SAP
particles (30-50 μm), and the achievement of a porous structure after water immersion. The effectiveness of the SAP particles
leaching was ensured by the weak particles-matrix adhesion, as suggested by mechanical tests. A preliminary biological
investigation showed that the chemical composition allowed good cell adhesion on neat and foamed PLA/PCL blends, and
highlighted the role of the interconnected porous morphology in significantly increasing cell proliferation.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
superabsorbent polymer, open-pore PLLA-based foams, biocomposites
Elenco autori:
Sartore, Luciana; Inverardi, Nicoletta; Pandini, Stefano; Bignotti, Fabio; Chiellini, Federica
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