The possibility of tailoring membrane surfaces with osteoconductive potential, in particular in
biodegradable devices, to create modified biomaterials that stimulate osteoblast response …

New biomaterials for Guided Bone Regeneration (GBR), both resorbable and non-
resorbable, are being developed to stimulate bone tissue formation. Thus, the in vitro study …

(1) Background: The use of physical barriers to prevent the invasion of gingival and
connective tissue cells into bone cavities during the healing process is called guided bone …

Covalent immobilization of bioactive compounds onto modified poly lactic‐co‐glycolic acid
(PLGA) surfaces is being rapidly developed in tissue engineering, but the compounds and …

The novelty of this study is the addition of an ultrathin layer of nanostructured hydroxyapatite
(HA) on oxygen plasma modified poly (lactic–co–glycolic)(PLGA) membranes (PO2) in order …

Background The use of cold plasmas may improve the surface roughness of poly (lactic-co-
glycolic) acid (PLGA) membranes, which may stimulate the adhesion of osteogenic …

The main challenge of this research was to functionalize the surface of poly (L-lactide-co-
glycolide)(PLGA) membranes with amphiphilic poly (2-oxazoline)(POx) in order to change …

Barrier membranes for guided bone regeneration (GBR) were prepared by a solvent casting
method using solutions of poly (L-lactic acid)(PLLA) and chitosan. PLLA and PLLA/chitosan …

Biodegradable membranes, including Polylactic acid (PLA)-based membranes, are
commonly used in bone-tissue-related clinical procedures as biointerface to promote bone …

In this chapter we will conduct a focused review of the main types of resorbable biomaterials
like PLGA (polylactic-glycolic acid copolymer), and their surface modifications on the …