2015
DOI: 10.1021/acsami.5b07621
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Surface Modification of PMMA to Improve Adhesion to Corneal Substitutes in a Synthetic Core–Skirt Keratoprosthesis

Abstract: Patients with advanced corneal disease do poorly with conventional corneal transplantation and require a keratoprosthesis (KPro) for visual rehabilitation. The most widely used KPro is constructed using poly(methyl methacrylate) (PMMA) in the central optical core and a donor cornea as skirt material. In many cases, poor adherence between the PMMA and the soft corneal tissue is responsible for device "extrusion" and bacterial infiltration. The interfacial adhesion between the tissue and the PMMA was therefore c… Show more

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Cited by 61 publications
(67 citation statements)
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“…Pristine PMMA ( Fig. 3A ) exhibited spectral regions around 1,080–1,202, 1,232–1,274, and 1,725/cm, which corresponded to the presence of C–O–C, C–O, and C=O stretching vibrations of the ester group, respectively [ 29 - 31 ]. Absorption bands corresponding to the –CH 2 twisting modes of PMMA appeared around 760–960/cm.…”
Section: Resultsmentioning
confidence: 99%
“…Pristine PMMA ( Fig. 3A ) exhibited spectral regions around 1,080–1,202, 1,232–1,274, and 1,725/cm, which corresponded to the presence of C–O–C, C–O, and C=O stretching vibrations of the ester group, respectively [ 29 - 31 ]. Absorption bands corresponding to the –CH 2 twisting modes of PMMA appeared around 760–960/cm.…”
Section: Resultsmentioning
confidence: 99%
“…The results clearly point out that with increase of PMMA content the intensity of vibrational modes of PMMA (bands located at 1656, 1595, 1228 and 1192 cm À1 ) also increases. Furthermore, the intense PMMA band cantered at 1722 cm À1 assigned to the C]O stretching vibrations 17,35 disappears in the spectra of GC-PMMA composites. Moreover, to see if spectral features of the composite surface vary from the bulk material the FTIR spectra from the powdered composites (pellets were grinded in an agate mortar) were additionally recorded.…”
Section: àmentioning
confidence: 96%
“…For instance, it is not biodegradable, the surface properties of PMMA are unfavourable for tissue adhesion and the tissues damage around cement surface due to thermal necrosis caused by PMMA polymerization and residual liquid monomer may also occur. [15][16][17] Several PMMA-bioceramic composites have been studied as alternatives to PMMA with objective to improve bioactivity and accelerate bone restoration. For instance, to improve the ller/ cement interface the b-tricalcium phosphate (b-TCP) has been encapsulated with poly(ethylene glycol) (PEG) and later incorporated to a poly(methyl methacrylate) bone cement.…”
Section: Introductionmentioning
confidence: 99%
“…Plasma treatment has several advantages: (a) modification of the top nanometer layer of the polymer without changing the bulk properties, (b) surface activation without generation of chemical wastes unlike wet-chemical methods, and (c) ability to obtain a variety of surface functional groups with different densities by varying the process parameters and working gases. A number of studies based on plasma treatment on PMMA has already been conducted, mainly to increase the surface free energy and hence improve the adhesive properties of the polymer [12][13][14]. Further studies on optimum process parameters, electrode configurations [15], process gas selection [16], and ageing [17] of plasma treatment for PMMA have been carried out.…”
Section: Introductionmentioning
confidence: 99%