Project: Fundamental understandings and development of a novel plasma biofunctionalized 3D-printed/electrospun scaffold for synergetic vascularization and regeneration of spinal cord hemisection
2019-10-01 – 2022-09-30
- Abstract
More than half a century has passed since the first attempts to repair the devastating spinal cord injuries (SCI). To date, no satisfying clinical outcome is achieved given the defect complexity hampering regeneration. Current tissue engineering strategies promoting nerve growth only show weak neurological recovery. This project launches therefore a novel combinatorial approach through the design of a scaffold synergistically targeting topographical and chemical cues overcoming all SCI aspects. A biodegradable bi-component implant, made of aligned nanofibers guiding nerve regeneration and a porous 3D scaffold enhancing blood vessel formation will be developed. Innovative biochemical gradient surface treatments will be applied to each component via non-thermal plasma technology. For the first time, fiber size and orientation gradients will complement the chemical gradients to further enhance cell behavior and guide regeneration over long distances. Cells supporting nerves together with blood-vessel cells will be co-cultured on the implant to improve spinal cord recovery surpassing the current state-of-the-art. Thanks to the candidate’s knowledge in neurobiology, biofabrication, surface modification and cell work, several fundamental insights on advanced tissue engineering will be gained. If successful, this superior scaffold can lead to a breakthrough in SCI treatment and can be extrapolated to treat other severe tissue defects making this project high risk/very high gain.
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Advanced hollow cathode discharge plasma treatment of unique bilayered fibrous nerve guidance conduits for enhanced/oriented neurite outgrowth
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- Journal Article
- A1
- open access
Unraveling exclusive in-plasma initiated oxidation processes occurring at polymeric surfaces upon O2 admixtures to medium pressure Ar and N2 DBD treatments
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- Journal Article
- A1
- open access
Combined effects of direct plasma exposure and pre-plasma functionalized metal-doped graphene oxide nanoparticles on wastewater dye degradation
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- Journal Article
- A1
- open access
Polylactic acid/polyaniline nanofibers subjected to pre- and post-electrospinning plasma treatments for refined scaffold-based nerve tissue engineering applications
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- Journal Article
- A1
- open access
Comparative study of the aging behavior of plasma activated hexamethyldisiloxane-based plasma polymers and silicone elastomer thin films
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- Journal Article
- A1
- open access
Multifaceted polymeric nerve guidance conduits with distinctive double-layered architecture and plasma-induced inner chemistry gradient for the repair of critical-sized defects
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- Journal Article
- A1
- open access
Comparison of the surface properties and cytocompatibility between plasma activated and homogeneously polydopamine-coated PCL nanofibers as a result of a pre-plasma activation step
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- Journal Article
- A1
- open access
Comparison of the physicochemical properties and aging behavior of two different APTES-derived plasma polymer-based coatings
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Atmospheric pressure plasma jet treatment of PLA/PAni solutions : enhanced morphology, improved yield of electrospun nanofibers and concomitant doping behaviour
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- Journal Article
- A1
- open access
Combinatorial effects of non-thermal plasma oxidation processes and photocatalytic activity on the inactivation of bacteria and degradation of toxic compounds in wastewater