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Polylactide-Based Materials: Synthesis and Biomedical Applications
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This reprint focuses on PLA-based materials and the modification of their properties for biomedical applications. Special emphasis is placed on the supramolecular strategies that lead to unique structures in the micro- or nanoscale. The development and testing of novel biomaterials as drug delivery carriers, implants, or tissue engineering scaffolds are of particular interest. Special attention is given to understanding the structure–properties relationship, since this allows for the development of the most effective biocompatible materials.
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Keywords
- ammonium polyphosphate
- anoikis
- anticancer agent
- Biocompatibility
- biodegradable materials
- biodegradable polymers
- Biodegradation
- Biology, Life Sciences
- biomaterial
- Biomaterials
- biomedical and environmental applications
- Biomedical applications
- block copolymers
- Bone Regeneration
- chemical modification
- cochlear implant
- compatibilization
- composite scaffold
- composites
- controlled release
- copolymers
- crosslinking
- crosslinking in situ
- crystallinity
- Crystallization
- cyclodextrin
- diclofenac
- Drug delivery
- drug delivery system
- Drug delivery systems
- dual drug delivery
- electron-beam
- electrospinning
- fibrillar nuclei
- flame retardancy
- functionalized polymers
- Gamma Rays
- glass fibres
- graft copolymers
- guide tissue engineering
- hybrid network
- impedance measurements
- irradiation
- Leishmania major
- lesion swelling
- linear ladder-like poly(silsesquioxane)
- lung cancer
- Mathematics & science
- Mechanical properties
- metastasis
- MWCNT
- n/a
- Nanoparticles
- paclitaxel resistance
- parasite’ challenge
- PCL
- PHBV
- photo-crosslinking
- PLA nanoparticles
- PLA-based materials
- plasticization
- PLLA
- PLLA coating
- poly(ethylene glycol)
- poly(L-lactide)
- poly(lactic acid)
- poly(lactide)
- polyester biomaterials
- polyesters
- polylactic acid
- polylactic acid (PLA) nanofibers
- polylactide
- polylactide nonwovens
- polylactide-based materials
- polymer
- polymer blends
- reactive blending
- recombinant histone H2B
- Reference, information & interdisciplinary subjects
- reinforced fibers
- Research & information: general
- scanning electron microscopy
- self-assembly
- sesbania gum
- shear-induced crystallization
- silylated PLA
- soft tissues regeneration
- spiral ganglion neuron
- star poly(L-lactide)
- starch
- stereocomplex
- supramolecular interactions
- vaccine adjuvant
- zirconium ceramic
Links
DOI: 10.3390/books978-3-0365-6641-2Editions