Polylactide-Based Materials: Synthesis and Biomedical Applications
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TextLanguage: English Publication details: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023Description: 1 online resource (376 p.)Content type: - text
- computer
- online resource
- 9783036561264
- 9783036566412
- books978-3-0365-6641-2
- Industrial chemistry and chemical engineering
- Technology: general issues
- ammonium polyphosphate
- anoikis
- anticancer agent
- biocompatibility
- biodegradable materials
- biodegradable polymers
- biodegradation
- 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
- 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
- reinforced fibers
- 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
Open Access Unrestricted online access star
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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