Paper
Poly[(amino acid ester)phosphazenes] as substrates for the controlled release of small molecules.
Published Jun 1, 1994 · H. Allcock, S. Pucher, Angelo G. Scopelianos
Biomaterials
Q1 SJR score
93
Citations
1
Influential Citations
Abstract
Abstract hidden due to publisher request; this does not indicate any issues with the research. Click the full text link above to read the abstract and view the original source.
Highly CitedStudy Snapshot
Poly[(amino acid ester) phosphazenes] show potential as drug delivery vehicles due to their hydrolytic decomposition and controlled release of small molecules.
PopulationOlder adults (50-71 years)
Sample size24
MethodsObservational
OutcomesBody Mass Index projections
ResultsSocial networks mitigate obesity in older groups.
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References
Specific Interactions and Contact Angle Measurements on Polymer Solids
Contact angle data on polymer solids is affected by specific interactions between solids and contacting liquids, with initial and equilibrium values determined through local solvation or plasticization.
1992·14citations·H. Schreiber·Journal of Adhesion
Journal of Adhesion
Use of porous biodegradable polymer implants in meniscus reconstruction. 2) Biological evaluation of porous biodegradable polymer implants in menisci
Porous biodegradable polymer implants can effectively aid in meniscus reconstruction in dogs, with the right pore size and PLLA fiber reinforcement enhancing healing.
1990·60citations·H. Elema et al.·Colloid and Polymer Science
Colloid and Polymer Science
The formation of propylene fumarate oligomers for use in bioerodible bone cement composites
Propylene fumarate oligomers can be used in bioerodible bone cement composites, with their compressive strength influenced by both the degree of polymerization and the nature of their end groups.
1990·36citations·A. Domb et al.·Journal of Polymer Science Part A
Journal of Polymer Science Part A
Amphiphilic polyphosphazenes as membrane materials: influence of side group on radiation cross-linking.
Amphiphilic polyphosphazenes show potential as membrane materials for biomedical research due to their radiation-induced cross-linking and semipermeability properties.
1988·28citations·H. Allcock et al.·Biomaterials
Biomaterials
Controlled release using a new bioerodible polyphosphazene matrix system.
A novel bioerodible polyphosphazene matrix system offers versatile controlled drug delivery for macro-molecules and low molecular weight drugs, with potential for biomedical applications.
1987·106citations·C. Laurencin et al.·Journal of biomedical materials research
Journal of biomedical materials research
Citations
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Polyphosphazene-based layer-by-layer polymer coatings show promise for biomedical applications due to their biocompatibility, tunability of chemical composition, and buffering capability of degradation products.
2024·1citation·Jordan Brito et al.·Journal of Functional Biomaterials
Journal of Functional Biomaterials
Biodegradable polyphosphazene – hydroxyapatite composites for bone tissue engineering
Polyphosphazene/hydroxyapatite composites show promising mechanical, biocompatibility, bioactivity, and biodegradability properties for functional bone regeneration in bone tissue engineering.
2023·9citations·A. Subash et al.·International Journal of Polymeric Materials and Polymeric Biomaterials
International Journal of Polymeric Materials and Polymeric Biomaterials
Phosphorus and Silicon-Based Macromolecules as Degradable Biomedical Polymers.
Incorporating silicon and phosphorus into synthetic polymers can lead to biodegradable materials with potential for biomedical applications.
2023·5citations·Stephan Haudum et al.·Macromolecular bioscience
Macromolecular bioscience
Cyclo- and Polyphosphazenes for Biomedical Applications
Cyclo- and polyphosphazenes offer potential biomedical applications as antimicrobial agents, immunoadjuvants, and cancer treatments due to their versatile properties and ability to form nanoparticles and scaffolds for cell proliferation.
2022·12citations·G. Casella et al.·Molecules
Molecules