Polymers for Biomedical Modeling
A special issue of Polymers (ISSN 2073-4360). This special issue belongs to the section "Polymer Physics and Theory".
Deadline for manuscript submissions: closed (15 March 2021) | Viewed by 11286
Special Issue Editors
Interests: design, development, and applications of polymeric materials for biomedical, cosmetic, and food applications; renewable and sustainable polymers; microbial polyesters; marine polysaccharides; antimicrobial polymeric nanostructures; stimuli-responsive polymers and hydrogels; nanoparticles and nanogels; micro–nanostructured 3D polymeric scaffolds for regenerative medicine applications; 3D tumor models
Interests: physical–chemical modification, processing, and characterization of polymeric materials for advanced applications; biodegradable polymers for biomedical applications; additive manufacturing of polymeric materials; multiscale polymeric scaffolds; electrospun nanofibers; microstructured hydrogels; mechanical properties of polymeric materials
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Special Issue Information
Dear Colleagues,
Efforts on physically reproducing human anatomical sites and the complexity of biological systems have evolved from three-dimensional (3D) models for anatomical study, surgical training, and preoperative planning, to in vitro modeling for research on tissue physiology, cancer treatment, and drug screening, as well as to the development of custom-made implants. In particular, the experimental evidence that 3D culture environments result in cells’ morphological and functional characteristics that set them apart from monolayer culture has triggered research on polymeric scaffolds for biomedical modeling. A successful application field is represented by cancer cells grown in 3D which tend to form proliferative masses or aggregates not detected in monolayer cultures, resulting in different metabolic characteristics, gene expression profiles, and sensitivity to drug-induced apoptosis. In addition, recent advances on humanized tumor tissue models in animals and integrated organ-on-a-chip research are providing sophisticated tools for developing heterogeneous environments mimicking at different length scales what is observed in native tissues.
In this context, polymers designed for modeling hard (e.g., aliphatic polyesters) and soft tissues (e.g., proteins and polysaccharides) are increasingly investigated by the scientific community in combination with advanced material processing approaches (e.g., electrospinning and additive manufacturing). Polyamides and photosensitive acrylic resins for surgery simulation models, composites based on poly(ε-caprolactone) or poly(l-lactide) for bone tissue remodeling, and bioprinted hydrogels based on fibrin, gelatin or alginate for biomimicking cartilaginous or vascular environments are only a few examples among the wide range of polymeric materials that have been investigated in this field.
The aim of this Special Issue is to highlight the progress on the synthesis, chemical modification, bio-functionalization, processing and characterization of polymeric materials designed for biomedical modeling and their possible combination with cells and other biologics, to precisely recapitulate tissue anatomy, biology, and/or physiology.
Prof. Federica Chiellini
Dr. Dario Puppi
Guest Editors
Manuscript Submission Information
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Keywords
- Tissue modeling
- Aliphatic polyesters
- Natural polymers
- Polymeric scaffolds
- Bioprinting
- Additive manufacturing
- Organ-on-a-chip
- Humanized xenografts
- Tissue engineering
- Customized implants
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