Hyaluronic acid hydrogels for biomedical applications.
TLDR
This progress report covers both basic concepts and recent advances in the development of HA‐based hydrogels for biomedical applications.Abstract:
Hyaluronic acid (HA), an immunoneutral polysaccharide that is ubiquitous in the human body, is crucial for many cellular and tissue functions and has been in clinical use for over thirty years. When chemically modified, HA can be transformed into many physical forms-viscoelastic solutions, soft or stiff hydrogels, electrospun fibers, non-woven meshes, macroporous and fibrillar sponges, flexible sheets, and nanoparticulate fluids-for use in a range of preclinical and clinical settings. Many of these forms are derived from the chemical crosslinking of pendant reactive groups by addition/condensation chemistry or by radical polymerization. Clinical products for cell therapy and regenerative medicine require crosslinking chemistry that is compatible with the encapsulation of cells and injection into tissues. Moreover, an injectable clinical biomaterial must meet marketing, regulatory, and financial constraints to provide affordable products that can be approved, deployed to the clinic, and used by physicians. Many HA-derived hydrogels meet these criteria, and can deliver cells and therapeutic agents for tissue repair and regeneration. This progress report covers both basic concepts and recent advances in the development of HA-based hydrogels for biomedical applications.read more
Citations
More filters
Journal ArticleDOI
Designing Cell-Compatible Hydrogels for Biomedical Applications
TL;DR: Hydrogels, which consist of highly water swollen cross-linked polymer networks, can now be made with a range of chemistries and a combination of physical and chemical cross-links, finding use in a wide range of applications, including tissue engineering and drug delivery.
Journal ArticleDOI
Overcoming the challenges in administering biopharmaceuticals: formulation and delivery strategies
TL;DR: Recent advances in formulation and delivery strategies, such as the use of microsphere-based controlled-release technologies, protein modification methods that make use of polyethylene glycol and other polymers, and genetic manipulation of biopharmaceutical drugs are highlighted and discussed.
Journal ArticleDOI
A practical guide to hydrogels for cell culture.
TL;DR: Hydrogels are introduced to those who may be unfamiliar with procedures to culture and study cells with these systems, with a particular focus on commercially available hydrogels.
Organ Printing: Tissue Spheroids as Building Blocks
Vladimir Mironov,Jing Zhang,Carmine Gentile,K Brakke,Thomas C. Trusk,Karoly Jakab,Gabor Forgacs,Vladimirs Kasjanovs,Richard P. Visconti,Roger R. Markwald +9 more
TL;DR: Organ printing can be defined as layer-by-layer additive robotic biofabrication of three-dimensional functional living macrotissues and organ constructs using tissue spheroids as building blocks.
Journal ArticleDOI
Three-Dimensional in Vitro Cell Culture Models in Drug Discovery and Drug Repositioning.
TL;DR: Common approaches to 3D culture are reviewed, the significance of 3D cultures in drug resistance and drug repositioning is discussed and some of the challenges of applying 3D cell cultures to high-throughput drug discovery are addressed.
References
More filters
Journal ArticleDOI
Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering
TL;DR: Although modern synthetic biomaterials represent oversimplified mimics of natural ECMs lacking the essential natural temporal and spatial complexity, a growing symbiosis of materials engineering and cell biology may ultimately result in synthetic materials that contain the necessary signals to recapitulate developmental processes in tissue- and organ-specific differentiation and morphogenesis.
Journal ArticleDOI
Hyaluronan: from extracellular glue to pericellular cue
TL;DR: This work highlights a key role for interactions between hyaluronan and tumour cells in several aspects of malignancy and indicates the possibility of new therapeutic strategies.
Journal ArticleDOI
Hyaluronan: its nature, distribution, functions and turnover
TL;DR: Hyaluronan’s nature, distribution, functions and turnover are studied in detail in a large sample of animals from around the world.
Journal ArticleDOI
Microscale technologies for tissue engineering and biology
TL;DR: An overview of the use of microfluidics, surface patterning, and patterned cocultures in regulating various aspects of cellular microenvironment is discussed, as well as the application of these technologies in directing cell fate and elucidating the underlying biology.
Journal ArticleDOI
Synthetic matrix metalloproteinase-sensitive hydrogels for the conduction of tissue regeneration: Engineering cell-invasion characteristics
Matthias P. Lutolf,Janelle L. Lauer-Fields,H. G. Schmoekel,H. G. Schmoekel,A. T. Metters,Franz E. Weber,Gregg B. Fields,Jeffrey A. Hubbell +7 more
TL;DR: Gels used to deliver recombinant human bone morphogenetic protein-2 to the site of critical defects in rat cranium were completely infiltrated by cells and remodeled into bony tissue within 4 wk at a dose of 5 μg per defect.
Related Papers (5)
Hydrogels for tissue engineering: scaffold design variables and applications.
Jeanie L. Drury,David J. Mooney +1 more