Hydrogels in Regenerative Medicine and Other Biomedical Applications

Hydrogels in Regenerative Medicine and Other Biomedical Applications

Great strides have been made in the area of hydrogel science since the first hydrogels were described in the 1960s. Hydrogels usually consist of three-dimensional matrices of hydrophilic polymers, held together by chemical or physical crosslinks, or supramolecular assemblies of small amphiphilic mol...

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Bibliographic Details
Other Authors: Jervis, Peter John (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Technology: general issues
Biotechnology
polyvinyl alcohol
cobalt-substituted hydroxyapatite
diabetic foot ulcers
hydrogels
antibacterial ability
chitosan
cellulose
hydrogel
wound dressings
burn wounds
diabetic wounds
chronic wounds
acute wounds
methacrylate glycol chitosan
beta-cyclodextrin
triclosan
antibacterial
tissue bio-adhesive
poly(2-hydroxyethyl methacrylate)
3D scaffold
RGDS
chronic lymphocytic leukemia
B cell survival
synthetic mimic of heparin
poly(sodium-4-styrenesulfonate)
myoblast
myogenic differentiation
fusion
focal adhesion kinase (FAK)
supramolecular
dehydrodipeptide
drug delivery
wound healing
cancer
smart materials
peptidomimetic
3d printing
PLCL
decellularization
angiogenesis
dECM hydrogel
adipose tissue regeneration
entrapment neuropathy
animal model
ultrasound
carpal tunnel syndrome
alginate
PNIPAM-based graft copolymers
thermo-responsive
shear-responsive
LCST adjustment
sol-gel transition
rheological properties
injectability
poly(vinyl alcohol)
decellularized cartilage matrix
bioprinting
thiol-ene cross-linking
sodium alginate
betamethasone
cartilage tissue engineering
testicular tissue transplantation
fertility preservation
VEGF
PDGF
vascular maturity
necrosis inhibitor
spermatogonia stem cells
nanoparticles
tissue engineering
functionalization
Chit-HVP
Chit-RGD
XPS
NEXAFS
h-osteoblasts
tunable lens
ultrasonic detection
deep detection
phononic crystal
PVA
marjoram oil
kaolin
hemostatic dressing
antibacterial and antioxidant wound dressing
human hair keratin
fibrinogen
injectable hydrogel
human gingival fibroblast
biomaterials
biocompatibility
in vitro model
hybrid hydrogel
extracellular matrix
microenvironment mimicking matrix
n/a
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Description
Summary:Great strides have been made in the area of hydrogel science since the first hydrogels were described in the 1960s. Hydrogels usually consist of three-dimensional matrices of hydrophilic polymers, held together by chemical or physical crosslinks, or supramolecular assemblies of small amphiphilic molecules. The gelation process occurs in response to a physical or chemical stimulus, such as temperature, pH, electric or magnetic field, enzymatic modification, light, and others. Consisting of mainly water molecules, they represent a unique class of materials, with many applications such as cell therapeutics, cartilage/bone regeneration, sustained drug release and drug delivery systems, tissue engineering, and 3D bioprinting. Despite these great strides, there is still much more to discover in this area. This Special Issue is focused on the use of hydrogels in tissue and bone regeneration. Hydrogels are particularly suited for this purpose as their physical characteristics resemble that of the extracellular matrix; as such, they have found applications as an extracellular medium for cancer cells, stem cells, and neuronal cells. This Special Issue also includes research papers on the other biomedical applications of hydrogels.
Physical Description:1 electronic resource (358 p.)
ISBN:books978-3-0365-7250-5
9783036572512
9783036572505
Access:Open Access

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