Search Result
Results for "
bone tissue engineering scaffold
" in MedChemExpress (MCE) Product Catalog:
8
Biochemical Assay Reagents
| Cat. No. |
Product Name |
Target |
Research Areas |
Chemical Structure |
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- HY-W250313
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PLA
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Biochemical Assay Reagents
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Others
Cancer
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Polylactic acid (PLA) is a biodegradable and biocompatible polymer widely used as a carrier for drug delivery systems and a structural material for tissue engineering and medical implants. Polylactic acid acts as a controlled release matrix through the hydrolysis mechanism of ester bonds, gradually releasing the encapsulated drug and metabolizing to non-toxic lactic acid. Polylactic acid has adjustable degradation rate, mechanical properties and the ability to composite with other polymers, and can be used in local or systemic drug delivery, orthopedic fixation devices and 3D printed bone regeneration scaffolds .
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- HY-P11328
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Integrin
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Others
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GFOGER peptide is an artificially synthesized collagen-mimetic sequence. GFOGER peptide acts as a ligand for α2β1, α11β1 and α1β1 integrins, thereby supporting integrin-mediated cell adhesion to collagen. GFOGER peptide triggers signaling pathways mediated by the α2β1 integrin receptor and upregulates osteoblast differentiation. GFOGER peptide accelerates and enhances bone formation at sites of refractory femoral defects. GFOGER peptide can be passively adsorbed onto polymer scaffolds for cell-free/growth factor-free bone formation. GFOGER peptide is used in biomaterials such as hydrogels and 3D bioinks for tissue engineering research including bone formation .
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- HY-Y0850U
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Polyvinyl alcohol (Mw 31000, 87-89% hydrolyzed, ~630 polymerization); Poly(Ethenol) (Mw 31000, 87-89% hydrolyzed, ~630 polymerization)
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Biochemical Assay Reagents
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Others
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PVA (Mw 31000, 87-89% hydrolyzed, ~630 polymerization) (Polyvinyl alcohol (Mw 31000, 87-89% hydrolyzed, ~630 polymerization); Poly(Ethenol) (Mw 31000, 87-89% hydrolyzed, ~630 polymerization)) is a biocompatible, biodegradable, nontoxic and hydrophilic synthetic polymer. PVA (Mw 31000, 87-89% hydrolyzed, ~630 polymerization) can be used to produce bone tissue engineering scaffold [1]
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- HY-158218
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Gelatin Methacryloyl, 30% methacrylation, Red Fluorescent
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Biochemical Assay Reagents
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Others
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Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 30% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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- HY-158217A
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Gelatin Methacryloyl, 60% methacrylation, Green Fluorescent
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Biochemical Assay Reagents
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Others
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Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 60% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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- HY-158217
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Gelatin Methacryloyl, 30% methacrylation, Green Fluorescent
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Biochemical Assay Reagents
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Others
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Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 30% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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- HY-158218A
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Gelatin Methacryloyl, 60% methacrylation, red fluorescent
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Biochemical Assay Reagents
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Others
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Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 60% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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- HY-158218B
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Gelatin Methacryloyl, 90% methacrylation, red fluorescent
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Biochemical Assay Reagents
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Others
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Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 90% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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- HY-W115785
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Environmental Pollutants
VEGFR
RUNX
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Metabolic Disease
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Zinc borate is a bioactive inorganic substance with properties including osteogenic induction, pro-angiogenesis, antioxidation, antimutagenesis and cytotoxicity. In the field of bone tissue engineering, Zinc borate is often incorporated into chitosan scaffolds. By releasing zinc ions and borate ions, Zinc borate induces the differentiation of human dental pulp stem cells into osteoblasts, upregulates the expression of bone-related genes and promotes calcium deposition. Zinc borate also promotes angiogenesis by upregulating key factors such as vascular endothelial growth factor. Zinc borate exhibits antioxidant capacity to scavenge free radicals, and can specifically reduce mutagenicity under specific conditions. Zinc borate reduces the survival rate of mouse fibroblasts, but it can still be used in studies related to bone tissue engineering .
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- HY-158217B
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Gelatin Methacryloyl, 90% methacrylation, Green Fluorescent
|
Biochemical Assay Reagents
|
Others
|
Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 90% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
| Cat. No. |
Product Name |
Type |
-
- HY-W250313
-
|
PLA
|
Biochemical Assay Reagents
|
|
Polylactic acid (PLA) is a biodegradable and biocompatible polymer widely used as a carrier for drug delivery systems and a structural material for tissue engineering and medical implants. Polylactic acid acts as a controlled release matrix through the hydrolysis mechanism of ester bonds, gradually releasing the encapsulated drug and metabolizing to non-toxic lactic acid. Polylactic acid has adjustable degradation rate, mechanical properties and the ability to composite with other polymers, and can be used in local or systemic drug delivery, orthopedic fixation devices and 3D printed bone regeneration scaffolds .
|
-
- HY-Y0850U
-
|
Polyvinyl alcohol (Mw 31000, 87-89% hydrolyzed, ~630 polymerization); Poly(Ethenol) (Mw 31000, 87-89% hydrolyzed, ~630 polymerization)
|
Biochemical Assay Reagents
|
|
PVA (Mw 31000, 87-89% hydrolyzed, ~630 polymerization) (Polyvinyl alcohol (Mw 31000, 87-89% hydrolyzed, ~630 polymerization); Poly(Ethenol) (Mw 31000, 87-89% hydrolyzed, ~630 polymerization)) is a biocompatible, biodegradable, nontoxic and hydrophilic synthetic polymer. PVA (Mw 31000, 87-89% hydrolyzed, ~630 polymerization) can be used to produce bone tissue engineering scaffold [1]
|
-
- HY-158218
-
|
Gelatin Methacryloyl, 30% methacrylation, Red Fluorescent
|
Biochemical Assay Reagents
|
Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 30% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-158217A
-
|
Gelatin Methacryloyl, 60% methacrylation, Green Fluorescent
|
Biochemical Assay Reagents
|
Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 60% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-158217
-
|
Gelatin Methacryloyl, 30% methacrylation, Green Fluorescent
|
Biochemical Assay Reagents
|
Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 30% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-158218A
-
|
Gelatin Methacryloyl, 60% methacrylation, red fluorescent
|
Biochemical Assay Reagents
|
Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 60% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-158218B
-
|
Gelatin Methacryloyl, 90% methacrylation, red fluorescent
|
Biochemical Assay Reagents
|
Red Fluorescent Gelatin Methacryloyl (Red Fluorescent GelMA) is methacryloyl gelatin (GelMA) with red fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Red Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 90% methacrylation, Red Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-158217B
-
|
Gelatin Methacryloyl, 90% methacrylation, Green Fluorescent
|
Biochemical Assay Reagents
|
Green Fluorescent Gelatin Methacryloyl (Green Fluorescent GelMA) is methacryloyl gelatin (GelMA) with green fluorescence, which is obtained by "grafting" fluorescent molecules on GelMA. Green Fluorescent Gelatin Methacryloyl acts as a scaffold and can be used to engineer tissue analogs from the vasculature to cartilage and bone, allowing cells to proliferate and spread . GelMA, 90% methacrylation, Green Fluorescent needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
| Cat. No. |
Product Name |
Target |
Research Area |
-
- HY-P11328
-
|
|
Integrin
|
Others
|
|
GFOGER peptide is an artificially synthesized collagen-mimetic sequence. GFOGER peptide acts as a ligand for α2β1, α11β1 and α1β1 integrins, thereby supporting integrin-mediated cell adhesion to collagen. GFOGER peptide triggers signaling pathways mediated by the α2β1 integrin receptor and upregulates osteoblast differentiation. GFOGER peptide accelerates and enhances bone formation at sites of refractory femoral defects. GFOGER peptide can be passively adsorbed onto polymer scaffolds for cell-free/growth factor-free bone formation. GFOGER peptide is used in biomaterials such as hydrogels and 3D bioinks for tissue engineering research including bone formation .
|
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