primary bone marrow mesenchymal stem cells bmscs Search Results


bone marrow stem cells (bmscs)  (Dawley Inc)
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Dawley Inc bone marrow stem cells (bmscs)
Bone Marrow Stem Cells (Bmscs), supplied by Dawley Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human bone marrow-derived mesenchymal stem cell line hbmsc  (Procell Inc)
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Procell Inc human bone marrow-derived mesenchymal stem cell line hbmsc
Human Bone Marrow Derived Mesenchymal Stem Cell Line Hbmsc, supplied by Procell Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3rd generation bone marrow mesenchymal stem cells (bmscs) from sprague-dawley rats  (Dawley Inc)
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Dawley Inc 3rd generation bone marrow mesenchymal stem cells (bmscs) from sprague-dawley rats
3rd Generation Bone Marrow Mesenchymal Stem Cells (Bmscs) From Sprague Dawley Rats, supplied by Dawley Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rat bone marrow stem cells (bmscs  (Procell Inc)
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Procell Inc rat bone marrow stem cells (bmscs
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Rat Bone Marrow Stem Cells (Bmscs, supplied by Procell Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human bone marrow mesenchymal stem cell line (bmsc  (AddexBio Inc)
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AddexBio Inc human bone marrow mesenchymal stem cell line (bmsc
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Human Bone Marrow Mesenchymal Stem Cell Line (Bmsc, supplied by AddexBio Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bone marrow mesenchymal stem cells (bmscs)  (Applied StemCell Inc)
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Applied StemCell Inc bone marrow mesenchymal stem cells (bmscs)
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Bone Marrow Mesenchymal Stem Cells (Bmscs), supplied by Applied StemCell Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rabbit bone marrow mesenchymal stem cells (r-bmscs  (iCell Bioscience Inc)
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iCell Bioscience Inc rabbit bone marrow mesenchymal stem cells (r-bmscs
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Rabbit Bone Marrow Mesenchymal Stem Cells (R Bmscs, supplied by iCell Bioscience Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rabbit bone marrow mesenchymal stem cells (r-bmscs - by Bioz Stars, 2026-02
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human bone marrow  (ScienCell)
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ScienCell human bone marrow
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Human Bone Marrow, supplied by ScienCell, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bone marrow mesenchymal stem cells (bmscs) oricell rasmx-01001  (Dawley Inc)
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Dawley Inc bone marrow mesenchymal stem cells (bmscs) oricell rasmx-01001
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Bone Marrow Mesenchymal Stem Cells (Bmscs) Oricell Rasmx 01001, supplied by Dawley Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bone mesenchymal stem cells (bmscs)  (iCell Bioscience Inc)
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iCell Bioscience Inc bone mesenchymal stem cells (bmscs)
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Bone Mesenchymal Stem Cells (Bmscs), supplied by iCell Bioscience Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bone marrow-derived mesenchymal stem cell culture bmscs  (Charles River Laboratories)
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Charles River Laboratories bone marrow-derived mesenchymal stem cell culture bmscs
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Bone Marrow Derived Mesenchymal Stem Cell Culture Bmscs, supplied by Charles River Laboratories, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rat bone marrow mesenchymal stem cells (bmscs)  (Ethris GmbH)
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Ethris GmbH rat bone marrow mesenchymal stem cells (bmscs)
The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) <t>of</t> <t>HGFs</t> and <t>BMSCs</t> against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.
Rat Bone Marrow Mesenchymal Stem Cells (Bmscs), supplied by Ethris GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) of HGFs and BMSCs against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.

Journal: Bioactive Materials

Article Title: An injectable and coagulation-independent Tetra-PEG hydrogel bioadhesive for post-extraction hemostasis and alveolar bone regeneration

doi: 10.1016/j.bioactmat.2024.03.015

Figure Lengend Snippet: The in vitro adhesive properties and biocompatibility of the Tetra-PEG hydrogel. (A) Photographs of the in situ formation hydrogel onto the porcine mucosal tissue that suffers from different deformations (scale bar: 2 cm). (B) Lap shear strength of the Tetra-PEG hydrogel in its initial state and after equilibrium swelling in DI water, AS, and AB, respectively (n = 3). (C, D) The representative SEM (C) and H&E-stained (D) images of the adhesion interfaces between the rat tissues (gingiva and alveolar bone) and hydrogel (scale bar: 100 μm). In SEM images, the white dotted area represents the fractured hydrogel-tissue interface, and the red circle indicates the remaining entanglements after freeze-fractured. (E) Comparison of the in vitro sealing abilities of the Tetra-PEG hydrogel and gelatin sponge using a porcine jaw filled with anticoagulated blood. (F, G) Cell viability (F) and LIVE/DEAD assay images (G) of HGFs and BMSCs against the hydrogel, respectively (n = 5, scale bar: 300 μm). All data are presented as the mean ± S.D.

Article Snippet: The human gingival fibroblasts (HGFs) (Procell, China) and rat bone marrow stem cells (BMSCs) (Procell, China) were seeded at 2000 cells/well on 96-well plates.

Techniques: In Vitro, Adhesive, In Situ, Shear, Staining, Comparison, Live Dead Assay