rat bone marrow stem cells (bmscs Search Results


rat bone marrow stem cells (bmscs  (Procell Inc)
90
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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rat bone marrow mesenchymal stem cells (bmscs)  (Ethris GmbH)
90
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
https://www.bioz.com/result/rat bone marrow mesenchymal stem cells (bmscs)/product/Ethris GmbH
Average 90 stars, based on 1 article reviews
rat bone marrow mesenchymal stem cells (bmscs) - by Bioz Stars, 2026-03
90/100 stars
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rat bone marrow stem cells (bmscs)  (Harlan Winkelmann)
90
Harlan Winkelmann 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 Harlan Winkelmann, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/rat bone marrow stem cells (bmscs)/product/Harlan Winkelmann
Average 90 stars, based on 1 article reviews
rat bone marrow stem cells (bmscs) - by Bioz Stars, 2026-03
90/100 stars
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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