Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining

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Standard

Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining. / Kjærgaard, Kristian; Dreyer, Chris Halling; Ditzel, Nicholas; Andreasen, Christina Møller; Chen, Li; Sheikh, Søren Paludan; Overgaard, Søren; Ding, Ming.

I: Stem Cells International, Bind 2016, 3846971, 2016, s. 1-10.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Kjærgaard, K, Dreyer, CH, Ditzel, N, Andreasen, CM, Chen, L, Sheikh, SP, Overgaard, S & Ding, M 2016, 'Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining', Stem Cells International, bind 2016, 3846971, s. 1-10. https://doi.org/10.1155/2016/3846971

APA

Kjærgaard, K., Dreyer, C. H., Ditzel, N., Andreasen, C. M., Chen, L., Sheikh, S. P., Overgaard, S., & Ding, M. (2016). Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining. Stem Cells International, 2016, 1-10. [3846971]. https://doi.org/10.1155/2016/3846971

Vancouver

Kjærgaard K, Dreyer CH, Ditzel N, Andreasen CM, Chen L, Sheikh SP o.a. Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining. Stem Cells International. 2016;2016:1-10. 3846971. https://doi.org/10.1155/2016/3846971

Author

Kjærgaard, Kristian ; Dreyer, Chris Halling ; Ditzel, Nicholas ; Andreasen, Christina Møller ; Chen, Li ; Sheikh, Søren Paludan ; Overgaard, Søren ; Ding, Ming. / Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining. I: Stem Cells International. 2016 ; Bind 2016. s. 1-10.

Bibtex

@article{59bfbca8fcc149cea492a991ce378944,
title = "Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining",
abstract = "Background. Scaffolds for bone tissue engineering (BTE) can be loaded with stem and progenitor cells (SPC) from different sources to improve osteogenesis. SPC can be found in bone marrow, adipose tissue, and other tissues. Little is known about osteogenic potential of adipose-derived culture expanded, adherent cells (A-CEAC). This study compares in vivo osteogenic capacity between A-CEAC and bone marrow derived culture expanded, adherent cells (BM-CEAC). Method. A-CEAC and BM-CEAC were isolated from five female sheep and seeded on hydroxyapatite granules prior to subcutaneous implantation in immunodeficient mice. The doses of cells in the implants were 0.5 × 106, 1.0 × 106, or 1.5 × 106 A-CEAC and 0.5 × 106 BM-CEAC, respectively. After eight weeks, bone volume versus total tissue volume (BV/TV) was quantified using histomorphometry. Origin of new bone was assessed using human vimentin (HVIM) antibody staining. Results. BM-CEAC yielded significantly higher BV/TV than any A-CEAC group, and differences between A-CEAC groups were not statistically significant. HVIM antibody stain was successfully used to identify sheep cells in this model. Conclusion. A-CEAC and BM-CEAC were capable of forming bone, and BM-CEAC yielded significantly higher BV/TV than any A-CEAC group. In vitro treatment to enhance osteogenic capacity of A-CEAC is suggested for further research in ovine bone tissue engineering.",
author = "Kristian Kj{\ae}rgaard and Dreyer, {Chris Halling} and Nicholas Ditzel and Andreasen, {Christina M{\o}ller} and Li Chen and Sheikh, {S{\o}ren Paludan} and S{\o}ren Overgaard and Ming Ding",
year = "2016",
doi = "10.1155/2016/3846971",
language = "English",
volume = "2016",
pages = "1--10",
journal = "Stem Cells International",
issn = "1687-966X",
publisher = "Hindawi Publishing Corporation",

}

RIS

TY - JOUR

T1 - Bone Formation by Sheep Stem Cells in an Ectopic Mouse Model: Comparison of Adipose and Bone Marrow Derived Cells and Identification of Donor-Derived Bone by Antibody Staining

AU - Kjærgaard, Kristian

AU - Dreyer, Chris Halling

AU - Ditzel, Nicholas

AU - Andreasen, Christina Møller

AU - Chen, Li

AU - Sheikh, Søren Paludan

AU - Overgaard, Søren

AU - Ding, Ming

PY - 2016

Y1 - 2016

N2 - Background. Scaffolds for bone tissue engineering (BTE) can be loaded with stem and progenitor cells (SPC) from different sources to improve osteogenesis. SPC can be found in bone marrow, adipose tissue, and other tissues. Little is known about osteogenic potential of adipose-derived culture expanded, adherent cells (A-CEAC). This study compares in vivo osteogenic capacity between A-CEAC and bone marrow derived culture expanded, adherent cells (BM-CEAC). Method. A-CEAC and BM-CEAC were isolated from five female sheep and seeded on hydroxyapatite granules prior to subcutaneous implantation in immunodeficient mice. The doses of cells in the implants were 0.5 × 106, 1.0 × 106, or 1.5 × 106 A-CEAC and 0.5 × 106 BM-CEAC, respectively. After eight weeks, bone volume versus total tissue volume (BV/TV) was quantified using histomorphometry. Origin of new bone was assessed using human vimentin (HVIM) antibody staining. Results. BM-CEAC yielded significantly higher BV/TV than any A-CEAC group, and differences between A-CEAC groups were not statistically significant. HVIM antibody stain was successfully used to identify sheep cells in this model. Conclusion. A-CEAC and BM-CEAC were capable of forming bone, and BM-CEAC yielded significantly higher BV/TV than any A-CEAC group. In vitro treatment to enhance osteogenic capacity of A-CEAC is suggested for further research in ovine bone tissue engineering.

AB - Background. Scaffolds for bone tissue engineering (BTE) can be loaded with stem and progenitor cells (SPC) from different sources to improve osteogenesis. SPC can be found in bone marrow, adipose tissue, and other tissues. Little is known about osteogenic potential of adipose-derived culture expanded, adherent cells (A-CEAC). This study compares in vivo osteogenic capacity between A-CEAC and bone marrow derived culture expanded, adherent cells (BM-CEAC). Method. A-CEAC and BM-CEAC were isolated from five female sheep and seeded on hydroxyapatite granules prior to subcutaneous implantation in immunodeficient mice. The doses of cells in the implants were 0.5 × 106, 1.0 × 106, or 1.5 × 106 A-CEAC and 0.5 × 106 BM-CEAC, respectively. After eight weeks, bone volume versus total tissue volume (BV/TV) was quantified using histomorphometry. Origin of new bone was assessed using human vimentin (HVIM) antibody staining. Results. BM-CEAC yielded significantly higher BV/TV than any A-CEAC group, and differences between A-CEAC groups were not statistically significant. HVIM antibody stain was successfully used to identify sheep cells in this model. Conclusion. A-CEAC and BM-CEAC were capable of forming bone, and BM-CEAC yielded significantly higher BV/TV than any A-CEAC group. In vitro treatment to enhance osteogenic capacity of A-CEAC is suggested for further research in ovine bone tissue engineering.

U2 - 10.1155/2016/3846971

DO - 10.1155/2016/3846971

M3 - Journal article

C2 - 27994622

VL - 2016

SP - 1

EP - 10

JO - Stem Cells International

JF - Stem Cells International

SN - 1687-966X

M1 - 3846971

ER -

ID: 252048764