CELLvo™ Cells

Product >1,000,000 P0 Cells: $850

CELLvo™ Human Chondrocytes — Passage 0
700-500

Human Articular Chondrocytes (HC-a) are mature cells responsible for elaborating and maintaining cartilage matrices in vivo. These cells can be difficult to isolate and expand, but have huge potential in translational research. CELLvo™ Chondrocytes are isolated from cadaveric articular cartilage of otherwise healthy donors. When grown on the CELLvo™ Matrix, CELLvo™ HCAs behave more naturally, allowing researchers greater control of their study. These P0 Chondrocytes are fresh and have never been cultured.

*Single-unit price. For inquiries about this product, contact your sales representative.

Product >1,000,000 P1 Cells: $750

CELLvo™ Human Chondrocytes — Passage 1
700-501

Human Articular Chondrocytes (HC-a) are mature cells responsible for elaborating and maintaining cartilage matrices in vivo. These cells can be difficult to isolate and expand, but have huge potential in translational research. CELLvo™ Chondrocytes are isolated from cadaveric articular cartilage of otherwise healthy donors. When grown on the CELLvo™ Matrix, CELLvo™ HCAs behave more naturally, allowing researchers greater control of their study. We also offer P0 Chondrocytes for sale. 

*Single-unit price. For inquiries about this product, contact your sales representative.

Product >500,000 P4 Cells: $400

CELLvo™ Human Cord Blood Endothelial Progenitor Cells (hCB-EPC)
700-502

CELLvo™ hCB-EPCs cells are progenitors of other endothelial type cells. These cells exhibit superior colony forming abilities, greater vessel formation, and greater angiogenic potential in vitro as well as in vivo – as compared to hUVECs. CELLvo™ hCB-EPCs cells are the cell of choice for researchers wanting greater control of their endothelial culture related studies.  When grown on the CELLvo™ Matrix, CELLvo™ hCB-EPCs behave more naturally, allowing researchers greater control of their study.

*Single-unit price. For inquiries about this product, contact your sales representative.

Product >1,000,000 P2 Cells: $750

CELLvo™ Human Bone Marrow Mesenchymal Stem Cells (hBM-MSC)
700-503

CELLvo™ hBM-MSCs have been isolated and cultured under xeno-free conditions on the CELLvo™ XF Matrix. These P2 cells proliferate more quickly, have a smaller cell size, and show a higher percentage of SSEA4 (+) cells as compared to BM-MSCs isolated and cultured on other substrates.

*Single-unit price. For inquiries about this product, contact your sales representative.

Product >1,000,000 P2 Cells: $949

CELLvo™ Human Wharton’s Jelly Mesenchymal Stem Cells
700-504

Wharton’s Jelly is a rich source of highly proliferative, multipotent, Mesenchymal Stem Cells. These cells are known to be highly immunomodulatory and capable of trilineage differentiation.

CELLvo™ human Mesenchymal Stem Cells – Wharton’s Jelly (MSC-WJ) have been isolated and cultured under xeno-free conditions on the CELLvo™ XF Matrix. CELLvo™ MSC-WJ proliferate more quickly, have a smaller cell size, and show a higher percentage of SSEA4 (+) cells as compared to Wharton’s Jelly MSCs isolated and cultured on other substrates.

*Single-unit price. For inquiries about this product, contact your sales representative.

Product >1,000,000 P2 Cells: $500

CELLvo™ Human Adipose Mesenchymal Stem Cells (hAD-MSCs)
700-505

Human Adipose Derived Mesenchymal Stem Cells (hAD-MSCs) are multipotent stem cells, capable of rapid proliferation, trilineage differentiation, and potent immunomodulation, found in abundance in the stromal vascular fraction of adipose tissue. Currently, adipose tissue is the most common source of MSCs in clinical use.

CELLvo™ Adipose Derived Mesenchymal Stem Cells (hAD-MSC) have been isolated and cultured under xeno-free conditions on the CELLvo™ XF Matrix. CELLvo™ hAD-MSCs proliferate more quickly, have a smaller cell size, and show a higher percentage of SSEA4 (+) cells as compared to Adipose Derived MSCs isolated and cultured on other substrates.

*Single-unit price. For inquiries about this product, contact your sales representative.