For research use only
| Cat No. | ABC-TC3467 |
| Product Type | Dermal Cells |
| Cell Type | Endothelial |
| Species | Human |
| Growth Conditions | 37 ℃, 5% CO2 |
| Source Organ | Dermal |
| Disease | Normal |
| Storage | Liquid Nitrogen |
HMVEC-dBlAd cells support studies of dermal angiogenesis, microvascular permeability, and wound healing using adult human skin–derived endothelial cells.
HMVEC-dBlAd cells are primary human microvascular endothelial cells isolated from the blood vessels of the bladder. Following primary culture, these cells are cryopreserved. They exhibit the characteristic morphology and retain native endothelial functional properties. The cells exhibit key vascular functions including angiogenesis, microvascular barrier maintenance, regulation of vascular permeability, and leukocyte trafficking. Research links HMVEC-dBlAd dysfunction to diseases involving microvascular complications, such as diabetic microangiopathy, tumor angiogenesis and metastasis in cancer, and inflammatory responses in sepsis and acute respiratory distress syndrome (ARDS). To ensure optimal performance, repeated freezing and thawing should be avoided during culture. The cells undergo rigorous screening and isolation procedures, and are rigorously tested to ensure they are free of contamination from HIV-1, HBV, HCV, Syphilis, Mycoplasma, Fungi, Yeast, and Bacteria.
| Product Code | HMVEC-dBlAd Adult Dermal Blood Microvascular Endothelial Cells, Adult Skin Blood MVECs, Dermal Blood Microvascular ECs Adult, HMVEC-dBlAd Cells, Human Adult Blood MVECs |
| Species | Human |
| Cat.No | ABC-TC3467 |
| Product Category | Primary Cells |
| Size/Quantity | 1 vial |
| Cell Type | Endothelial |
| Growth Mode | Adherent |
| Shipping Info | Dry Ice |
| Growth Conditions | 37 ℃, 5% CO2 |
| Source Organ | Dermal |
| Disease | Normal |
| Biosafety Level | 1 |
| Storage | Liquid Nitrogen |
| Product Type | Dermal Cells |
| Quality Control | All cells test negative for mycoplasma, bacteria, yeast, and fungi. |
HMVEC-dBlAd cells provide a physiologically relevant in vitro model to study human microvascular endothelial dysfunction in diseases like cancer metastasis and chronic wound healing. Researchers can utilize these cells in investigating VEGF-induced angiogenesis, TNF-α-mediated vascular hyperpermeability, and other molecular pathways underlying pathological microvascular changes.
When you publish your research, please cite our product as “AcceGen Biotech Cat.# XXX-0000”. In return, we’ll give you a $200 coupon. Simply click here and submit your paper’s PubMed ID (PMID).
