Vascular

Human primary vascular cells for in vitro research and drug discovery into inflammatory processes concerned with vascular tissue. If you are interested in obtaining human primary vascular cells for your research and drug discovery projects, please talk to us.

Human Umbilical Vein Endothelial Cells (HUVEC)

human primary umbilical vein cells HUVEC

Human Umbilical Vein Endothelial Cells (HUVEC) are isolated from normal human umbilical vein. These cells are cryopreserved at the end of primary culture, and can be cultured for at least 16 doublings (5 passages).

Can be sent cryopreserved with 500,000 cells per vial or directly seeded on flasks.

Each batch is positive for Factor VIII-related antigen expression and Dil-Ac-LDL uptake. They have also been tested for ability to attach and spread on tissue culture surfaces, and for proliferation in Endothelial Cell Growth Medium.

Functionally Characterized HUVEC : in addition to the classical characterization, these cells have been pre-qualified to assure responsiveness to VEGF stimulation as measured by detecting phosphorylated forms of important endothelial cell signalling molecules.

Human Aortic Endothelial Cells (HAOEC)

Human aorta endothelial cells HAOEC

HAOECs respond to cytokine stimulation by expressing cell adhesion molecules. HAOECs have been used as an in vitro model for the study of morphological and ultra-structural changes in the development of atherosclerosis.

The cells are cryopreserved at second passage and can be cultured and propagated for at least 16 population doublings (5 passages). Sent cryopreserved with 500,000 cells per vial, or directly seeded on flasks.

Each batch of HAOECs has been tested positive for Factor VIII-related antigen expression and Dil-Ac-LDL uptake and for its ability to attach and spread on tissue culture surfaces, and proliferation in Endothelial Cell Growth Medium.

Functionally-characterised HAOECs: in addition to the classical characterization, these cells have been pre-qualified to assure responsiveness to VEGF stimulation as measured by detecting phosphorylated forms of important endothelial cell signalling molecules.

Human Umbilical Artery Endothelial Cells (HUAEC)

Human umbilical artery endothelial cells

Arterial endothelial cells have been used as an in vitro model for the study of morphological and ultrastructural changes in the development of atherosclerosis. The HUAEC system has also been used for the study of endothelial cell-dependent lymphocyte activation and chemoattractant activity.

The cells are cryopreserved at second passage and can be cultured and propagated for at least 16 population doublings (5 passages). Sent cryopreserved with 500,000 cells per vial, or directly seeded on flasks.

Each batch of HAOECs has been tested positive for Factor VIII-related antigen expression and Dil-Ac-LDL uptake. They are also tested for ability to attach and spread on tissue culture surfaces, and proliferation in Endothelial Cell Growth Medium.

Umbilical Vein Smooth Muscle Cells (HUVSMC)

human umbilical vein smooth muscle cells

Human umbilical vein actively regulates its vascular tone under the control of pO2.

The HUVSMCs are cryopreserved at second passage and can be cultured and propagated for at at least 6 population doublings. Sent cryopreserved with 500,000 cells per vial, or directly seeded on flasks.

Each batch of HUVSMCs is tested positive for smooth muscle specific α-actin antigen expression and for its ability to attach and spread on tissue culture ware surfaces, and proliferate in Smooth Muscle Cell Growth Medium.

Human Umbilical Artery Smooth Muscle Cells (HUASMC)

human umbilical artery smooth muscle cells HUASMC

Umbilical artery smooth muscle cells have been used as an economical option for the study of morphological and structural changes in the development of atherosclerosis.

The cells are cryopreserved at second passage and can be cultured and propagated for at least 16 population doublings (5 passages). Sent cryopreserved with 500,000 cells per vial, or directly seeded on flasks.

Each batch of HUVSMCs is tested positive for smooth muscle specific α-actin antigen expression and for its ability to attach and spread on tissue culture ware surfaces, and proliferate in Smooth Muscle Cell Growth Medium.

Human Aortic Smooth Muscle Cells (HAOSMC)

human aortic smooth muscle cells HAOSMC

Derived from tunica intima and tunica media of normal human, fibrous plaque-free aorta. Arterial smooth muscle cells are capable of synthesizing collagen, elastin, myosin and glycosaminoglycan. Increased production of connective tissue components, hyperplasia and hypertrophy of intimal smooth muscle cells are found to gradually occlude the vessel lumen in atherosclerosis. HAOSMC respond to various factors by proliferating or differentiating. They are a well established cell system for the study of human vascular disorders such as atherosclerosis and stroke.

The cells are cryopreserved at second passage and can be cultured and propagated for at least 16 population doublings (5 passages). Sent cryopreserved with 500,000 cells per vial, or directly seeded on flasks.

Each batch of HUVSMCs is tested positive for smooth muscle specific α-actin antigen expression and for its ability to attach and spread on tissue culture ware surfaces, and proliferate in Smooth Muscle Cell Growth Medium.

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