Search results for "Vasoconstrictor agents"

showing 2 items of 62 documents

Kinin receptors in human vascular tissue: their role in atheromatous disease

1997

Using samples of many human blood vessels, obtained at autopsy and specific antibodies directed to peptide sequences of the kinin B1 and B2 receptors, we demonstrate the localisation of these receptors within the human vascular system using standard immunolabelling techniques. In large elastic arteries and veins, kinin receptors are present only in the endothelial cells whereas in all muscular arteries and arterioles, these receptors are present in both the endothelial and smooth muscle cells. The identification of kinin receptors in human blood vessels confirms that kinins may modulate both vascular permeability and contractility. The incidental finding at histology, of patchy atheromatous…

medicine.medical_specialtyReceptor Bradykinin B2EndotheliumArteriosclerosisMolecular Sequence DataImmunocytochemistryEnzyme-Linked Immunosorbent AssayVascular permeabilityBiologyReceptor Bradykinin B1Muscle Smooth VascularVeinsCapillary PermeabilityContractilityAntibody SpecificityInternal medicinemedicineHumansVasoconstrictor AgentsAmino Acid SequenceReceptorVascular tissuePharmacologyStaining and LabelingReceptors BradykininArteriesKininImmunohistochemistryMolecular WeightArteriolesmedicine.anatomical_structureEndocrinologycardiovascular systemImmunohistochemistryKallikreinsAutopsyEndothelium VascularTissue KallikreinsMuscle ContractionImmunopharmacology
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Myogenic effects enhance norepinephrine constriction: Inhibition by nitric oxide and felodipine

1998

Myogenic effects enhance norepinephrine constriction: Inhibition by nitric oxide and felodipine. Myogenic, pressure-induced vasoconstriction may amplify the effects of circulating vasoconstrictors. Through intravital microscopy in cremaster arterioles (31 to 115 μm diameter), the relative contribution of myogenic responses (MR) to norepinephrine (NE)-induced constriction and the inhibitor potency of nitric oxide (NO) or a Ca2+ entry blocker (CEB), felodipine (F), were examined. In 24 anesthetized hamsters, a vessel occluder was placed around the aorta to control cremaster vessel inflow pressure (IP). NE infusion increased blood pressure (by 50 ± 2mm Hg) and induced significant constriction …

medicine.medical_specialtyendotheliumVasodilator AgentsmicrocirculationMyogenic mechanismBayliss effectBlood PressureNitric OxideNitroarginineMuscle Smooth VascularConstrictionNitric oxideMicrocirculationNorepinephrine (medication)Norepinephrinechemistry.chemical_compoundCricetinaeInternal medicineintravital microscopymedicineAnimalsVasoconstrictor AgentsBayliss effectAorta AbdominalcremasterFelodipineCapillariesArteriolesEndocrinologychemistryFelodipineNephrologyAnesthesiacalcium entry blockerInjections Intravenouscardiovascular systemmedicine.symptomVasoconstrictionmedicine.drugKidney International
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