Search results for "Pig bladder"

showing 2 items of 2 documents

Inhibition of human detrusor contraction by a urothelium derived factor.

2003

Stimulating muscarinic receptors in pig bladder urothelium causes the release of a diffusable factor that inhibits contractions of the underlying detrusor muscle. We investigated whether the contractions of human detrusor strips elicited by the muscarinic agonist carbachol, electrical field stimulation, KCl or the neurokinin receptor agonist neurokinin A are affected by the urothelium.Paired intact and urothelium denuded muscle strips were placed in modified gassed Tyrode's solution at 37C. Cumulative concentration-response curves to carbachol or KCl were constructed. In other tissues the strips were stimulated electrically (1 to 40 Hz) with trains of square wave pulses 20 seconds in durati…

AgonistDetrusor muscleMalemedicine.medical_specialtyCarbacholmedicine.drug_classUrologyNeurokinin APig bladderMuscarinic Agonistsurologic and male genital diseasesMuscarinic agonistPotassium Chloridechemistry.chemical_compoundInternal medicineCulture TechniquesMuscle HypertoniamedicineHumansUrotheliumAgedDose-Response Relationship Drugurogenital systembusiness.industryTissue ExtractsMuscle SmoothMiddle Agedfemale genital diseases and pregnancy complicationsElectric StimulationStimulation ChemicalEndocrinologymedicine.anatomical_structurechemistryCarbacholFemaleNeurokinin Amedicine.symptomUrotheliumbusinessmedicine.drugMuscle contractionMuscle ContractionThe Journal of urology
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The extracorporeal perfusion of the female pig detrusor as an experimental model for the study of bladder contractility.

2007

Aims The objective of the study was to establish an experimental model for the extracorporeal perfusion of the pig detrusor. In order to validate this model we examined some biochemical parameters and determined the effect of carbachol on the contractility of perfused female pig bladders. Methods Twenty-six pig bladders were perfused with Krebs–Ringer bicarbonate-glucose buffer for a period up to 5 hr with the aim to preserve a viable organ, which would be responsive to contraction-inducing agents. The intravesical pressure of the bladder as well as the intraarterial pressure of the vesical arteries were recorded before and after administration of carbachol. Results The perfusate pH, lactat…

CarbacholUrologySus scrofaUrinary BladderPig bladderBlood PressureCholinergic AgonistsContractilitymedicineAnimalsDose-Response Relationship Drugbusiness.industryExperimental modelMuscle SmoothExtracorporeal perfusionDose–response relationshipmedicine.anatomical_structureAnesthesiaModels AnimalCarbacholFemaleNeurology (clinical)Vesical arteriesbusinessPerfusionmedicine.drugMuscle ContractionNeurourology and urodynamics
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