2024
Development of a Novel Intraperitoneal Icodextrin/Dextrose Solution for Enhanced Sodium Removal
Asher J, Ivey-Miranda J, Maulion C, Cox Z, Borges-Vela J, Mendoza-Zavala G, Cigarroa-Lopez J, Silva-Rueda R, Revilla-Monsalve C, Moreno-Villagomez J, Ramos-Mastache D, Goedje O, Crosbie I, McIntyre C, Finkelstein F, Turner J, Testani J, Rao V. Development of a Novel Intraperitoneal Icodextrin/Dextrose Solution for Enhanced Sodium Removal. Kidney Medicine 2024, 100938. DOI: 10.1016/j.xkme.2024.100938.Peer-Reviewed Original ResearchPD solutionsPeritoneal dialysisSodium removalIcodextrin PD solutionExposure of miceLong-term safetyClearance of uremic toxinsChronic therapyEdematous disordersStructural tissue changesAdverse eventsRemoval therapyEfficacy resultsHeart failureEvaluate safetyNet ultrafiltrationUremic toxin clearanceAnimal modelsIcodextrinKidney failureUremic toxinsTissue changesAscending concentrationsEfficient ultrafiltrationEfficacy
2020
First-in-Human Experience With Peritoneal Direct Sodium Removal Using a Zero-Sodium Solution
Rao VS, Turner JM, Griffin M, Mahoney D, Asher J, Jeon S, Yoo PS, Boutagy N, Feher A, Sinusas A, Wilson FP, Finkelstein F, Testani JM. First-in-Human Experience With Peritoneal Direct Sodium Removal Using a Zero-Sodium Solution. Circulation 2020, 141: 1043-1053. PMID: 31910658, PMCID: PMC7331276, DOI: 10.1161/circulationaha.119.043062.Peer-Reviewed Original ResearchConceptsStandard PD solutionExperimental heart failureHeart failurePD solutionsAdverse eventsPeritoneal dialysisSignificant discomfortSodium removalEnd-stage renal diseaseEnd pointElevated right atrial pressureMaintenance of euvolemiaPrimary end pointSecondary end pointsRight atrial pressureHuman proofLoss of responseSolute removalPorcine experimentsAtrial pressureRenal diseaseLoop diureticsSerum electrolytesHuman studiesPeritoneal membrane