2024
Comparative study of functional and structural muscle changes in peripheral artery disease: rubidium-82 positron emission tomography and histological correlation
Alashi A, Vermillion B, Callegari S, Burns R, Guo L, Moulton E, Guerrera N, Depino A, Papademetris X, Zeiss C, Thorn S, Liu C, Sinusas A. Comparative study of functional and structural muscle changes in peripheral artery disease: rubidium-82 positron emission tomography and histological correlation. European Heart Journal - Cardiovascular Imaging 2024, 25: jeae142.087. DOI: 10.1093/ehjci/jeae142.087.Peer-Reviewed Original ResearchPeripheral arterial diseaseStandardized uptake valueHindlimb ischemia modelReactive hyperemiaSkeletal muscle perfusionPerfusion reserveCapillary densityPET imagingArtery diseaseNon-ischemicRubidium-82 positron emission tomographyType 2 muscle fibersRelevant pre-clinical modelIndicative of fibrosisManagement of peripheral arterial diseaseCapillary to muscle fiber ratioClinically relevant pre-clinical modelPre-clinical modelsMuscle perfusionFast myosinWeeks post-ligationRb-82 uptakeEvaluate treatment strategiesRabbit hindlimb ischemia modelPositron emission tomography
2015
PET imaging of a collagen matrix reveals its effective injection and targeted retention in a mouse model of myocardial infarction
Ahmadi A, Thorn SL, Alarcon EI, Kordos M, Padavan DT, Hadizad T, Cron GO, Beanlands RS, DaSilva JN, Ruel M, deKemp RA, Suuronen EJ. PET imaging of a collagen matrix reveals its effective injection and targeted retention in a mouse model of myocardial infarction. Biomaterials 2015, 49: 18-26. PMID: 25725551, DOI: 10.1016/j.biomaterials.2015.01.016.Peer-Reviewed Original ResearchConceptsMyocardial infarctionPositron emission tomographyPET imagingMouse modelNon-invasive PET imagingCardiac regeneration therapyIschemic territoryPET resultsInfarcted myocardiumEmission tomographyCollagen matrixMyocardial injectionEarly retentionPromising modalityRegeneration therapyInfarctionLabeling efficiencyMyocardiumFluorescence imagingImagingBiodistributionInjectionQdot labelingEx
2012
18F-FDG Cell Labeling May Underestimate Transplanted Cell Homing: More Accurate, Efficient, and Stable Cell Labeling with Hexadecyl-4-[18F]Fluorobenzoate for in Vivo Tracking of Transplanted Human Progenitor Cells by Positron Emission Tomography
Zhang Y, Dasilva JN, Hadizad T, Thorn S, Kuraitis D, Renaud JM, Ahmadi A, Kordos M, Dekemp RA, Beanlands RS, Suuronen EJ, Ruel M. 18F-FDG Cell Labeling May Underestimate Transplanted Cell Homing: More Accurate, Efficient, and Stable Cell Labeling with Hexadecyl-4-[18F]Fluorobenzoate for in Vivo Tracking of Transplanted Human Progenitor Cells by Positron Emission Tomography. Cell Transplantation 2012, 21: 1821-1835. PMID: 22469629, DOI: 10.3727/096368911x637416.Peer-Reviewed Original ResearchConceptsCirculating Progenitor CellsPositron emission tomographyEmission tomographyCell therapyPET imagingCell transplantation groupProgenitor cellsCoronary artery ligationRat myocardial infarction modelInfarct border zoneHeart tissue sectionsMyocardial infarction modelBorder zoneCardiac cell therapyTransplantation groupIschemic/Artery ligationH posttransplantationBest modalityHuman progenitor cellsIntramyocardial injectionH postinjectionInjection siteTissue biodistributionInfarction model