2024
New Horizons in Nuclear Cardiology: Imaging of Peripheral Arterial Disease
Callegari S, Mena-Hurtado C, Smolderen K, Thorn S, Sinusas A. New Horizons in Nuclear Cardiology: Imaging of Peripheral Arterial Disease. Journal Of Nuclear Cardiology 2024, 102079. PMID: 39549830, DOI: 10.1016/j.nuclcard.2024.102079.Peer-Reviewed Original ResearchPeripheral arterial diseaseDiagnostic modalitiesRisk stratificationArtery diseaseEarly diagnosisImprove risk stratificationAssociated with higher ratesLower extremity peripheral arterial diseaseEvaluation of therapyClinically relevant areasPreclinical modelsObstructive atherosclerotic diseaseClinical studiesArtery stenosisMicrovascular diseasePreprocedural assessmentPeripheral vasculaturePET imagingAtherosclerotic diseaseNuclear cardiologyTherapeutic interventionsClinical diseaseDiseaseComplex physiologyPerfusionComparative 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
2016
Editorial in response to: PET/CT evaluation of 18F-FDG uptake in pericoronary adipose tissue in patients with stable coronary artery disease: Independent predictor of atherosclerotic lesion formation? Is there prognostic value in evaluation of 18F-FDG uptake in the pericoronary adipose tissue?
Thorn SL, Sinusas AJ. Editorial in response to: PET/CT evaluation of 18F-FDG uptake in pericoronary adipose tissue in patients with stable coronary artery disease: Independent predictor of atherosclerotic lesion formation? Is there prognostic value in evaluation of 18F-FDG uptake in the pericoronary adipose tissue? Journal Of Nuclear Cardiology 2016, 24: 1085-1088. PMID: 26976143, DOI: 10.1007/s12350-016-0458-7.Peer-Reviewed Original Research
2013
Preclinical Evaluation of Biopolymer-Delivered Circulating Angiogenic Cells in a Swine Model of Hibernating Myocardium
Giordano C, Thorn SL, Renaud JM, Al-Atassi T, Boodhwani M, Klein R, Kuraitis D, Dwivedi G, Zhang P, DaSilva JN, Ascah KJ, deKemp RA, Suuronen EJ, Beanlands RS, Ruel M. Preclinical Evaluation of Biopolymer-Delivered Circulating Angiogenic Cells in a Swine Model of Hibernating Myocardium. Circulation Cardiovascular Imaging 2013, 6: 982-991. PMID: 24089461, DOI: 10.1161/circimaging.113.000185.Peer-Reviewed Original ResearchConceptsMyocardial blood flowHibernating myocardiumAngiogenic cellsBlood flowSwine modelAdvanced coronary artery diseaseLeft circumflex artery territoryRelevant swine modelCoronary artery diseaseCircumflex artery territoryLeft circumflex arteryCirculating Angiogenic CellsWall motion abnormalitiesMyocardial flow reserveArtery territoryUnderwent placementArtery diseaseEjection fractionCircumflex arteryCell-based therapiesRevascularization approachTomography perfusionMyocardial hibernationAmeroid constrictorPreclinical swine model