Literature DB >> 26654913

Early detection of cardiac dysfunction in the type 1 diabetic heart using speckle-tracking based strain imaging.

Danielle L Shepherd1, Cody E Nichols1, Tara L Croston1, Sarah L McLaughlin2, Ashley B Petrone3, Sara E Lewis1, Dharendra Thapa1, Dustin M Long4, Gregory M Dick1, John M Hollander5.   

Abstract

Enhanced sensitivity in echocardiographic analyses may allow for early detection of changes in cardiac function beyond the detection limits of conventional echocardiographic analyses, particularly in a small animal model. The goal of this study was to compare conventional echocardiographic measurements and speckle-tracking based strain imaging analyses in a small animal model of type 1 diabetes mellitus. Conventional analyses revealed differences in ejection fraction, fractional shortening, cardiac output, and stroke volume in diabetic animals relative to controls at 6-weeks post-diabetic onset. In contrast, when assessing short- and long-axis speckle-tracking based strain analyses, diabetic mice showed changes in average systolic radial strain, radial strain rate, radial displacement, and radial velocity, as well as decreased circumferential and longitudinal strain rate, as early as 1-week post-diabetic onset and persisting throughout the diabetic study. Further, we performed regional analyses for the LV and found that the free wall region was affected in both the short- and long-axis when assessing radial dimension parameters. These changes began 1-week post-diabetic onset and remained throughout the progression of the disease. These findings demonstrate the use of speckle-tracking based strain as an approach to elucidate cardiac dysfunction from a global perspective, identifying left ventricular cardiac regions affected during the progression of type 1 diabetes mellitus earlier than contractile changes detected by conventional echocardiographic measurements.
Copyright © 2015 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Cardiac function; Diabetes mellitus; Diabetic cardiomyopathy; Echocardiography; Speckle-tracking imaging; Strain analysis

Mesh:

Year:  2015        PMID: 26654913      PMCID: PMC4725063          DOI: 10.1016/j.yjmcc.2015.12.001

Source DB:  PubMed          Journal:  J Mol Cell Cardiol        ISSN: 0022-2828            Impact factor:   5.000


  54 in total

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Authors:  Sherif F Nagueh; Christopher P Appleton; Thierry C Gillebert; Paolo N Marino; Jae K Oh; Otto A Smiseth; Alan D Waggoner; Frank A Flachskampf; Patricia A Pellikka; Arturo Evangelista
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Authors:  Dominic Y Leung; Arnold C T Ng
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Authors:  John K Boyer; Srihari Thanigaraj; Kenneth B Schechtman; Julio E Pérez
Journal:  Am J Cardiol       Date:  2004-04-01       Impact factor: 2.778
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4.  Mitochondrial proteome disruption in the diabetic heart through targeted epigenetic regulation at the mitochondrial heat shock protein 70 (mtHsp70) nuclear locus.

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8.  Manipulation of the miR-378a/mt-ATP6 regulatory axis rescues ATP synthase in the diabetic heart and offers a novel role for lncRNA Kcnq1ot1.

Authors:  Andrya J Durr; Quincy A Hathaway; Amina Kunovac; Andrew D Taylor; Mark V Pinti; Saira Rizwan; Danielle L Shepherd; Chris C Cook; Garrett K Fink; John M Hollander
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9.  miRNA-378a as a key regulator of cardiovascular health following engineered nanomaterial inhalation exposure.

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10.  Comparison of speckle-tracking echocardiography with invasive hemodynamics for the detection of characteristic cardiac dysfunction in type-1 and type-2 diabetic rat models.

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