Changes in Myocardial Microstructure and Mechanics With Progressive Left Ventricular Pressure Overload

被引:15
|
作者
Torres, William M. [1 ,2 ,3 ]
Barlow, Shayne C. [2 ,3 ]
Moore, Amber [2 ,3 ]
Freeburg, Lisa A. [2 ,3 ]
Hoenes, Abigail [2 ,3 ]
Doviak, Heather [2 ,3 ]
Zile, Michael R. [4 ,5 ]
Shazly, Tarek [1 ]
Spinale, Francis G. [1 ,2 ,3 ]
机构
[1] Univ South Carolina, Coll Engn & Comp, Columbia, SC 29209 USA
[2] Univ South Carolina, Sch Med, Cardiovasc Translat Res Ctr, Columbia, SC 29209 USA
[3] Columbia Vet Affairs Healthcare Ctr, Columbia, SC USA
[4] Med Univ South Carolina, Charleston, SC 29425 USA
[5] Vet Affairs Med Ctr, RHJ Dept, Charleston, SC 29403 USA
来源
JACC-BASIC TO TRANSLATIONAL SCIENCE | 2020年 / 5卷 / 05期
基金
美国国家卫生研究院;
关键词
heart failure; echocardiography; pressure overload; DIASTOLIC HEART-FAILURE; PRESERVED EJECTION FRACTION; IMPAIRED SYSTOLIC FUNCTION; AORTIC-VALVE DISEASE; ECHOCARDIOGRAPHIC-ASSESSMENT; CARDIAC AMYLOIDOSIS; ELECTRON TOMOGRAMS; PASSIVE STIFFNESS; TIME-COURSE; HYPERTROPHY;
D O I
10.1016/j.jacbts.2020.02.007
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
This study assessed the regional changes in myocardial geometry, microstructure, mechanical behavior, and properties that occur in response to progressive left ventricular pressure overload (LVPO) in a large animal model. Using an index of local biomechanical function at early onset of LVPO allowed for prediction of the magnitude of left ventricular chamber stiffness (Kc) and left atrial area at LVPO late timepoints. Our study found that LV myocardial collagen content alone was insufficient to identify mechanisms for LV myocardial stiffness with progression to heart failure with preserved ejection fraction (HFpEF). Serial assessment of regional biomechanical function might hold value in monitoring the natural history and progression of HFpEF, which would allow evaluation of novel therapeutic approaches. (C) 2020 Published by Elsevier on behalf of the American College of Cardiology Foundation.
引用
收藏
页码:463 / 480
页数:18
相关论文
共 50 条
  • [31] Assessment of Myocardial Mechanics Utilizing Speckle-Tracking Echocardiography in a Swine Model of Right Ventricular Pressure-Overload
    Pietris, Nicholas
    Wehman, Brody
    Siddiqui, Osama T.
    Mishra, Rachana
    Bigham, Grace
    Sharma, Sudhish
    Murthi, Sarah B.
    Kaushal, Sunjay
    CIRCULATION, 2014, 130
  • [32] Increased circulating concentrations and augmented myocardial extraction of osteoprotegerin in heart failure due to left ventricular pressure overload
    Helske, Satu
    Kovanen, Petri T.
    Lindstedt, Ken A.
    Salmela, Kaija
    Lommi, Jyri
    Turto, Heikki
    Werkkala, Kalervo
    Kupari, Markku
    EUROPEAN JOURNAL OF HEART FAILURE, 2007, 9 (04) : 357 - 363
  • [33] The left ventricle undergoes biomechanical and gene expression changes in response to increased right ventricular pressure overload
    Kheyfets, Vitaly O.
    Dufva, Melanie J.
    Boehm, Mario
    Tian, Xuefeit
    Qin, Xulei
    Tabakh, Jennifer E.
    Truong, Uyen
    Ivy, Dunbar
    Spiekerkoetter, Edda
    PHYSIOLOGICAL REPORTS, 2020, 8 (09):
  • [34] Survival benefits of different antiadrenergic interventions in pressure overload left ventricular hypertrophy/failure
    Perlini, Stefano
    Ferrero, Ivana
    Palladini, Giuseppina
    Tozzi, Rossana
    Gatti, Chiara
    Vezzoli, Monia
    Cesana, Francesca
    Janetti, Maria Bianchi
    Clari, Francesca
    Busca, Giuseppe
    Mancia, Giuseppe
    Ferrari, Alberto U.
    HYPERTENSION, 2006, 48 (01) : 93 - 97
  • [35] Sex-Specific Human Cardiomyocyte Gene Regulation in Left Ventricular Pressure Overload
    Gaignebet, Lea
    Kandula, Maciej M.
    Lehmann, Daniel
    Knosalla, Christoph
    Kreil, David P.
    Kararigas, Georgios
    MAYO CLINIC PROCEEDINGS, 2020, 95 (04) : 688 - 697
  • [36] Myofilament Ca2+ sensitivity correlates with left ventricular contractility during the progression of pressure overload-induced left ventricular myocardial hypertrophy in rats
    Ruppert, Mihaly
    Bodi, Beata
    Korkmaz-Icoez, Sevil
    Loganathan, Sivakkanan
    Jiang, Weipeng
    Lehmann, Lorenz
    Olah, Attila
    Barta, Balint Andras
    Sayour, Alex Ali
    Merkely, Bela
    Karck, Matthias
    Papp, Zoltan
    Szabo, Gabor
    Radovits, Tamas
    JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY, 2019, 129 : 208 - 218
  • [37] Pressure Overload Creates Right Ventricular Diastolic Dysfunction in a Mouse Model: Assessment by Echocardiography
    Egemnazarov, Bakytbek
    Schmidt, Albrecht
    Crnkovic, Slaven
    Sydykov, Akylbek
    Nagy, Bence M.
    Kovacs, Gabor
    Weissmann, Norbert
    Olschewski, Horst
    Olschewski, Andrea
    Kwapiszewska, Grazyna
    Marsh, Leigh M.
    JOURNAL OF THE AMERICAN SOCIETY OF ECHOCARDIOGRAPHY, 2015, 28 (07) : 828 - 843
  • [38] Right ventricular adaptation to pressure overload
    Simon, Marc A.
    CURRENT OPINION IN CRITICAL CARE, 2010, 16 (03) : 237 - 243
  • [39] Cardiac sympathetic neuronal function in left ventricular volume and pressure overload
    Somsen, GA
    Dubois, EA
    Brandsma, K
    deJong, J
    vanderWouw, PA
    Batink, HD
    vanRoyen, EA
    Lie, KI
    vanZwieten, PA
    CARDIOVASCULAR RESEARCH, 1996, 31 (01) : 132 - 138
  • [40] Impaired left ventricular global longitudinal strain is associated with elevated left ventricular filling pressure after myocardial infarction
    Aikawa, Tadao
    Kariya, Taro
    Yamada, Kelly P.
    Miyashita, Satoshi
    Bikou, Olympia
    Tharakan, Serena
    Fish, Kenneth
    Ishikawa, Kiyotake
    AMERICAN JOURNAL OF PHYSIOLOGY-HEART AND CIRCULATORY PHYSIOLOGY, 2020, 319 (06): : H1474 - H1481
12345