Brittany Butts
  • Butts Research
    • Meet the Team
    • Metabolomic Pathways of Symptoms in Black Adults with Heart Failure
    • Skeletal Muscle in Heart Failure with Preserved Ejection Fraction
    • Inflammasome in Heart Failure
    • Exercise and Heart Failure
    • Telomeres in Heart Failure
    • Heart Failure Research Studies
    • Publications
  • MVP Study
  • Past Studies
    • M-FADD HF Study >
      • M-FADD HF Research Findings
  • Pathophysiology Videos
  • Contact
  • Genetics Workshop (UNC)
  • Omics Workshop (SNRS 2023)

Symptoms and Skeletal Muscle in Heart Failure with Preserved Ejection Fraction

This study examines the chronic hypertensive left ventricular hypertrophy subset of heart failure with preserved ejection fraction (HFpEF) to connect skeletal muscle ultrastructure and biochemistry to symptoms, quality of life, and functional capacity.  Conditions including hypertension, sedentary lifestyle, muscular deconditioning, and obesity result in a variety of cellular changes, such as cardiac hypertrophy, neurohormonal dysregulation and derangements in protein homeostasis.  These processes result in the development of HFpEF with the downstream sequelae of dyspnea and fatigue, decreased functional capacity, and structural muscle damage.  Hypertension is one of the greatest contributors to cardiac-related mortality and is a primary cause of HFpEF as a result of left ventricular hypertrophy. 

This study hypothesizes that that heart failure (HF) symptoms and functional capacity are connected to skeletal muscle ultrastructure and biochemistry in persons with heart failure with preserved ejection fraction (HFpEF).  This 2-year cross-sectional study is enrolling 40 participants with HFpEF s to examine skeletal muscle structure and function.  Patient questionnaires are used to assess fatigue, dyspnea severity, and quality of life in persons with HFpEF.  In addition, perceived barriers to and benefits of exercise will be assessed via questionnaire.  Functional status is assessed using  an exercise treadmill test.  Muscle biopsies are performed to study structural and functional aspects of skeletal muscle that determine functional capacity including the conventional assessment of quantification of fiber types, cross-sectional area, capillary density, and mitochondrial function, and to further explore a novel finding that examines a putative mechanism of myocyte ultrastructural damage, chymase-induced breakdown of desmin and mitochondrial dysfunction, as an important factor of functional capacity in persons with HFpEF.  By focusing on a subset of patients with well-defined hypertension and left ventricular hypertrophy, data from this study can be used to create precision medicine in HFpEF prevention and treatment, targeted therapies, and better prediction of outcomes in this high mortality population.  

Funding:  
NIH NINR F32NR017322 (07/2017 - 07/2019)
Sigma Theta Tau International Small Grant Award
REACT Center Scholar Award, University of Alabama at Birmingham
NIH NCMRR T32HD071866 (PI - Marcas Bamman, 07/2016 - 07/2017)
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  • Butts Research
    • Meet the Team
    • Metabolomic Pathways of Symptoms in Black Adults with Heart Failure
    • Skeletal Muscle in Heart Failure with Preserved Ejection Fraction
    • Inflammasome in Heart Failure
    • Exercise and Heart Failure
    • Telomeres in Heart Failure
    • Heart Failure Research Studies
    • Publications
  • MVP Study
  • Past Studies
    • M-FADD HF Study >
      • M-FADD HF Research Findings
  • Pathophysiology Videos
  • Contact
  • Genetics Workshop (UNC)
  • Omics Workshop (SNRS 2023)