MedPath

Effect of Cardiac Resynchronization Therapy (CRT) on Skeletal Muscle Histology, Neuroendocrine Activation and Inflammatory Response

Phase 4
Completed
Conditions
Skeletal Muscle Changes After Crt
Interventions
Device: CRT
Registration Number
NCT01019915
Lead Sponsor
Helse Stavanger HF
Brief Summary

Heart failure patients with left bundle branch block have a poor prognosis. Biventricular pacing which synchronize the heart pump action is associated with improved functional capacity. This study aims to evaluate the basic changes in skeletal muscle functioning after a period of biventricular pacing in 21 patients with heart failure.

Detailed Description

Congestive heart failure (CHF) is the most common hospital discharge diagnosis in elderly patients . Fatigue and dyspnea with exercise intolerance and a poor quality of life are the main characteristics of this syndrome , and it is associated with substantial mortality and morbidity , .

Although the systolic dysfunction has been recognized as the primum movens of CHF, it is now generally accepted that the progression of the syndrome is not solely related to the pump failure.

The neuro-endocrine model has reached a wide consensus as one of the basic mechanisms for progressive heart failure based on the good results obtained by ACE-inhibitor therapy . A decade ago the cytokine model was added to explain the syndrome of heart failure . The cytokines are highly potent endogenous peptides produced by different cell types . Elevated levels might be markers for cardiac cachexia, but they may also play an important role in the mechanism of CHF progression . Subsequently, the muscle hypothesis was proposed as an explanation for the deconditioning in CHF patients . In skeletal muscle from healthy individuals there is a balanced distribution between type I fibres (aerobic), type IIA fibres (both aerobic and anaerobic) and type IIB fibres (mostly anaerobic). In CHF a shift to type II fibres and a reduced capillary density as well as a reduced cytochrome oxidase activity is observed, but the mechanisms leading to such a shift have not been clarified . Deconditioning may be an important factor aggravating the underlying pathophysiology in CHF and exercise training has been shown to improve exercise performance and to reduce symptoms in this population . This is partly mediated by activation of the Protein PGC-1, a critical factor coordinating the activation of metabolic genes required for substrate utilization and mitochondrial biogenesis . The increase in this enzyme has been highly correlated to increase in peak VO2 after a aerobic interval training program in heart failure .

One would expect that an improvement in exercise performance following improvement in central hemodynamics with cardiac resynchronization therapy (CRT) would be associated with improved muscular blood flow and energy metabolism. However, so far no reports have been published on the skeletal muscle response to CRT. The purpose of this study was to evaluate the effect of 6 months CRT pacing on skeletal muscle histology and mitochondrial mass and the association of these changes to alterations in functional capacity as measured with peak VO2. Moreover, we also sought to assess the relationship between changes in skeletal muscle and alterations in the inflammatory response in serum and in skeletal muscle.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
21
Inclusion Criteria
  • Heart failure, left bundle branch block
Exclusion Criteria
  • serious comorbidity including systemic inflammatory disease

Study & Design

Study Type
INTERVENTIONAL
Study Design
SINGLE_GROUP
Arm && Interventions
GroupInterventionDescription
Heart failure patients. Intervention CRTCRTCRT implantation in heart failure. Effect of intervention after 6 months of treatment.
Primary Outcome Measures
NameTimeMethod
capillary densityfinnished

To assess if CRT improves skeletal muscle cappillary density

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

Stavanger University Hospital

🇳🇴

Stavanger, Norway

Related Trials

ECG for Programming in CRT

TerminatedNot Applicable
Washington University School of Medicine
Posted 5/3/2019
Updated 12/3/2020

Role of Left Ventricular Pacing Site

Unknown StatusNot Applicable
University Hospital, Bordeaux
Posted 9/22/2005
Updated 6/29/2007

Pacing to Maintain Physiologic Ventricular Activation

Recruiting
Klinikum-Fuerth
Posted 6/4/2020
Updated 10/15/2024

Cardiac Resynchronization Therapy (CRT)-Narrow-dp/Dt-Study

CompletedPhase 4
Medtronic Bakken Research Center
Posted 1/14/2009
Updated 11/25/2016
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy