Coronary Collateral Growth Induced by Physical Exercise
Autor: | Thomas Hilberg, Susanne Brunner, Karsten Lenk, Madlen Uhlemann, Volker Adams, Marcus Sandri, Meinhard Mende, Sven Möbius-Winkler, Sandra Erbs, Norman Mangner, Ulrike Mueller, Martin Grunze, Gerhard Schuler, Jennifer Adam, Axel Linke |
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Rok vydání: | 2016 |
Předmět: |
Adult
Male Cardiac Catheterization medicine.medical_specialty Central Venous Pressure medicine.medical_treatment Collateral Circulation Coronary Disease Physical exercise Fractional flow reserve 030204 cardiovascular system & hematology Coronary artery disease 03 medical and health sciences Oxygen Consumption 0302 clinical medicine Physiology (medical) Internal medicine Embolism Air Humans Medicine Arterial Pressure Angina Unstable Prospective Studies 030212 general & internal medicine Prospective cohort study Aorta Aged Cardiac catheterization Exercise Tolerance Intention-to-treat analysis business.industry Femoral Vein Middle Aged Collateral circulation medicine.disease Coronary Vessels Exercise Therapy Fractional Flow Reserve Myocardial Blood pressure Exercise Test Cardiology Female Cardiology and Cardiovascular Medicine business |
Zdroj: | Circulation. 133:1438-1448 |
ISSN: | 1524-4539 0009-7322 |
DOI: | 10.1161/circulationaha.115.016442 |
Popis: | Background— A well-developed coronary collateral circulation provides a potential source of blood supply in coronary artery disease. However, the prognostic importance and functional relevance of coronary collaterals is controversial with the association between exercise training and collateral growth still unclear. Methods and Results— This prospective, open-label study randomly assigned 60 patients with significant coronary artery disease (fractional flow reserve ≤0.75) to high-intensity exercise (group A, 20 patients) or moderate-intensity exercise (group B, 20 patients) for 4 weeks or to a control group (group C, 20 patients). The primary end point was the change of the coronary collateral flow index (CFI) after 4 weeks. Analysis was based on the intention to treat. After 4 weeks, baseline CFI increased significantly by 39.4% in group A (from 0.142±0.07 at beginning to 0.198±0.09 at 4 weeks) in comparison with 41.3% in group B (from 0.143±0.06 to 0.202±0.09), whereas CFI in the control group remained unchanged (0.7%, from 0.149±0.09 to 0.150±0.08). High-intensity exercise did not lead to a greater CFI than moderate-intensity training. After 4 weeks, exercise capacity, V o 2 peak and ischemic threshold increased significantly in group A and group B in comparison with group C with no difference between group A and group B. Conclusions— A significant improvement in CFI was demonstrated in response to moderate- and high-intensity exercise performed for 10 hours per week. Clinical Trial Registration— URL: http://www.clinicaltrials.gov . Unique identifier: NCT01209637. |
Databáze: | OpenAIRE |
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