OBJECTIVES: This study was done to determine the effects of angiotensin-converting enzyme (ACE) inhibition and other clinical factors on troponin release in non-ST-elevation acute coronary syndrome (ACS). BACKGROUND: Troponin is now widely used as a marker of risk in ACS, but determinants of its release have not been defined. METHODS: This was a prospective cohort study of 301 consecutive patients admitted with non-ST-elevation ACS. Baseline clinical data were recorded, ACE gene polymorphism was determined and serial blood samples were obtained for troponin-I assay. RESULTS: Significant troponin-I release (>0.1 microg/l) was detected in 93 (31%) patients. Pretreatment with ACE inhibitors, recorded in 53 patients (17.6%), independently reduced the odds of troponin-I release (odds ratio 0.25; 95% confidence intervals 0.10 to 0.64) and was associated with lower maximum troponin-I concentrations (median [interquartile range]) compared with patients not pretreated with ACE inhibitors (0.44 microg/l [0.19 to 2.65 microg/l] vs. 4.18 microg/l [0.91 to 12.41 microg/l], p = 0.01). Pretreatment with aspirin, recorded in 173 patients (57.5%), did not significantly reduce the odds of troponin-I release after adjustment but was associated with lower maximum troponin-I concentrations compared with patients not pretreated with aspirin (2.31 microg/l [0.72 to 8.02 microg/l] vs. 5.85 microg/l [1.19 to 12.79 microg/l], p = 0.05). The ACE genotyping (n = 268) showed 81 patients (30%) DD homozygous and 77 (29%) II homozygous. There was no association between ACE genotype and troponin release. CONCLUSIONS: We conclude that ACE inhibition reduces troponin release in non-ST-elevation ACS. This is likely to be mediated by the beneficial effects of treatment on vascular reactivity and the coagulation system.
OBJECTIVES: This study was done to determine the effects of angiotensin-converting enzyme (ACE) inhibition and other clinical factors on troponin release in non-ST-elevation acute coronary syndrome (ACS). BACKGROUND: Troponin is now widely used as a marker of risk in ACS, but determinants of its release have not been defined. METHODS: This was a prospective cohort study of 301 consecutive patients admitted with non-ST-elevation ACS. Baseline clinical data were recorded, ACE gene polymorphism was determined and serial blood samples were obtained for troponin-I assay. RESULTS: Significant troponin-I release (>0.1 microg/l) was detected in 93 (31%) patients. Pretreatment with ACE inhibitors, recorded in 53 patients (17.6%), independently reduced the odds of troponin-I release (odds ratio 0.25; 95% confidence intervals 0.10 to 0.64) and was associated with lower maximum troponin-I concentrations (median [interquartile range]) compared with patients not pretreated with ACE inhibitors (0.44 microg/l [0.19 to 2.65 microg/l] vs. 4.18 microg/l [0.91 to 12.41 microg/l], p = 0.01). Pretreatment with aspirin, recorded in 173 patients (57.5%), did not significantly reduce the odds of troponin-I release after adjustment but was associated with lower maximum troponin-I concentrations compared with patients not pretreated with aspirin (2.31 microg/l [0.72 to 8.02 microg/l] vs. 5.85 microg/l [1.19 to 12.79 microg/l], p = 0.05). The ACE genotyping (n = 268) showed 81 patients (30%) DD homozygous and 77 (29%) II homozygous. There was no association between ACE genotype and troponin release. CONCLUSIONS: We conclude that ACE inhibition reduces troponin release in non-ST-elevation ACS. This is likely to be mediated by the beneficial effects of treatment on vascular reactivity and the coagulation system.
Authors: D Rimar; E Crystal; A Battler; S Gottlieb; D Freimark; H Hod; V Boyko; L Mandelzweig; S Behar; J Leor Journal: Heart Date: 2002-10 Impact factor: 5.994
Authors: Fabian Hoffmann; Patricia Fassbender; Wilhelm Zander; Lisa Ulbrich; Kathrin Kuhr; Christoph Adler; Marcel Halbach; Hannes Reuter Journal: Front Cardiovasc Med Date: 2022-02-24