Kirian van der Weg1, Mohamed Majidi2, Joost D E Haeck3, Jan G P Tijssen3, Cynthia L Green4, Karel T Koch3, Wichert J Kuijt3, Mitchell W Krucoff4, Anton P M Gorgels5, Robbert J de Winter3. 1. Maastricht University Medical Center, Maastricht, The Netherlands; Duke University Medical center and Duke Clinical Research Institute, Durham, USA. Electronic address: kirianvanderweg@gmail.com. 2. Maastricht University Medical Center, Maastricht, The Netherlands; Duke University Medical center and Duke Clinical Research Institute, Durham, USA. 3. Academic Medical Center, Amsterdam, The Netherlands. 4. Duke University Medical center and Duke Clinical Research Institute, Durham, USA. 5. Maastricht University Medical Center, Maastricht, The Netherlands.
Abstract
OBJECTIVE: We hypothesized that ventricular arrhythmia (VA) bursts during reperfusion phase are a marker of larger infarct size despite optimal epicardial and microvascular perfusion. METHODS: 126 STEMI patients were studied with 24h continuous, 12-lead Holter monitoring. Myocardial blush grade (MBG) was determined and VA bursts were identified against subject-specific background VA rates in core laboratories. Delayed-enhancement cardiovascular magnetic resonance imaging was used to determine infarct size. RESULTS: In the group with MBG 3 no significant differences were found for baseline characteristics between burst versus no burst (102 vs. 24). In those with optimal epicardial and microvascular reperfusion (TIMI 3, stable ST-recovery, and MBG 3), VA burst was associated with larger infarct size (N=102/126; median 11.0 vs. 5.1%; p=0.004). CONCLUSION: In the event of MBG 3, VA bursts were associated with significantly larger infarct size even if optimal epicardial and microvascular reperfusion was present.
OBJECTIVE: We hypothesized that ventricular arrhythmia (VA) bursts during reperfusion phase are a marker of larger infarct size despite optimal epicardial and microvascular perfusion. METHODS: 126 STEMI patients were studied with 24h continuous, 12-lead Holter monitoring. Myocardial blush grade (MBG) was determined and VA bursts were identified against subject-specific background VA rates in core laboratories. Delayed-enhancement cardiovascular magnetic resonance imaging was used to determine infarct size. RESULTS: In the group with MBG 3 no significant differences were found for baseline characteristics between burst versus no burst (102 vs. 24). In those with optimal epicardial and microvascular reperfusion (TIMI 3, stable ST-recovery, and MBG 3), VA burst was associated with larger infarct size (N=102/126; median 11.0 vs. 5.1%; p=0.004). CONCLUSION: In the event of MBG 3, VA bursts were associated with significantly larger infarct size even if optimal epicardial and microvascular reperfusion was present.