Effect of remote ischemic conditioning on atrial fibrillation and outcome after coronary artery bypass grafting (RICO-trial)

Background: Pre- and postconditioning describe mechanisms whereby short ischemic periods protect an organ against a longer period of ischemia. Interestingly, short ischemic periods of a limb, in itself harmless, may increase the ischemia tolerance of remote organs, e.g. the heart (remote conditioning, RC). Although several studies have shown reduced biomarker release by RC, a reduction of complications and improvement of patient outcome still has to be demonstrated. Atrial fibrillation (AF) is one of the most common complications after coronary artery bypass graft surgery (CABG), affecting 27-46% of patients. It is associated with increased mortality, adverse cardiovascular events, and prolonged in-hospital stay. We hypothesize that remote ischemic pre- and/or post-conditioning reduce the incidence of AF following CABG, and improve patient outcome.Methods/design: This study is a randomized, controlled, patient and investigator blinded multicenter trial. Elective CABG patients are randomized to one of the following four groups: 1) control, 2) remote ischemic preconditioning, 3) remote ischemic postconditioning, or 4) remote ischemic pre- and postconditioning. Remote conditio

Anesthetic induced cardioprotection: from bench to bedside and retour

Morfine blijkt in staat is om zowel vroege als late preconditionering op te wekken en zo het hart te beschermen tegen de schadelijke gevolgen van een zuurstoftekort, concludeert Jan Frässdorf. Lachgas daarentegen is het enige vluchtige narcosemiddel dat deze werking niet heeft

Isoflurane preconditions myocardium against infarction via release of free radicals

BACKGROUND: Isoflurane exerts cardioprotective effects that mimic the ischemic preconditioning phenomenon. Generation of free radicals is implicated in ischemic preconditioning. The authors investigated whether isoflurane-induced preconditioning may involve release of free radicals. METHODS: Sixty-one alpha-chloralose-anesthetized rabbits were instrumented for measurement of left ventricular (LV) pressure (tip-manometer), cardiac output (ultrasonic flowprobe), and myocardial infarct size (triphenyltetrazolium staining). All rabbits were subjected to 30 min of occlusion of a major coronary artery and 2 h of subsequent reperfusion. Rabbits of all six groups underwent a treatment period consisting of either no intervention for 35 min (control group, n = 11) or 15 min of isoflurane inhalation (1 minimum alveolar concentration end-tidal concentration) followed by a 10-min washout period (isoflurane group, n = 12). Four additional groups received the radical scavenger N-(2-mercaptoproprionyl)glycine (MPG; 1 mg. kg-1.min-1) or Mn(III)tetrakis(4-benzoic acid)porphyrine chloride (MnTBAP; 100 microg.kg-1.min-1) during the treatment period with (isoflurane + MPG; n = 11; isoflurane + MnTBAP, n = 9) or without isoflurane inhalation (MPG, n = 11; MnTBAP, n = 7). RESULTS: Hemodynamic baseline values were not significantly different between groups (LV pressure, 97 +/- 17 mmHg [mean +/- SD]; cardiac output, 228 +/- 61 ml/min). During coronary artery occlusion, LV pressure was reduced to 91 +/- 17% of baseline and cardiac output to 94 +/- 21%. After 2 h of reperfusion, recovery of LV pressure and cardiac output was not significantly different between groups (LV pressure, 83 +/- 20%; cardiac output, 86 +/- 23% of baseline). Infarct size was reduced from 49 +/- 17% of the area at risk in controls to 29 +/- 19% in the isoflurane group (P = 0.04). MPG and MnTBAP themselves had no effect on infarct size (MPG, 50 +/- 14%; MnTBAP, 56 +/- 15%), but both abolished the preconditioning effect of isoflurane (isoflurane + MPG, 50 +/- 24%, P = 0.02; isoflurane + MnTBAP, 55 +/- 10%, P = 0.001). CONCLUSION: Isoflurane-induced preconditioning depends on the release of free radical

The direct myocardial effects of xenon in the dog heart in vivo

Xenon has minimal hemodynamic side effects, but no data are available on its direct myocardial effects in vivo. We examined myocardial function during the global and regional administration of xenon in the dog heart. Anesthetized (midazolam/piritramide) dogs (n = 8) were instrumented for measurement of left ventricular pressure, cardiac output, and blood flow in the left anterior descending coronary artery (LAD) and circumflex coronary artery. Regional myocardial function was assessed by sonomicrometry in the antero-apical and the postero-basal wall. Hemodynamics were recorded during baseline conditions and during inhalation of 50% or 70% xenon, respectively. Subsequently, a bypass containing a membrane oxygenator was installed from the carotid artery to the LAD, allowing xenon administration only to the LAD-dependent myocardium. No changes in myocardial function were observed during inhalation of xenon. The regional administration of 50% xenon had no significant effect on regional myocardial function (systolic wall thickening and mean velocity of systolic wall thickening). Seventy percent xenon reduced systolic wall thickening by 7.2% +/- 4.0% and mean velocity of systolic wall thickening by 8.2% +/- 4.0% in the LAD-perfused area (P < 0.05). There were no changes of global hemodynamics, coronary blood flow, and regional myocardial function in the circumflex coronary artery-dependent myocardium. Xenon produces a small but consistent direct negative inotropic effect in vivo. IMPLICATIONS: Regional administration of xenon direct to the left anterior descending-perfused myocardium resulted in a small but consistent negative inotropic effect of the noble gas in the dog heart in viv

Sevoflurane confers additional cardioprotection after ischemic late preconditioning in rabbits

BACKGROUND: Sevoflurane exerts cardioprotective effects that mimic the early ischemic preconditioning phenomenon (EPC) by activating adenosine triphosphate-sensitive potassium (KATP) channels. Ischemic late preconditioning (LPC) is an important cardioprotective mechanism in patients with coronary artery disease. The authors investigated whether the combination of LPC and sevoflurane-induced preconditioning results in enhanced cardioprotection and whether opening of KATP channels plays a role in this new setting. METHODS: Seventy-three rabbits were instrumented with a coronary artery occluder. After recovery for 10 days, they were subjected to 30 min of coronary artery occlusion and 120 min of reperfusion (I/R). Controls (n = 14) were not preconditioned. LPC was induced in conscious animals by a 5-min period of coronary artery occlusion 24 h before I/R (LPC, n = 15). Additional EPC was induced by a 5-min period of myocardial ischemia 10 min before I/R (LPC+EPC, n = 9). Animals of the sevoflurane (SEVO) groups inhaled 1 minimum alveolar concentration of sevoflurane for 5 min at 10 min before I/R with (LPC+SEVO, n = 10) or without (SEVO, n = 15) additional LPC. The KATP channel blocker 5-hydroxydecanoate (5-HD, 5 mg/kg) was given intravenously 10 min before sevoflurane administration (LPC+SEVO+5-HD, n = 10). RESULTS: Infarct size of the area at risk (triphenyltetrazolium staining) was reduced from 45 +/- 16% (mean+/-SD, control) to 27 +/- 11% by LPC (P < 0.001) and to 27 +/- 17% by sevoflurane (P = 0.001). Additional sevoflurane administration after LPC led to a further infarct size reduction to 14 +/- 8% (LPC+SEVO, P = 0.003 vs. LPC; P = 0.032 vs. SEVO), similar to the combination of LPC and EPC (12 +/- 8%; P = 0.55 vs. LPC+SEVO). Cardioprotection induced by LPC+SEVO was abolished by 5-HD (LPC+SEVO+5-HD, 41 +/- 19%, P = 0.001 vs. LPC+SEVO). CONCLUSIONS: Sevoflurane administration confers additional cardioprotection after LPC by opening of KATP channel

The regulation of mitochondrial respiration by opening of mKCa channels is age-dependent

The protective potency of ischemic preconditioning decreases with increasing age. A key step in ischemic preconditioning is the opening of mitochondrial Ca(2+) sensitive K(+) (mK(Ca)) channels, which causes mild uncoupling of mitochondrial respiration. We hypothesized that aging reduces the effects of mK(Ca) channel opening on mitochondrial respiration. We measured the effects of mK(Ca) channel opener NS1619 (30 microM) on mitochondrial respiration in isolated heart mitochondria from young (2-3 months) and old (22-26 months) Wistar rats. Oxygen consumption was monitored online after addition of 250 microM ADP (state 3 respiration), and after complete phosphorylation of ADP to ATP (state 4 respiration) in the presence or absence of the mK(Ca) channel blocker paxilline (5 microM). The respiratory control index (RCI) was calculated as state 3/state 4. In mitochondria from young rats, NS1619 increased state 4 respiration by 11.9+/-4.1% (mean+/-S.E.M.), decreased state 3 respiration by 7.6+/-2.5%, and reduced the RCI from 2.6+/-0.03 (control) to 2.1+/-0.06 (all P <0.05, n=12 for all groups). Paxilline blocked the effect of NS1619 on state 4 respiration (0.7+/-2.8%), but did not affect the decrease in state 3 respiration; paxilline blunted the decrease of RCI. In mitochondria from old rats, NS1619 had neither effect on state 4 (0.4+/-1.6%), and state 3 respiration (-7.4+/-1.5%), nor on RCI (3.0+/-0.13 vs. 3.2+/-0.11, n=12). Increasing age reduced the effects of mK(Ca) opening on mitochondrial respiration. This might be one underlying reason of the decreased protective potency of ischemic preconditioning in the aged myocardiu

Effect of acute hyperglycaemia and diabetes mellitus with and without short-term insulin treatment on myocardial ischaemic late preconditioning in the rabbit heart in vivo

Diabetes mellitus (DM) and the resulting hyperglycaemia may interfere with the cardioprotective effect of ischaemic late preconditioning (LPC). Therefore, we investigated the effect of acute hyperglycaemia (part 1) and the effect of alloxan-induced DM with or without short-term insulin treatment (part 2) on LPC. Rabbits, chronically instrumented with a coronary artery occluder, were subjected to 30 min coronary artery occlusion and 2 h reperfusion (I/R) and infarct size (IS) was assessed. In part 1, four groups were studied. Controls were not treated further. LPC induced by a 5-min period of myocardial ischaemia 24 h before I/R reduced IS from 42+/-14 (controls) to 22+/-8% of the area at risk. Hyperglycaemia (600 mg dl(-1) by dextrose infusion, H(600)) before and during the 30 min ischaemia tended to increase IS (57+/-16%, P=0.14 vs. controls) and blocked cardioprotection by LPC (H(600)+LPC, 59+/-19%, P=1.0 vs. H(600), P=0.0003 vs. LPC). In part 2, LPC reduced infarct size from 43+/-13% (control) to 23+/-10% ( P=0.003). In diabetic animals, IS was 39+/-11%, and cardioprotection by LPC could not be elicited (DM+LPC, 41+/-16%, P=0.02 vs. LPC). Short-term insulin treatment (I, 90 min before I/R, blood glucose <150 mg dl(-1)) did not restore the cardioprotective effects of LPC (DM+I, 42+/-15%; DM+LPC+I, 40+/-10%, P=0.03 vs. LPC). It is concluded that acute hyperglycaemia and DM block the cardioprotection induced by LPC in rabbits and that the cardioprotection is not restored by short-term insulin treatmen