Prognostic value of persistent thallium-201 defects that become reversible after reinjection in patients with chronic myocardial infarction.

BACKGROUND: The presence of defects at stress-redistribution thallium-201 scintigraphy is related to a higher risk of cardiac events. However, the prognostic value of defects that become reversible after reinjection is not known. In this study we evaluated the prognostic contribution of stress-redistribution-reinjection with special regard to 3-hour fixed defects that become reversible after reinjection. METHODS AND RESULTS: We studied 122 patients with chronic myocardial infarction (>2 months) and suspected or known residual ischemia, with stress-redistribution-reinjection planar scintigraphy. Thallium scans were analyzed by three observers (three segments per view, 5-point score) and classified as normal, fixed, and reversible. The lung/heart ratio was also calculated. At a median follow-up of 47 months, 10 patients had hard events (four deaths and six myocardial infarctions) (group I), 12 patients had unstable angina (group II), 12 patients underwent planned coronary artery bypass grafting or percutaneous transluminal coronary angioplasty (group III), and 86 patients had no events (group IV). The presence of fixed defects that became reversible after reinjection did not identify patients at higher risk. The number of reversible defects at 3 hours was significantly higher only in patients who underwent revascularization. Unstable angina was not predicted by any scintigraphic pattern. The variables that were statistically related to hard events by univariate analysis were increased lung uptake, reversible cavity dilation, and the number of fixed defects that remained fixed after reinjection. By Cox multivariate analysis, the strongest predictor of hard events was the presence of more than three fixed defects that remained fixed after reinjection as a marker of irreversible myocardial damage. CONCLUSIONS: (201)Tl reinjection is a useful approach for not only detecting viable myocardium but also risk stratification in patients with chronic myocardial infarction.

[Thallium-201 re-injection: a new method for the identification of viable myocardium in patients with fixed deficits of myocardial uptake]. / La re-iniezione di tallio-201: una nuova metodica per l'identificazione del miocardio vitale nei pazienti con deficit fissi di captazione miocardica.

Fixed defects on thallium-201 myocardial scintigraphy which have been traditionally interpreted as myocardial scar, may in fact be viable myocardium. This has been shown to be the case on 24 hour delayed imaging, positron emission tomography and repeat thallium imaging after coronary angioplasty or bypass surgery. We studied 25 suspected post myocardial infarction ischemia patients who had one or more fixed defects on exercise thallium scintigraphy. Immediately after the conventional delayed images, a second TI-201 injection of 1 mCi (re-injection) was given, followed by an additional set of images. After re-injection, 41% of fixed defects on the conventional delayed images showed increased thallium uptake as evidence of viable myocardium, and 46% of partially reversible defects on the conventional delayed images showed a concordant but increased uptake. Re-injection provided the only evidence for ischemia in 4 patients (16%) and documented ischemia in a new vascular territory in 3 patients (12%). Thus, we conclude that thallium re-injection is an improved technique for assessing myocardial viability in patients after myocardial infarction.

Creatine kinase and myoglobin determination in myocardial infarction (determination of infant size).

In order to evaluate the diagnostic and prognostic importance of serum myoglobin (Mb) determination during acute myocardial infarction (AMI) we determined the time of first rise of both CK and Mb, that is the time in hours between the onset of pain and the last normal myoglobin and enzyme determination (TFR for Mb = 2.2 +/- 1.5 h; TFR for CK = 4.0 +/- 2.5 h). We also attempted to evaluate infarct size by mathematical analysis of the serum concentrations of Mb. The average percentage difference between the infarct size calculated from the CK concentrations and Mb concentrations was 35.8 +/- 35.2%. The results show that the determination of serum myoglobin is a useful and sensitive test for the early diagnosis of AML. On the other hand, the serum myoglobin cannot be utilized to evaluate infarct size. The main limitation in the determination of infarct size from the serum Mb concentrations lies in the extreme variability of the disappearance rate (Kd), mainly resulting from the renal elimination of the substance.

[Relationships between the initial area of necrosis and prognosis of acute myocardial infarct]. / Rapporti tra estensione iniziale dell'area necrotica e prognosi dell'infarto miocardico acuto.

85 patients with acute myocardial infarction (AMI) have been studied retrospectively. 25 of them died within the 40th day after admission. Serum CK release during AMI can be described by the logistic equation: (formula: see text). We have evaluated for each patient both the final infarct size (calculated at the time of maximal enzyme activity: Tmax) and the initial one (calculated at the inflection time of the curve: Tflex). The total enzyme release in 1 ml of blood has been considered as an indirect index of infarct size. Our results show a good correlation between the initial and the final infarct size. We have considered as limits between survivors and non-survivors the following values: 2.2 IU/ml and 0.6 IU/ml for total CK release at Tmax and at Tflex respectively. The percentage of mortality in those groups is very similar (69% and 75%). However only 38% of non-survivors shows higher values than both 2.2 IU/ml and 0.6 IU/ml. The calculation of infarct size at Tflex allows an early identification of the high risk patients.

[The protective effects of glucose in ischaemia, anoxia and reoxygenation (author's transl)]. / Effetti protettivi del glucosio in ischemia, anossia e riossigenazione.

In the present study we used a model of underperfusion or anoxia followed by reperfusion to assess the role of glycolysis by substituting pyruvate or mannitol for glucose as substrate. Hearts were removed from male Sprague-Dawley rats (250-400 g) and perfused by the technique of Langendorff. The perfusate was Krebs-Henseleit bicarbonate buffer gassed with 95% O2, 5% CO2 or with 95% N2, 5% CO2 mixture and containing substrates as can be seen in the figures. The mild ischemia was obtained by reducing the perfusion pressure by 70%, from 60-70 cm H2O to 10-20 cm H2O. The coronary flow was rapidly reduced to 0.8 +/- 0.03 ml/min within the first 5 minutes. After mild ischemia anaerobic glycolysis was accelerated because lactate production in ischemic hearts perfused with glucose (36.2 +/- 15.3 microM/g/min-1) was higher than in the ischemic hearts perfused with mannitol (6.8 +/- 1.9 microM/g/min-1). During mild ischemia or anoxia there was little difference in the rate of release of creatin-kinase for all the substrates tested, but major differences become apparent on reperfusion. In that period the highest values of CK release were found in mannitol perfused hearts, the lowest in glucose perfused hearts. These results suggest that the rate of glycolytic flux during mild ischemia or anoxia may prevent enzyme release. The beneficial effect of glucose has been observed also during reperfusion. In fact enzyme release was higher in hearts reperfused with glucose than with pyruvate. When pyruvate is the only exogenous substrate available for isolated oxigenated hearts, tissue levels of citric acid cycle intermediates are high and oxidation of these substrates can account for 100% of the oxygen consumption. Therefore we suppose that oxidation of noncarbohydrate substrates such as pyruvate in reperfusion is complicated by the high mitochondrial damage. As a consequence anaerobic glycolytic pathway may play a special role in the maintenance of the membrane integrity also in the early phases of reperfusion.

[Prediction of the infarct size by the serum levels of creatin kinase. A new methodological method (author's transl)]. / La previsione dell'area infartuata dai livelli sierici di creatinchinasi. Nuova proposta metodologica.

Logistic equation is proposed as a new mathematical model describing the course of the ascending branch of the serum creatine kinase curve: E(t) = K divided by 1 + ea-bt where: E(t) = CK concentration at time t (mU/ml); t = time in hours from the onset of enzyme release; e = natural logarithm base; K = horizontal asymptote of the curve (maximal enzyme activity); a, b = typical variable prameters of the curve. Prediction is based on the identification of the infection point of the ascending branch of the serum CK curve. The enzyme activity corresponding to this point is half of the maximal one. In 14 patients with acute myocardial infarction infarct size (CK-g-Eq) was calculated by the method of Shell et al. In these patients the average differences between observed and predicted parameters were respectively (X +/- SD): -0.64 +/- 2.13 h for the maximal activity time; 16.57 +/- 53.15 mU/ml for the maximal activity and 0.02 +/- 2.44 CK-g-Eq for the infarct size. In detail it can be observed that the average of the per cent differences between observed and predicted infarct size was 1.10 +/- 5.31% and the maximal per cent difference only +10.40%.