a Deutsches Herzzentrum, Technische Universität München, Munich, Germany
b 1. Medizinische Klinik rechts der Isar, Technische Universität München, Munich, Germany
c Klinik und Poliklinik für Nuklearmedizin rechts der Isar, Technische Universität München, Munich, Germany
* Address for correspondence: Dr Adnan Kastrati, Deutsches Herzzentrum München, Lazarettstr. 36, 80636 Munich, Germany. Tel: +49-89-12184577; Fax: +49-89-12184593
E-mail address: kastrati{at}dhm.mhn.de
Received 25 November 2002; revised 5 February 2003; accepted 19 February 2003
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Abstract |
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Methods and results Patients with AMI treated with stenting plus abciximab (n=125) and thrombolysis alone (n=54) or with abciximab (n=71) were prospectively studied. CRP levels were measured by a high sensitivity assay. The threshold of the upper quartile (12mg/l) was used to divide patients into two groups: 60 patients with high CRP (>12mg/l) and 190 patients with low CRP (12 mg/l). Myocardial salvage was measured by technetium (Tc)-99msestamibi scintigraphy. Patients in the high CRP group had a significantly lower salvage index (0.35±0.42 vs 0.48±0.34, p=0.01) and higher 18-month mortality (11.7 vs 3.2%, p=0.03) compared to those in the low CRP group. While basal CRP was not related to myocardial salvage in patients treated with stenting plus abciximab (p=0.89) or thrombolysis plus abciximab (p=0.43), a high CRP on admission was associated with a significantly lower salvage index (0.09±0.48 vs 0.42±0.37 in the low CRP group, p=0.006) among patients treated with thrombolysis alone.
Conclusion CRP levels on admission may predict the efficacy of reperfusion in patients with AMI. The predictive ability is dependent on the form of reperfusion therapy.
Key Words: Inflammation myocardial infarction reperfusion scintigraphy stents thrombolysis
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1. Introduction |
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C-reactive protein (CRP), a marker of low-grade systemic inflammation, has been studied in different subsets of patients with CAD. In patients with acute myocardial infarction (AMI), peak levels of CRP have been associated with infarct size and clinical outcomes.3,4However, the peak of CRP levels is often attained after reperfusion therapy had been applied and cannot serve for guiding selection of initial treatment strategy in patients with AMI. The prognostic value of CRP measured on admission in patients with AMI treated with mechanical or pharmacological reperfusion approaches is not known. Considering the negative impact of inflammation on the reperfusion efficacy and microcirculatory function, it is of interest to know whether CRP level on admission is predictive of myocardial salvage achieved with reperfusion and whether there are treatment specific differences in the possible predictive value.
The objective of our study was to evaluate the correlation between CRP values measured on admission and myocardial salvage assessed by technetium (Tc)-99msestamibi scintigraphy in patients with AMI treated with either coronary stenting or thrombolysis.
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2. Methods |
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Baseline CRP values were available in 288 of the 302 patients included in both STOPAMI trials. Paired scintigraphic studies necessary for the calculation of myocardial salvage were available in 250patients (125 patients treated with stenting and 125 patients treated with thrombolysis [thrombolysis alone in 54 patient and thrombolysis plus abciximab in 71 patients]); they constituted the study population. Of the 38 patients excluded due to incomplete scintigraphic data, 19 patients belonged to the stent group and 19 patients to the thrombolysis group (nine patients to thrombolysis alone and 10 patients to thrombolysis plus abciximab). Follow-up at 18 months was done by phone contact.
2.1. Measurement of CRP
Venous blood samples were collected on admission for each patient and were immediately analysed. CRP was measured by a high sensitivity assay (Tina-quant®). Its analytic sensitivity (lowest measurable CRP concentration that can be distinguished from zero) is 0.03mg/l. The functional sensitivity, i.e. the lowest CRP concentration that can be reproducibly measured with an interassay coefficient of variation <10%, is 0.11mg/l.
2.2. Scintigraphic evaluation
All patients received an intravenous injection of 27mCi (1000MBq) of Tc-99msestamibi beforeinitiation of reperfusion therapy. Single-photon emission computed tomography was done within 68h of injection of the radionuclide to calculate the initial perfusion defect representing the area at risk. A second scintigraphic study was performed at 7 to14 days after reperfusion treatment for the calculation of infarct size. Salvage index was then calculated as the proportion of the initial perfusion defect that was salvaged by reperfusion.
2.3. Statistical analysis
Continuous variables are expressed as mean±SD and discrete variable are expressed as proportions (percentages). The differences between groups were assessed using t test for continuous data and 2test or Fisher's exact test for categorical data. The relationship between CRP values and myocardial salvage (continuous response variable) was adjusted for other covariates including reperfusion strategy, in a multivariate model based on multiple linear regression analysis. Survival analysis was performed applying the KaplanMeier method. For all statistical analysis a p-value of less than 0.05 was considered to indicate a significant difference.
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3. Results |
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3.1. Baseline characteristics
As shown in Table 1, patients with high CRP values were significantly older than those with low CRP values. Regarding infarct characteristics, there was a trend for a longer time to admission interval in patients with high CRP. In addition, baseline creatine kinase (CK)-MB was 39.6±36.4IU/l in the high CRP group and 38.2±48.6IU/l in the low CRP group (p=0.84). In the high CRP group, 55% of the patients were treated with thrombolysis and 45% with stenting; in the low CRP group, 48% of the patients were treated with thrombolysis and 52% with stenting (p=0.37).
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4. Discussion |
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A heightened inflammatory state has been associated with resistance to thrombolytic therapy as well as increased thrombus burden and impaired microvascular perfusion in patients treated for AMI.8Neumann et al.9found that interleukins 6 and 8 caused an increased expression of tissue factor-a potent procoagulant on the surface of monocytes. Additionally, it has been shown that CRP may directly promote thrombosis by activating complement and inducing monocytes to produce tissue factor.10So, while being used as markers of inflammation, the protagonists of inflammatory response such as CRP, can contribute to thrombus formation and its stability; both of them can have an impact on the efficacy of reperfusion therapy in patients with AMI.
Our study population consisted in patients with AMI treated with primary coronary stenting plus abciximab or thrombolysis without or with abciximab. We found that high CRP levels on admission were associated with reduced myocardial salvage. A more detailed analysis showed, however, that baseline CRP levels were not predictive of myocardial salvage in patients treated with stenting. The predictive value of CRP was confined to patients treated with thrombolysis and was particularly evident in those who did not receive abciximab. Therefore, the results of the present study suggest that patients presenting with AMI and increased CRP levels particularly benefit from a primary reperfusion strategy based on coronary artery stenting and/or addition of abciximab.
Abciximab is a glycoprotein IIb/IIIa inhibitor that possesses antithrombotic and anti-inflammatory properties.1113The anti-inflammatory profile might counterbalance the negative effects related to a heightened inflammatory state as reflected by high CRP values. In the Global Use of Strategies to Open Occluded Coronary Arteries (GUSTO) V trial no significant clinical benefit was observed in patients with AMI when abciximab was added to the thrombolytic therapy.14However, this study did not address the potential of a beneficial effect of adjunctive abcximab in the particular subset of patients with AMI who present with an enhanced inflammatory state as reflected by high CRP levels.
No correlation was found between CRP levels on admission and myocardial salvage achieved with stenting in the present study. As all the patients in this group received abciximab as adjunctive therapy, we are not able to say whether the lack of a CRP-related difference in myocardial salvage is attributable to stenting or abciximab. A recent study found also no correlation between baseline CRP levels and final infarct size in 34 patients with AMI treated with primary balloon angioplasty but without abciximab.15However, only patients with full restoration of angiographic flow were included and a different method for infarct size determination was used in the latter study.15
Three additional points deserve special consideration. First, this study has insufficient power to address the endpoint of mortality and patients who died before the second scintigraphic study was performed (required for calculation of myocardial salvage) were excluded. Therefore, the concordant prognostic value of CRP levels with respect to myocardial salvage and survival in the groups with different reperfusion strategies needs confirmation from larger studies. Second, there was a trend for a longer time to admission interval in patients with high CRP compared to those with low CRP. Longer intervals are expected to have a more unfavourable impact on the efficacy of thrombolysis.16,17We cannot fully exclude a certain contribution of this parameter to the relationship observed between CRP levels and myocardial salvage in the group of thrombolysis, although the relationship remained independent after appropriate adjustment in the multivariate model. Third, patients with high CRP values on admission were older compared to those with low CRP values. European Concerted Action on Thrombosis and Disabilities (ECAT) Angina Pectoris Study reported that CRP levels were increased with age.18In this case, too, we cannot fully exclude that an older age might have contributed to the observed association between a high CRP level and decreased myocardial salvage, despite respective adjustment in the multivariate model. Although the exact underlying mechanisms remain unknown, it is important to note that the use of coronary artery stenting and administration of abciximab in patients with AMI blunt the unfavourablerelationship between CRP and myocardialsalvage.
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References |
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