Assessment of Coronary Reperfusion After Thrombolysis With a Model Combining Myoglobin, Creatine Kinase–MB, and Clinical Variables

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Circulation. 1997;96:1776-1782

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Assessment of Coronary Reperfusion After Thrombolysis With a Model Combining Myoglobin, Creatine Kinase–MB, and Clinical Variables

Robert H. Christenson, PhD; E. Magnus Ohman, MD; Eric J. Topol, MD; Steven Peck, PhD; L. Kristin Newby, MD; Show-Hong Duh, PhD; Dean J. Kereiakes, MD; Seth J. Worley, MD; Gladys L. Alosozana, MD; Thomas C. Wall, MD; Robert M. Califf, MD; ; 7 Study Group ;

From the Department of Pathology (R.H.C., S.-H.D., G.L.A.), University of Maryland School of Medicine, Baltimore; Department of Medicine (E.M.O., S.P., L.K.N., R.M.C.), Division of Cardiology, Duke University Medical Center, Durham, NC; Department of Cardiology (E.J.T.), Cleveland Clinic Foundation, Cleveland, Ohio; The Christ Hospital (D.J.K.), Cincinnati, Ohio; Lancaster (Pa) General Hospital (S.J.W.); and Moses Cone Hospital (T.C.W.), Greensboro, NC.

Correspondence to Dr Robert H. Christenson, Clinical Pathology, University of Maryland Medical Center, 22 S Greene St, Baltimore, MD 21201.

Background Several biochemical markers have been investigatedfor the noninvasive assessment of reperfusion after myocardialinfarction. Because myoglobin is released very soon after myocardialinjury and clears rapidly after reperfusion, it may prove to bean excellent marker of occlusion and reperfusion.

Methods and Results We examined the relation between variousmyoglobin measures and Thrombolysis In Myocardial Infarction(TIMI) flow grade in 96 patients enrolled in a study of front-loadedthrombolysis who underwent 90-minute angiography. We also combinedmyoglobin measures with models that include clinical and creatinekinase–MB variables. The myoglobin level measured within10 minutes of acute angiography showed the best overall performanceand was used for later analyses. Of the clinical variables examined,only time from symptom onset to thrombolysis and chest paingrade at angiography discriminated among TIMI flow grades. Combiningthe 90-minute myoglobin level and these clinical variables showeda significant difference (P<.0001) between both TIMI 3 versusTIMI 0 through 2 and TIMI 2 or 3 versus TIMI 0 or 1 flow. Whenthe 90-minute myoglobin level was added to an established predictivemodel containing clinical variables and creatine kinase–MBmeasures, its contribution remained significant (P=.044). Thearea under the receiver operator characteristic curve for thiscombined model was .88.

Conclusions A single myoglobin measurement obtained 90 minutesafter the start of thrombolysis, combined with select clinicalvariables and creatine kinase–MB levels, enhances the noninvasiveprediction of reperfusion after myocardial infarction.

Key Words: creatine kinase • myoglobin • reperfusion • thrombolysis

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