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Evidence of direct cardiac damage following high-intensity exercise in chronic energy restriction: A case report and literature review.
Baird, MF, Grace, F, Sculthorpe, N, Graham, SM, Fleming, A, Baker, JS
Medicine. 2017;(27):e7030
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Abstract
RATIONALE Following prolonged endurance events such as marathons, elevated levels of cardiospecific biomarkers are commonly reported. Although transiently raised levels are generally not considered to indicate clinical myocardial damage, comprehension of this phenomenon remains incomplete. The popularity of high-intensity interval training highlights a paucity of research measuring cardiac biomarker response to this type of exercise. This a posteriori case report discusses the elevation of cardiac troponins (cTn) associated with short interval, high-intensity exercise. PATIENT CONCERNS In this case report, an apparently healthy 29-year-old recreationally active female presented clinically raised cardiac troponin I (cTnI) levels (>0.04 ng/mL), after performing high-intensity cycle ergometer sprints. As creatine kinase (CK) is expressed by multiple organs (e.g., skeletal muscle, brain, and myocardium), cTnI assays were performed to determine any changes in total serum CK levels not originating from skeletal muscle damage. DIAGNOSIS A posteriori the individual's daily energy expenditure indicated chronically low-energy availability. Psychometric testing suggested that the individual scored positive for disordered eating, highly for fatigue levels, and low in mental health components. OUTCOMES The current case report provides novel evidence of elevated cTnI occurring as a result of performing short duration, high intensity, cycle ergometer exercise in an individual with self-reported chronically depleted energy balance. A schematic to identify potentially "at risk" individuals is presented. LESSONS Considering this as a case report, results cannot be generalized; however, the main findings suggest that individuals who habitually restrict their calorie intake below their bodies' daily energy requirements, may have elevated biomarkers of exercise induced myocardial stress from performing high-intensity exercise.
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Common scenarios to clarify the interpretation of cardiac markers.
Ross, GE, Bever, FN, Uddin, Z, Devireddy, L, Gardin, JM
The Journal of the American Osteopathic Association. 2004;(4):165-76
Abstract
The authors present a practical approach for physicians in clinical practice to use cardiac troponins in the interpretation of heart disease and myocardial damage. Laboratory results that fall within the intermediate area of facility-specific cutoff reference values for elevated troponin levels confer lower risks to patients than do higher levels of cardiac troponin. Perhaps not surprisingly, the actual anatomy of the vessels at cardiac catheterization does not correlate well with the troponin level. In the six cases presented here, the patients' low levels of troponin release are discussed using the new term minimal myocardial infarction, which is synonymous with conditions that would previously have been diagnosed as unstable angina. Elevated levels of cardiac troponin provide a very sensitive measure for clinicians diagnosing patients with myocardial necrosis, but such measures are also useful in defining a broad spectrum of disease. Whenever the troponin levels are elevated (barring laboratory error), the patient has a poorer prognosis. The greatest challenge for physicians is in determining which patients with cardiac troponin elevation will best benefit from heart catheterization and percutaneous intervention.