Infiltrative cardiomyopathies such as cardiac amyloidosis and Fabry disease are difficult to differentiate from hypertrophic cardiomyopathy (HCM) because these cardiomyopathies share clinical and hemodynamic features of left ventricular (LV) hypertrophy and abnormal diastolic function [1‐13]. Amyloidosis is a systemic and progressive disease and frequently involves more than one organ. Cardiac involvement in amyloidosis is the most important prognostic factor, and when cardiac amyloidosis is the first or main manifestation of the disease, correct diagnosis is sometimes difficult [1‐5]. Fabry disease is a relatively prevalent cause of LV hypertrophy and is associated with significant morbidity and early death due to heart failure or ventricular arrhythmias [6‐9, 14]. Since disease-specific enzyme replacement therapy is now available for Fabry disease, correct diagnosis is important [15, 16]. Although cardiac amyloidosis and cardiac involvement in Fabry disease show concentric LV hypertrophy, LV hypertrophy is usually asymmetric and predominantly septal in HCM, and there is often a considerable phenotypic overlap in infiltrative and hypertrophic cardiomyopathies (Fig. 1) [17].

Recently, a new generation of high-sensitivity assays for cardiac troponins has been developed to identify minimal cardiac damage in the setting of acute coronary syndromes [18, 19]. Elevations of cardiac troponin levels in high-sensitivity assays have been reported to be associated with poor outcome in not only ischemic heart disease but also non-ischemic heart failure [20, 21]. Although high-sensitivity troponin levels seem to be different among various cardiomyopathies, there has been no detailed comparison of these biomarkers’ values [22‐27]. In the present study, we investigated the potential role of high-sensitivity cardiac troponin T (hs-cTnT) for differentiation of infiltrative cardiomyopathy from HCM.

To the best of knowledge, this is the first report that a new generation of assays, hs-cTnT, is able to differentiate accurately between infiltrative cardiomyopathy, including cardiac amyloidosis and cardiac involvement of Fabry disease, and HCM. Serum hs-cTnT is a helpful diagnostic indicator and should be measured in the evaluation of patients with thickening of the LV wall.

Although the underlying cause is different, infiltrative cardiomyopathy and HCM share clinical and hemodynamic features of LV hypertrophy and abnormal diastolic function [1‐13]. It is often difficult to distinguish these entities by routine clinical examinations. Diagnosis of cardiac amyloidosis based on conventional modalities is often only possible once the disease is in a relatively advanced stage [1‐5]. In hemodynamic parameters on echocardiography, a restrictive pattern of transmitral flow velocity, which is considered to be characteristic for cardiac amyloidosis, is not always observed in patients with this disease: cardiac amyloidosis can present as an abnormal relaxation pattern, depending on the left atrial or LV end-diastolic pressure. In Fabry disease, cardiac involvement occurs in the majority of patients and is mainly manifested as LV hypertrophy. There have been several reports of Fabry disease sometimes being undiagnosed in HCM cohorts [6‐9]. On the other hand, clinical management differs among these cardiomyopathies in terms of prognosis and treatment. Compared with HCM, cardiac amyloidosis and Fabry disease are more progressive and show a poorer prognosis. Furthermore, there are several effective treatments available for these infiltrative cardiomyopathies: high-dose chemotherapy and stem-cell transplantation for AL amyloidosis and enzyme replacement therapy for Fabry disease [15, 16, 28]. To optimize survival in patients with these infiltrative cardiomyopathies, early diagnosis and institution of therapy are essential.

In the present study, we evaluated the value of hs-cTnT to distinguish between infiltrative cardiomyopathies and HCM. Serum hs-cTnT level is a useful marker to differentiate two groups. The mechanisms of myocyte injury and release of cardiac troponins in patients with non-ischemic heart failure or cardiomyopathies remain unresolved. Various reasons have been proposed for high troponin levels, including increased wall stress, myocyte damage from inflammatory cytokines or oxidative stress, altered calcium handling, and coronary microvascular dysfunction [29]. For the hypertrophied myocardium, coronary microvascular dysfunction is considered to be the most plausible mechanism for elevation of cardiac troponins. In fact, microvascular dysfunction has been reported in cardiac amyloidosis, Fabry disease, and HCM [30‐32]. Microvascular dysfunction and subsequent ischemia may be important components of the disease progression in patients with cardiac hypertrophy. Although the reason is unclear why hs-cTnT level is higher in patients who had infiltrative cardiomyopathy than in those who had HCM, we speculate that apoptotic or necrotic injury may be induced by the toxic effect of accumulated substances themselves in infiltrative cardiomyopathy.

In the present study, E/Ea at lateral corner (not septal corner) was second highest in area under the curve values in ROC curves to differentiate the two groups. This may result from the findings that amyloid deposition in cardiac amyloidosis is diffuse, whereas LV hypertrophy is usually asymmetric and predominantly septal in HCM.

Measurement of serum hs-cTnT enables accurate discrimination between infiltrative cardiomyopathy and HCM. The combination of this biomarker and conventional echocardiographic parameters helps to differentiate these cardiomyopathies.