Abstract
Fabry disease (FD) is a lysosomal storage disorder characterised by a deficiency in the enzyme α-galactosidase A resulting in sphingolipid deposition which causes progressive cardiac, renal, and cerebral manifestations. The case illustrates a patient with FD who died suddenly, and medical examination demonstrated myocardial scarring and prior infarction. Angina is a frequent symptom in FD. Our own data are consistent with registry data indicating a high prevalence of risk factors for coronary artery disease (CAD) in FD that may accelerate conventional atherosclerosis. Patients with FD also have a higher high-density lipoprotein (HDL)/total cholesterol (T-Chol) ratio which may further accelerate atherosclerosis through expression of early atherosclerotic markers. Patients with FD may develop CAD both via classical atherosclerosis and through formation of thickened fibrocellular intima containing fibroblasts with storage of sphingolipids. Both mechanisms occurring together may accelerate coronary stenosis, as well as alter myocardial blood flow. Our data supports limited data that, although coronary flow may be reduced, the prevalence of epicardial coronary stenosis is low in FD. Microvascular dysfunction and arterial wall stress from sphingolipid deposition may form reactive oxygen species (ROS) and myeloperoxidase (MPO), key atherosclerotic mediators. Reduced myocardial blood flow in FD has also been demonstrated using numerous imaging modalities suggesting perfusion mismatch. This review describes the above mechanisms in detail, highlighting the importance of modifying cardiovascular risk factors in FD patients who likely develop accelerated atherosclerosis compared to the general population.
Highlights
Fabry disease (FD) is an X-linked multisystem lysosomal storage disorder caused by a deficiency in the enzyme α-galactosidase A [1]
There is limited evidence that patients have renal impairment develop accelerated patients without renal who have renal impairment develop accelerated left ventricular hypertrophy (LVH) compared to FD patients without disease, and that therethere maymay be genetic or other modifying factors thatthat work in renal disease, andtherefore that be genetic or other modifying factors work an incremental fashion on myocyte hypertrophy
Angina is a prevalent cardiac symptom in FD and is due to ischaemia that may be secondary to diverse mechanisms, including microvascular disease, altered coronary vasoreactivity, and perfusion mismatch due to sphingolipid deposition within cardiomyocytes and consequent LVH
Summary
(CMR)vertical verticallong-axis long-axis view demonstrating exsive apical transmural late gadolinium enhancement in a region with myocardial thinning and tensive apical transmural late gadolinium enhancement in a region with myocardial thinning and akinesis, consistent with completed myocardial infarction (A). Examination of the heartassessment and histodemonstrated chronic myocardial scarring corresponding to previous healed logical assessment demonstrated chronic myocardial scarring corresponding to regional previous myocardial infarction that was consistent with the regional wall motion abnormality in a healed regional myocardial infarction that was consistent with the regional wall motion coronary artery distribution, with myocardial thinning and late enhancement imaging that abnormality in a coronary artery distribution, with myocardial thinning and late enhancehad been performed pre-mortem (Figures 5–8). This case illustrates the point that, as Fabry ment imaging that had been performed pre-mortem (Figures 5–8).
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