Introduction: Metabolic myopathies (MM) are a heterogeneous group of genetic disorders affecting metabolic pathways involved in energy production during rest, exercise and physiologic stress (fever, fasting, …). Impairments in the pathways of glycolysis/ glycogenolysis, fatty acid transport/oxidation or in the mitochondrial respiratory chain present primarily with exercise intolerance, myalgias, weakness, cramps, or rhabdomyolysis. Depending on aetiology, the diagnosis can be made through neonatal screening, pre-symptomatic or in the set of clinical manifestations for which a high level of suspicion is important.
Methods: Retrospective descriptive study of the clinical, biochemical, and molecular features of patients with a confirmed diagnosis of MM followed by the multidisciplinary team of the Reference Center of Inherited Metabolic Diseases of Centro Hospitalar Universitário de Lisboa Central from 2009 to 2022.
Results: Twenty-three patients with MM were included: 9 (39%) glycogen storage diseases (7 McArdle and 2 Pompe), 7 (30%) fatty acid oxidation disorders (3 CPT2, 3 LCHAD and 1 MAD deficiencies), 6 (26%) mitochondrial disease with significant muscle involvement (2 Pearson, 1 Kearns Sayre, 1 VARS2, 1 SUCLA2 and 1 MT-TL1 deficiencies), and 1 myoadenylate deaminase deficiency. Ages varied from 15 months to 35 years. Eighteen (78%) patients were diagnosed by clinical symptoms, 3 by newborn screening (LCHAD) and 2 were asymptomatic (1 Pompe and 1 McArdle). Frequent symptoms were rhabdomyolysis triggered by illness or exercise 12 (52%), fatigue 11 (48%), exercise intolerance 10 (43%), and myalgia 9 (43%). Eight (35%) patients (LCHAD and mitochondrial) had multisystemic involvement. In 20 (87%) patients, the diagnosis was confirmed by biochemical and/or genetic analysis and 3 (McArdle) by muscle biopsy.
Conclusion: MM are a heterogeneous set of disorders, but a careful history may guide the differential diagnosis among biochemical pathways and other etiologies. Nowadays, molecular testing has become a powerful tool for diagnosis confirmation, surpassing muscular biopsy in most cases. Accurate diagnosis is important to identify who may benefit from specific therapeutic options, such as enzyme replacement therapy, restricted diets, emergency regime and cofactors. All patients benefit from adequate lifestyle modifications, individualized exercise prescription, nutritional intervention, and genetic counselling.
Keywords: fatty acid; fatty acid oxidation disorders; glycogenosis; metabolic myopathies; mitochondrial diseases; rhabdomyolysis.
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