Andrés Berardo scite author profile

Metabolic myopathies comprise a clinically and etiologically diverse group of disorders caused by defects in cellular energy metabolism, including the breakdown of carbohydrates and fatty acids to generate adenosine triphosphate, predominantly through mitochondrial oxidative phosphorylation. Accordingly, the three main categories of metabolic myopathies are glycogen storage diseases, fatty acid oxidation defects, and mitochondrial disorders due to respiratory chain impairment. The wide clinical spectrum of metabolic myopathies ranges from severe infantile-onset multisystemic diseases to adult-onset isolated myopathies with exertional cramps. Diagnosing these diverse disorders often is challenging because clinical features such as recurrent myoglobinuria and exercise intolerance are common to all three types of metabolic myopathy. Nevertheless, distinct clinical manifestations are important to recognize as they can guide diagnostic testing and lead to the correct diagnosis. This article briefly reviews general clinical aspects of metabolic myopathies and highlights approaches to diagnosing the relatively more frequent subtypes (Fig. 1).

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Hereditary myopathy with early respiratory failure: occurrence in various populations

Palmio

Evilä

Chapon

et al. 2013

Journal of Neurology, Neurosurgery & Psychiatry

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Heterogeneity of Coenzyme Q₁₀Deficiency

Emmanuele¹,

López²,

Berardo³

et al. 2012

Arch Neurol

190

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Expanding the importance of HMERF titinopathy: new mutations and clinical aspects

et al. 2019

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Objective Hereditary myopathy with early respiratory failure (HMERF) is caused by titin A-band mutations in exon 344 and considered quite rare. Respiratory insufficiency is an early symptom. A collection of families and patients with muscle disease suggestive of HMERF was clinically and genetically studied. Methods Altogether 12 new families with 19 affected patients and diverse nationalities were studied. Most of the patients were investigated using targeted next-generation sequencing; Sanger sequencing was applied in some of the patients and available family members. Histological data and muscle MRI findings were evaluated. Results Three families had several family members studied while the rest were single patients. Most patients had distal and proximal muscle weakness together with respiratory insufficiency. Five heterozygous TTN A-band mutations were identified of which two were novel. Also with the novel mutations the muscle pathology and imaging findings were compatible with the previous reports of HMERF. Conclusions Our collection of 12 new families expands mutational spectrum with two new mutations identified. HMERF is not that rare and can be found worldwide, but maybe underdiagnosed. Diagnostic process seems to be complex as this study shows with mostly single patients without clear dominant family history.

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Expanding importance of HMERF titinopathy: new mutations and clinical aspects

Palmio¹,

Leonard²,

Sacconi³

et al. 2017

Neuromuscular Disorders

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Andrés Berardo

A Diagnostic Algorithm for Metabolic Myopathies

Hereditary myopathy with early respiratory failure: occurrence in various populations

Heterogeneity of Coenzyme Q₁₀Deficiency

Expanding the importance of HMERF titinopathy: new mutations and clinical aspects

Expanding importance of HMERF titinopathy: new mutations and clinical aspects

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About

Andrés Berardo

A Diagnostic Algorithm for Metabolic Myopathies

Hereditary myopathy with early respiratory failure: occurrence in various populations

Heterogeneity of Coenzyme Q10Deficiency

Expanding the importance of HMERF titinopathy: new mutations and clinical aspects

Expanding importance of HMERF titinopathy: new mutations and clinical aspects

Contact Info

Product

Resources

About

Heterogeneity of Coenzyme Q₁₀Deficiency