Updates on Mitochondrial Myopathies

Purpose of Review Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapid...

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Published in	Current neurology and neuroscience reports Vol. 25; no. 1; p. 55
Main Authors	Barca, Emanuele, Emmanuele, Valentina
Format	Journal Article
Language	English
Published	New York Springer US 04.08.2025 Springer Nature B.V
Subjects	Adults Animals Ataxia Biopsy Chronic fatigue syndrome Diagnosis Disease DNA, Mitochondrial - genetics Dysphagia Electromyography Epilepsy Exercise Humans Kinases Medicine Medicine & Public Health Metabolism Mitochondria Mitochondrial DNA Mitochondrial Myopathies - diagnosis Mitochondrial Myopathies - genetics Mitochondrial Myopathies - therapy Musculoskeletal system Mutation Neurology Neurosciences Pediatrics Physical fitness Review Rhabdomyolysis TK2 deficiency Mitochondrial myopathy Next-generation sequencing Rhabdomyolysis Muscle biopsy Exercise intolerance
Online Access	Get full text
ISSN	1528-4042 1534-6293 1534-6293
DOI	10.1007/s11910-025-01444-4

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Abstract	Purpose of Review Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions. Recent Findings Large cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders. Summary Recognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes. Human and Animal Rights This article does not contain any studies with human or animal subjects performed by any of the authors.
AbstractList	Purpose of ReviewMitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions.Recent FindingsLarge cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders.SummaryRecognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes.Human and Animal RightsThis article does not contain any studies with human or animal subjects performed by any of the authors. Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions.PURPOSE OF REVIEWMitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions.Large cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders. Recognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes.RECENT FINDINGSLarge cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders. Recognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes.This article does not contain any studies with human or animal subjects performed by any of the authors.HUMAN AND ANIMAL RIGHTSThis article does not contain any studies with human or animal subjects performed by any of the authors. Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions. Large cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders. Recognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes. This article does not contain any studies with human or animal subjects performed by any of the authors. Purpose of Review Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology. This review aims to provide a clinically useful tool for guiding diagnosis and management of MM. We also highlight the rapidly evolving diagnostic and therapeutic landscape, including novel diagnostic approaches and disease-modifying interventions. Recent Findings Large cohort data highlight key clinical subtypes - fixed myopathies, syndromic forms, and metabolic myopathies- with distinct diagnostic implications. Novel tools such as GDF-15, long-read mtDNA sequencing, and multi-omic approaches are enhancing diagnostic sensitivity. Emerging therapies for TK2 deficiency and precision mitochondrial gene editing are progressing rapidly, with several nearing regulatory decisions. Numerous preclinical therapeutic strategies are currently under development, offering promise for improving outcomes in these otherwise devastating disorders. Summary Recognizing MM in clinical settings is essential for timely diagnosis, to guide prognosis and family planning as well as provide access to emerging treatment. A tiered diagnostic approach and integration of new genomic technologies can improve outcomes. Human and Animal Rights This article does not contain any studies with human or animal subjects performed by any of the authors.
ArticleNumber	55
Author	Emmanuele, Valentina Barca, Emanuele
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Keywords	TK2 deficiency Mitochondrial myopathy Next-generation sequencing Rhabdomyolysis Muscle biopsy Exercise intolerance
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Snippet	Purpose of Review Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and... Mitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and pediatric neurology.... Purpose of ReviewMitochondrial myopathies (MM) are a genetically and clinically heterogeneous group of disorders that remain underrecognized in adult and...
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SubjectTerms	Adults Animals Ataxia Biopsy Chronic fatigue syndrome Diagnosis Disease DNA, Mitochondrial - genetics Dysphagia Electromyography Epilepsy Exercise Humans Kinases Medicine Medicine & Public Health Metabolism Mitochondria Mitochondrial DNA Mitochondrial Myopathies - diagnosis Mitochondrial Myopathies - genetics Mitochondrial Myopathies - therapy Musculoskeletal system Mutation Neurology Neurosciences Pediatrics Physical fitness Review Rhabdomyolysis
Title	Updates on Mitochondrial Myopathies
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