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Rhabdomyolysis

MedGen UID:
19775
Concept ID:
C0035410
Pathologic Function
Synonym: Rhabdomyolysis (disease)
SNOMED CT: Rhabdomyolysis (89010004); Rhabdomyolysis (240131006)
 
HPO: HP:0003201

Definition

Breakdown of muscle fibers that leads to the release of muscle fiber contents (myoglobin) into the bloodstream. [from HPO]

Conditions with this feature

Glycogen storage disease, type V
MedGen UID:
5341
Concept ID:
C0017924
Disease or Syndrome
Glycogen storage disease type V (GSDV, McArdle disease) is a metabolic myopathy characterized by exercise intolerance manifested by rapid fatigue, myalgia, and cramps in exercising muscles. Symptoms are usually precipitated by isometric exercise or sustained aerobic exercise. Most individuals improve their exercise tolerance by exploiting the "second-wind" phenomenon with relief of myalgia and fatigue after a few minutes of rest. Age of onset is frequently in the first decade of life but can vary; however, diagnosis is typically delayed as myalgia and fatigability are dismissed/overlooked. Fixed muscle weakness occurs in approximately 25% of affected individuals, is more likely to involve proximal muscles, and is more common in individuals of advanced age. Approximately 50% of affected individuals have recurrent episodes of myoglobinuria that can – on occasion – eventually result in acute renal failure.
Glycogen storage disease type X
MedGen UID:
120613
Concept ID:
C0268149
Disease or Syndrome
Phosphoglycerate mutase deficiency is a disorder that primarily affects muscles used for movement (skeletal muscles). Beginning in childhood or adolescence, affected individuals experience muscle aches or cramping following strenuous physical activity. Some people with this condition also have recurrent episodes of myoglobinuria. Myoglobinuria occurs when muscle tissue breaks down abnormally and releases a protein called myoglobin, which is processed by the kidneys and released in the urine. If untreated, myoglobinuria can lead to kidney failure.\n\nIn some cases of phosphoglycerate mutase deficiency, microscopic tube-shaped structures called tubular aggregates are seen in muscle fibers. It is unclear how tubular aggregates are associated with the signs and symptoms of the disorder.
Familial hypokalemia-hypomagnesemia
MedGen UID:
75681
Concept ID:
C0268450
Disease or Syndrome
Gitelman syndrome (GTLMNS) is an autosomal recessive renal tubular salt-wasting disorder characterized by hypokalemic metabolic alkalosis with hypomagnesemia and hypocalciuria. It is the most common renal tubular disorder among Caucasians (prevalence of 1 in 40,000). Most patients have onset of symptoms as adults, but some present in childhood. Clinical features include transient periods of muscle weakness and tetany, abdominal pains, and chondrocalcinosis (summary by Glaudemans et al., 2012). Gitelman syndrome is sometimes referred to as a mild variant of classic Bartter syndrome (607364). For a discussion of genetic heterogeneity of Bartter syndrome, see 607364.
Carnitine acylcarnitine translocase deficiency
MedGen UID:
91000
Concept ID:
C0342791
Disease or Syndrome
Carnitine-acylcarnitine translocase (CACT) is a critical component of the carnitine shuttle, which facilitates the transfer of long-chain fatty acylcarnitines across the inner mitochondrial membrane. CACT deficiency causes a defect in mitochondrial long-chain fatty acid ß-oxidation, with variable clinical severity. Severe neonatal-onset disease is most common, with symptoms evident within two days after birth; attenuated cases may present in the first months of life. Hyperammonemia and cardiac arrhythmia are prominent in early-onset disease, with high rates of cardiac arrest. Other clinical features are typical for disorders of long-chain fatty acid oxidation: poor feeding, lethargy, hypoketotic hypoglycemia, hypotonia, transaminitis, liver dysfunction with hepatomegaly, and rhabdomyolysis. Univentricular or biventricular hypertrophic cardiomyopathy, ranging from mild to severe, may respond to appropriate dietary and medical therapies. Hyperammonemia is difficult to treat and is an important determinant of long-term neurocognitive outcome. Affected individuals with early-onset disease typically experience brain injury at presentation, and have recurrent hyperammonemia leading to developmental delay / intellectual disability. Affected individuals with later-onset disease have milder symptoms and are less likely to experience recurrent hyperammonemia, allowing a better developmental outcome. Prompt treatment of the presenting episode to prevent hypoglycemic, hypoxic, or hyperammonemic brain injury may allow normal growth and development.
McLeod neuroacanthocytosis syndrome
MedGen UID:
140765
Concept ID:
C0398568
Disease or Syndrome
McLeod neuroacanthocytosis syndrome (designated as MLS throughout this review) is a multisystem disorder with central nervous system (CNS), neuromuscular, cardiovascular, and hematologic manifestations in males: CNS manifestations are a neurodegenerative basal ganglia disease including movement disorders, cognitive alterations, and psychiatric symptoms. Neuromuscular manifestations include a (mostly subclinical) sensorimotor axonopathy and muscle weakness or atrophy of different degrees. Cardiac manifestations include dilated cardiomyopathy, atrial fibrillation, and tachyarrhythmia. Hematologically, MLS is defined as a specific blood group phenotype (named after the first proband, Hugh McLeod) that results from absent expression of the Kx erythrocyte antigen and weakened expression of Kell blood group antigens. The hematologic manifestations are red blood cell acanthocytosis and compensated hemolysis. Alloantibodies in the Kell and Kx blood group system can cause strong reactions to transfusions of incompatible blood and severe anemia in affected male newborns of Kell-negative mothers. Females heterozygous for XK pathogenic variants have mosaicism for the Kell and Kx blood group antigens. Although they usually lack CNS and neuromuscular manifestations, some heterozygous females may develop clinical manifestations including chorea or late-onset cognitive decline.
Carnitine palmitoyl transferase II deficiency, myopathic form
MedGen UID:
371584
Concept ID:
C1833508
Disease or Syndrome
Carnitine palmitoyltransferase II (CPT II) deficiency is a disorder of long-chain fatty-acid oxidation. The three clinical presentations are lethal neonatal form, severe infantile hepatocardiomuscular form, and myopathic form (which is usually mild and can manifest from infancy to adulthood). While the former two are severe multisystemic diseases characterized by liver failure with hypoketotic hypoglycemia, cardiomyopathy, seizures, and early death, the latter is characterized by exercise-induced muscle pain and weakness, sometimes associated with myoglobinuria. The myopathic form of CPT II deficiency is the most common disorder of lipid metabolism affecting skeletal muscle and the most frequent cause of hereditary myoglobinuria. Males are more likely to be affected than females.
Progressive external ophthalmoplegia with mitochondrial DNA deletions, autosomal dominant 1
MedGen UID:
371919
Concept ID:
C1834846
Disease or Syndrome
POLG-related disorders comprise a continuum of overlapping phenotypes that were clinically defined long before their molecular basis was known. Most affected individuals have some, but not all, of the features of a given phenotype; nonetheless, the following nomenclature can assist the clinician in diagnosis and management. Onset of the POLG-related disorders ranges from infancy to late adulthood. Alpers-Huttenlocher syndrome (AHS), one of the most severe phenotypes, is characterized by childhood-onset progressive and ultimately severe encephalopathy with intractable epilepsy and hepatic failure. Childhood myocerebrohepatopathy spectrum (MCHS) presents between the first few months of life and about age three years with developmental delay or dementia, lactic acidosis, and a myopathy with failure to thrive. Other findings can include liver failure, renal tubular acidosis, pancreatitis, cyclic vomiting, and hearing loss. Myoclonic epilepsy myopathy sensory ataxia (MEMSA) now describes the spectrum of disorders with epilepsy, myopathy, and ataxia without ophthalmoplegia. MEMSA now includes the disorders previously described as spinocerebellar ataxia with epilepsy (SCAE). The ataxia neuropathy spectrum (ANS) includes the phenotypes previously referred to as mitochondrial recessive ataxia syndrome (MIRAS) and sensory ataxia neuropathy dysarthria and ophthalmoplegia (SANDO). About 90% of persons in the ANS have ataxia and neuropathy as core features. Approximately two thirds develop seizures and almost one half develop ophthalmoplegia; clinical myopathy is rare. Autosomal recessive progressive external ophthalmoplegia (arPEO) is characterized by progressive weakness of the extraocular eye muscles resulting in ptosis and ophthalmoparesis (or paresis of the extraocular muscles) without associated systemic involvement; however, caution is advised because many individuals with apparently isolated arPEO at the onset develop other manifestations of POLG-related disorders over years or decades. Of note, in the ANS spectrum the neuropathy commonly precedes the onset of PEO by years to decades. Autosomal dominant progressive external ophthalmoplegia (adPEO) typically includes a generalized myopathy and often variable degrees of sensorineural hearing loss, axonal neuropathy, ataxia, depression, parkinsonism, hypogonadism, and cataracts (in what has been called "chronic progressive external ophthalmoplegia plus," or "CPEO+").
Malignant hyperthermia, susceptibility to, 4
MedGen UID:
324944
Concept ID:
C1838102
Finding
Malignant hyperthermia susceptibility (MHS) is a pharmacogenetic disorder of skeletal muscle calcium regulation associated with uncontrolled skeletal muscle hypermetabolism. Manifestations of malignant hyperthermia (MH) are precipitated by certain volatile anesthetics (i.e., halothane, isoflurane, sevoflurane, desflurane, enflurane), either alone or in conjunction with a depolarizing muscle relaxant (specifically, succinylcholine). The triggering substances cause uncontrolled release of calcium from the sarcoplasmic reticulum and may promote entry of extracellular calcium into the myoplasm, causing contracture of skeletal muscles, glycogenolysis, and increased cellular metabolism, resulting in production of heat and excess lactate. Affected individuals experience acidosis, hypercapnia, tachycardia, hyperthermia, muscle rigidity, compartment syndrome, rhabdomyolysis with subsequent increase in serum creatine kinase (CK) concentration, hyperkalemia with a risk for cardiac arrhythmia or even cardiac arrest, and myoglobinuria with a risk for renal failure. In nearly all cases, the first manifestations of MH (tachycardia and tachypnea) occur in the operating room; however, MH may also occur in the early postoperative period. There is mounting evidence that some individuals with MHS will also develop MH with exercise and/or on exposure to hot environments. Without proper and prompt treatment with dantrolene sodium, mortality is extremely high.
Hereditary myopathy with lactic acidosis due to ISCU deficiency
MedGen UID:
342573
Concept ID:
C1850718
Disease or Syndrome
Hereditary myopathy with lactic acidosis (HML) is an autosomal recessive muscular disorder characterized by childhood onset of exercise intolerance with muscle tenderness, cramping, dyspnea, and palpitations. Biochemical features include lactic acidosis and, rarely, rhabdomyolysis. It is a chronic disorder with remission and exacerbation of the muscle phenotype (summary by Sanaker et al., 2010).
Fatal mitochondrial disease due to combined oxidative phosphorylation defect type 3
MedGen UID:
355842
Concept ID:
C1864840
Disease or Syndrome
Combined oxidative phosphorylation deficiency type 3 is an extremely rare clinically heterogenous disorder described in about 5 patients to date. Clinical signs included hypotonia, lactic acidosis, and hepatic insufficiency, with progressive encephalomyopathy or hypertrophic cardiomyopathy.
Medium chain 3-ketoacyl-Coa thiolase deficiency
MedGen UID:
356367
Concept ID:
C1865781
Disease or Syndrome
Mitochondrial trifunctional protein deficiency
MedGen UID:
370665
Concept ID:
C1969443
Disease or Syndrome
Long-chain hydroxyacyl-CoA dehydrogenase (LCHAD) deficiency and trifunctional protein (TFP) deficiency are caused by impairment of mitochondrial TFP. TFP has three enzymatic activities – long-chain enoyl-CoA hydratase, long-chain 3-hydroxyacyl-CoA dehydrogenase, and long-chain 3-ketoacyl-CoA thiolase. In individuals with LCHAD deficiency, there is isolated deficiency of long-chain 3-hydroxyacyl-CoA dehydrogenase, while deficiency of all three enzymes occurs in individuals with TFP deficiency. Individuals with TFP deficiency can present with a severe-to-mild phenotype, while individuals with LCHAD deficiency typically present with a severe-to-intermediate phenotype. Neonates with the severe phenotype present within a few days of birth with hypoglycemia, hepatomegaly, encephalopathy, and often cardiomyopathy. The intermediate phenotype is characterized by hypoketotic hypoglycemia precipitated by infection or fasting in infancy. The mild (late-onset) phenotype is characterized by myopathy and/or neuropathy. Long-term complications include peripheral neuropathy and retinopathy.
Glycogen storage disease due to phosphoglycerate kinase 1 deficiency
MedGen UID:
410166
Concept ID:
C1970848
Disease or Syndrome
Phosphoglycerate kinase-1 deficiency is an X-linked recessive condition with a highly variable clinical phenotype that includes hemolytic anemia, myopathy, and neurologic involvement. Patients can express 1, 2, or all 3 of these manifestations (Shirakawa et al., 2006).
Thyrotoxic periodic paralysis, susceptibility to, 1
MedGen UID:
413199
Concept ID:
C2749982
Finding
Thyrotoxic periodic paralysis is a sporadic muscle disorder characterized by episodic attacks of weakness associated with hypokalemia in individuals with hyperthyroidism. The paralysis resolves upon treatment of hyperthyroidism. The disorder is most common among males of Asian descent, including Chinese, Japanese, Vietnamese, Filipino, and Koreans, although it occurs less commonly in individuals of Caucasian background. Thyrotoxic periodic paralysis is clinically similar to hereditary hypokalemic periodic paralysis (HOKPP; 170400), but the paralysis in TTPP occurs only in the presence of hyperthyroidism. TTPP can also be precipitated by factors that result in hypokalemia, such as carbohydrate ingestion and rest after exercise (review by Kung, 2006). Genetic Heterogeneity of Thyrotoxic Periodic Paralysis See also TTPP2 (613239), conferred by variation in the KCNJ18 gene (613236) on chromosome 17p11, and TTPP3 (614834), mapped to chromosome 17q24.
PGM1-congenital disorder of glycosylation
MedGen UID:
414536
Concept ID:
C2752015
Disease or Syndrome
Congenital disorder of glycosylation type It (CDG1T) is an autosomal recessive disorder characterized by a wide range of clinical manifestations and severity. The most common features include cleft lip and bifid uvula, apparent at birth, followed by hepatopathy, intermittent hypoglycemia, short stature, and exercise intolerance, often accompanied by increased serum creatine kinase. Less common features include rhabdomyolysis, dilated cardiomyopathy, and hypogonadotropic hypogonadism (summary by Tegtmeyer et al., 2014). For a discussion of the classification of CDGs, see CDG1A (212065).
Malignant hyperthermia, susceptibility to, 1
MedGen UID:
443948
Concept ID:
C2930980
Finding
Malignant hyperthermia susceptibility (MHS) is a pharmacogenetic disorder of skeletal muscle calcium regulation associated with uncontrolled skeletal muscle hypermetabolism. Manifestations of malignant hyperthermia (MH) are precipitated by certain volatile anesthetics (i.e., halothane, isoflurane, sevoflurane, desflurane, enflurane), either alone or in conjunction with a depolarizing muscle relaxant (specifically, succinylcholine). The triggering substances cause uncontrolled release of calcium from the sarcoplasmic reticulum and may promote entry of extracellular calcium into the myoplasm, causing contracture of skeletal muscles, glycogenolysis, and increased cellular metabolism, resulting in production of heat and excess lactate. Affected individuals experience acidosis, hypercapnia, tachycardia, hyperthermia, muscle rigidity, compartment syndrome, rhabdomyolysis with subsequent increase in serum creatine kinase (CK) concentration, hyperkalemia with a risk for cardiac arrhythmia or even cardiac arrest, and myoglobinuria with a risk for renal failure. In nearly all cases, the first manifestations of MH (tachycardia and tachypnea) occur in the operating room; however, MH may also occur in the early postoperative period. There is mounting evidence that some individuals with MHS will also develop MH with exercise and/or on exposure to hot environments. Without proper and prompt treatment with dantrolene sodium, mortality is extremely high.
Glycogen storage disease due to lactate dehydrogenase M-subunit deficiency
MedGen UID:
419152
Concept ID:
C2931743
Disease or Syndrome
Lactate dehydrogenase deficiency is a condition that affects how the body breaks down sugar to use as energy in cells, primarily muscle cells.\n\nThere are two types of this condition: lactate dehydrogenase-A deficiency (sometimes called glycogen storage disease XI) and lactate dehydrogenase-B deficiency.\n\nPeople with lactate dehydrogenase-B deficiency typically do not have any signs or symptoms of the condition. They do not have difficulty with physical activity or any specific physical features related to the condition. Affected individuals are usually discovered only when routine blood tests reveal reduced lactate dehydrogenase activity.\n\nPeople with lactate dehydrogenase-A deficiency experience fatigue, muscle pain, and cramps during exercise (exercise intolerance). In some people with lactate dehydrogenase-A deficiency, high-intensity exercise or other strenuous activity leads to the breakdown of muscle tissue (rhabdomyolysis). The destruction of muscle tissue releases a protein called myoglobin, which is processed by the kidneys and released in the urine (myoglobinuria). Myoglobin causes the urine to be red or brown. This protein can also damage the kidneys, in some cases leading to life-threatening kidney failure. Some people with lactate dehydrogenase-A deficiency develop skin rashes. The severity of the signs and symptoms among individuals with lactate dehydrogenase-A deficiency varies greatly.
Mitochondrial complex III deficiency nuclear type 1
MedGen UID:
762097
Concept ID:
C3541471
Disease or Syndrome
Autosomal recessive mitochondrial complex III deficiency is a severe multisystem disorder with onset at birth of lactic acidosis, hypotonia, hypoglycemia, failure to thrive, encephalopathy, and delayed psychomotor development. Visceral involvement, including hepatopathy and renal tubulopathy, may also occur. Many patients die in early childhood, but some may show longer survival (de Lonlay et al., 2001; De Meirleir et al., 2003). Genetic Heterogeneity of Mitochondrial Complex III Deficiency Mitochondrial complex III deficiency can be caused by mutation in several different nuclear-encoded genes. See MC3DN2 (615157), caused by mutation in the TTC19 gene (613814) on chromosome 17p12; MC3DN3 (615158), caused by mutation in the UQCRB gene (191330) on chromosome 8q; MC3DN4 (615159), caused by mutation in the UQCRQ gene (612080) on chromosome 5q31; MC3DN5 (615160), caused by mutation in the UQCRC2 gene (191329) on chromosome 16p12; MC3DN6 (615453), caused by mutation in the CYC1 gene (123980) on chromosome 8q24; MC3DN7 (615824), caused by mutation in the UQCC2 gene (614461) on chromosome 6p21; MC3DN8 (615838), caused by mutation in the LYRM7 gene (615831) on chromosome 5q23; MC3DN9 (616111), caused by mutation in the UQCC3 gene (616097) on chromosome 11q12; and MC3DN10 (618775), caused by mutation in the UQCRFS1 gene (191327) on chromosome 19q12. See also MTYCB (516020) for a discussion of a milder phenotype associated with isolated mitochondrial complex III deficiency and mutations in a mitochondrial-encoded gene.
Muscle AMP deaminase deficiency
MedGen UID:
811508
Concept ID:
C3714933
Disease or Syndrome
Myoadenylate deaminase deficiency (MMDD) is an autosomal recessive condition that can manifest as exercise-induced muscle pain, occasionally associated with rhabdomyolysis and/or increased serum creatine kinase, or even infantile hypotonia. However, the finding of homozygous mutations among asymptomatic individuals have suggested to some (e.g., Verzijl et al., 1998) that AMPD1 deficiency may be a harmless entity (summary by Castro-Gago et al., 2011). Genetta et al. (2001) stated that AMPD1 deficiency is the most prevalent genetic disease in humans, the number of people heterozygous approaching 10% of Caucasians and individuals of African descent (Sabina et al., 1989). A small percentage of homozygous-deficient individuals, approximately 1.8% of the population, display symptoms of chronic fatigue and lost productivity as well as a predisposition to stress-related ailments, including heart disease and stroke, according to Genetta et al. (2001).
Progressive external ophthalmoplegia with mitochondrial DNA deletions, autosomal recessive 4
MedGen UID:
934700
Concept ID:
C4310733
Disease or Syndrome
Autosomal recessive progressive external ophthalmoplegia with mitochondrial DNA deletions-4 (PEOB4) is characterized by adult onset of eye muscle weakness and proximal limb muscle weakness associated with deletions of mtDNA on skeletal muscle biopsy, which results from defective mtDNA replication in post-mitotic muscle tissue. Additional features are more variable (summary by Ronchi et al., 2012). For a discussion of genetic heterogeneity of autosomal recessive PEO, see PEOB1 (258450).
Mitochondrial complex 5 (ATP synthase) deficiency nuclear type 5
MedGen UID:
1648429
Concept ID:
C4748269
Disease or Syndrome
Encephalopathy, progressive, early-onset, with episodic rhabdomyolysis
MedGen UID:
1682670
Concept ID:
C5193033
Disease or Syndrome
Metabolic crises, recurrent, with variable encephalomyopathic features and neurologic regression
MedGen UID:
1681269
Concept ID:
C5193083
Disease or Syndrome
Recurrent metabolic crises with variable encephalomyopathic features and neurologic regression (MECREN) is an autosomal recessive metabolic disorder with a highly variable phenotype. Most affected individuals present in the first years of life with episodic lactic acidosis associated with illness or stress, resulting in transient or permanent neurologic dysfunction. Some patients may recover, whereas others show subsequent variable developmental regression of motor and cognitive skills. Other features may include dystonia, hypotonia with inability to sit or walk, seizures, and abnormal signals in the basal ganglia. There is significant phenotypic heterogeneity, even among patients with the same mutation (summary by Almannai et al., 2018).
Mitochondrial myopathy, episodic, with optic atrophy and reversible leukoencephalopathy
MedGen UID:
1679560
Concept ID:
C5193223
Disease or Syndrome
Episodic mitochondrial myopathy with or without optic atrophy and reversible leukoencephalopathy (MEOAL) is an autosomal recessive neuromuscular disorder characterized mainly by childhood onset of progressive muscle weakness and exercise intolerance. Patients have episodic exacerbation, which may be associated with increased serum creatine kinase or lactic acid. Additional more variable features may include optic atrophy, reversible leukoencephalopathy, and later onset of a sensorimotor polyneuropathy. The disorder results from impaired formation of Fe-S clusters, which are essential cofactors for proper mitochondrial function (summary by Gurgel-Giannetti et al., 2018)
Recurrent metabolic encephalomyopathic crises-rhabdomyolysis-cardiac arrhythmia-intellectual disability syndrome
MedGen UID:
1798947
Concept ID:
C5567524
Disease or Syndrome
Individuals with TANGO2-related metabolic encephalopathy and arrhythmias can present in acute metabolic crisis (hypoglycemia, elevated lactate, mild hyperammonemia) or with developmental delay, regression, and/or seizures. The acute presentation varies from profound muscle weakness, ataxia, and/or disorientation to a comatose state. Individuals can present with intermittent acute episodes of rhabdomyolysis. The first episode of myoglobinuria has been known to occur as early as age five months. Acute renal tubular damage due to myoglobinuria can result in acute kidney injury and renal failure. During acute illness, transient electrocardiogram changes can be seen; the most common is QT prolongation. Life-threatening recurrent ventricular tachycardia or torsade de pointes occurs primarily during times of acute illness. Individuals who do not present in metabolic crises may present with gait incoordination, progressively unsteady gait, difficulty with speech, or clumsiness. Intellectual disability of variable severity is observed in almost all individuals. Seizures are observed outside the periods of crises in more than 75% of individuals. Hypothyroidism has been reported in more than one third of individuals.
Myopathy with myalgia, increased serum creatine kinase, and with or without episodic rhabdomyolysis
MedGen UID:
1824033
Concept ID:
C5774260
Disease or Syndrome
Myopathy with myalgia, increased serum creatine kinase, and with or without episodic rhabdomyolysis-1 (MMCKR1) is an autosomal recessive skeletal muscle disorder characterized by the onset of muscle cramping and stiffness on exertion in infancy or early childhood, although later (even adult) onset has also been reported. The features remit with rest, but some individuals develop mild proximal or distal muscle weakness. Rare affected individuals may demonstrate cardiac involvement, including left ventricular dysfunction or rhythm abnormalities. Laboratory studies show increased baseline serum creatine kinase levels with episodic spikes that may coincide with rhabdomyolysis. EMG shows myopathic changes, and muscle biopsy shows nonspecific myopathic or degenerative features (Lopes Abath Neto et al., 2021; Salzer-Sheelo et al., 2022). Genetic Heterogeneity of Myopathy with Myalgia, Increased Serum Creatine Kinase, and with or without Episodic Rhabdomyolysis MMCKR2 (620971) is caused by mutation in the DTNA gene (601239) on chromosome 18q12.
Rhabdomyolysis, susceptibility to, 1
MedGen UID:
1824080
Concept ID:
C5774307
Finding
Susceptibility to rhabdomyolysis-1 (RHABDO1) is an autosomal recessive disorder characterized by recurrent episodes of rhabdomyolysis beginning in the teenage years. Some of the episodes may be triggered by exercise or heat; others occur spontaneously. Severe cases may result in acute renal failure or compartment syndrome. Affected individuals tend to have myalgia or muscle weakness in childhood and between episodes. Laboratory studies show increased serum creatine kinase and nonspecific myopathic features on skeletal muscle biopsy (Cabrera-Serrano et al., 2022).
Nemaline myopathy 5B, autosomal recessive, childhood-onset
MedGen UID:
1841181
Concept ID:
C5830545
Disease or Syndrome
Autosomal recessive childhood-onset nemaline myopathy-5B (NEM5B) is a skeletal muscle disorder in which patients usually present with proximal muscle weakness of the lower and upper limbs in a limb-girdle distribution, resulting in gait abnormalities; however, most remain ambulatory even into late adulthood. Some affected individuals show delayed motor development. There is axial weakness and atrophy of the paraspinal muscles, along with kyphosis, scoliosis, and rigid spine, as well as variable limitations of the large joints. Most patients develop restrictive respiratory insufficiency with decreased forced vital capacity; some need noninvasive ventilation. Serum creatine kinase may be elevated. Muscle biopsy can show variable features, including nemaline rods, multiminicore lesions, endomysial fibrosis, and myofibrillar changes (Pellerin et al., 2020; Lee et al., 2022). For a discussion of genetic heterogeneity of nemaline myopathy, see NEM2 (256030).

Professional guidelines

PubMed

Newman CB
Endocrinol Metab Clin North Am 2022 Sep;51(3):655-679. Epub 2022 Jul 8 doi: 10.1016/j.ecl.2022.01.004. PMID: 35963634
Gregory H, Weant KA
Adv Emerg Nurs J 2021 Apr-Jun 01;43(2):102-110. doi: 10.1097/TME.0000000000000344. PMID: 33915557
Horodinschi RN, Stanescu AMA, Bratu OG, Pantea Stoian A, Radavoi DG, Diaconu CC
Medicina (Kaunas) 2019 Oct 30;55(11) doi: 10.3390/medicina55110721. PMID: 31671689Free PMC Article

Recent clinical studies

Etiology

Newman CB
Endocrinol Metab Clin North Am 2022 Sep;51(3):655-679. Epub 2022 Jul 8 doi: 10.1016/j.ecl.2022.01.004. PMID: 35963634
Gupta A, Thorson P, Penmatsa KR, Gupta P
Ulster Med J 2021 May;90(2):61-69. Epub 2021 Jul 8 PMID: 34276082Free PMC Article
Chavez LO, Leon M, Einav S, Varon J
Crit Care 2016 Jun 15;20(1):135. doi: 10.1186/s13054-016-1314-5. PMID: 27301374Free PMC Article
Khan FY
Neth J Med 2009 Oct;67(9):272-83. PMID: 19841484
Huerta-Alardín AL, Varon J, Marik PE
Crit Care 2005 Apr;9(2):158-69. Epub 2004 Oct 20 doi: 10.1186/cc2978. PMID: 15774072Free PMC Article

Diagnosis

Baeza-Trinidad R
Med Clin (Barc) 2022 Mar 25;158(6):277-283. Epub 2021 Dec 3 doi: 10.1016/j.medcli.2021.09.025. PMID: 34872769
Gupta A, Thorson P, Penmatsa KR, Gupta P
Ulster Med J 2021 May;90(2):61-69. Epub 2021 Jul 8 PMID: 34276082Free PMC Article
Cabral BMI, Edding SN, Portocarrero JP, Lerma EV
Dis Mon 2020 Aug;66(8):101015. Epub 2020 Jun 10 doi: 10.1016/j.disamonth.2020.101015. PMID: 32532456
Szugye HS
Pediatr Rev 2020 Jun;41(6):265-275. doi: 10.1542/pir.2018-0300. PMID: 32482689
Zimmerman JL, Shen MC
Chest 2013 Sep;144(3):1058-1065. doi: 10.1378/chest.12-2016. PMID: 24008958

Therapy

Baeza-Trinidad R
Med Clin (Barc) 2022 Mar 25;158(6):277-283. Epub 2021 Dec 3 doi: 10.1016/j.medcli.2021.09.025. PMID: 34872769
Szugye HS
Pediatr Rev 2020 Jun;41(6):265-275. doi: 10.1542/pir.2018-0300. PMID: 32482689
Chavez LO, Leon M, Einav S, Varon J
Crit Care 2016 Jun 15;20(1):135. doi: 10.1186/s13054-016-1314-5. PMID: 27301374Free PMC Article
Schachter M
Fundam Clin Pharmacol 2005 Feb;19(1):117-25. doi: 10.1111/j.1472-8206.2004.00299.x. PMID: 15660968
Lennernäs H
Clin Pharmacokinet 2003;42(13):1141-60. doi: 10.2165/00003088-200342130-00005. PMID: 14531725

Prognosis

Harrois A, Libert N, Duranteau J
Curr Opin Crit Care 2017 Dec;23(6):447-456. doi: 10.1097/MCC.0000000000000463. PMID: 29035925
Fernandes V, Santos MJ, Pérez A
Endocrinol Nutr 2016 May;63(5):239-49. Epub 2016 Mar 19 doi: 10.1016/j.endonu.2016.01.001. PMID: 27005745
McMahon GM, Zeng X, Waikar SS
JAMA Intern Med 2013 Oct 28;173(19):1821-8. doi: 10.1001/jamainternmed.2013.9774. PMID: 24000014Free PMC Article
Melli G, Chaudhry V, Cornblath DR
Medicine (Baltimore) 2005 Nov;84(6):377-385. doi: 10.1097/01.md.0000188565.48918.41. PMID: 16267412
Sinert R, Kohl L, Rainone T, Scalea T
Ann Emerg Med 1994 Jun;23(6):1301-6. doi: 10.1016/s0196-0644(94)70356-6. PMID: 8198305

Clinical prediction guides

Schwier NC, Cornelio CK, Boylan PM
Pharmacotherapy 2022 Apr;42(4):320-333. Epub 2022 Feb 25 doi: 10.1002/phar.2674. PMID: 35175631
King B, Guttman-Yassky E, Peeva E, Banerjee A, Sinclair R, Pavel AB, Zhu L, Cox LA, Craiglow B, Chen L, Banfield C, Page K, Zhang W, Vincent MS
J Am Acad Dermatol 2021 Aug;85(2):379-387. Epub 2021 Mar 20 doi: 10.1016/j.jaad.2021.03.050. PMID: 33757798
Cabral BMI, Edding SN, Portocarrero JP, Lerma EV
Dis Mon 2020 Aug;66(8):101015. Epub 2020 Jun 10 doi: 10.1016/j.disamonth.2020.101015. PMID: 32532456
Zimmerman JL, Shen MC
Chest 2013 Sep;144(3):1058-1065. doi: 10.1378/chest.12-2016. PMID: 24008958
McMahon GM, Zeng X, Waikar SS
JAMA Intern Med 2013 Oct 28;173(19):1821-8. doi: 10.1001/jamainternmed.2013.9774. PMID: 24000014Free PMC Article

Recent systematic reviews

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