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Decreased liver function

MedGen UID:
65430
Concept ID:
C0232744
Finding
Synonyms: Decreased hepatic function; Hepatopathy; Liver dysfunction; Liver dysfunction, mild
SNOMED CT: Decreased liver function (77981007); Decreased hepatic function (77981007)
 
HPO: HP:0001410

Definition

Reduced ability of the liver to perform its functions. [from HPO]

Conditions with this feature

Deficiency of UDPglucose-hexose-1-phosphate uridylyltransferase
MedGen UID:
82777
Concept ID:
C0268151
Disease or Syndrome
The term "galactosemia" refers to disorders of galactose metabolism that include classic galactosemia, clinical variant galactosemia, and biochemical variant galactosemia (not covered in this chapter). This GeneReview focuses on: Classic galactosemia, which can result in life-threatening complications including feeding problems, failure to thrive, hepatocellular damage, bleeding, and E coli sepsis in untreated infants. If a lactose-restricted diet is provided during the first ten days of life, the neonatal signs usually quickly resolve and the complications of liver failure, sepsis, and neonatal death are prevented; however, despite adequate treatment from an early age, children with classic galactosemia remain at increased risk for developmental delays, speech problems (termed childhood apraxia of speech and dysarthria), and abnormalities of motor function. Almost all females with classic galactosemia manifest hypergonadatropic hypogonadism or premature ovarian insufficiency (POI). Clinical variant galactosemia, which can result in life-threatening complications including feeding problems, failure to thrive, hepatocellular damage including cirrhosis, and bleeding in untreated infants. This is exemplified by the disease that occurs in African Americans and native Africans in South Africa. Persons with clinical variant galactosemia may be missed with newborn screening as the hypergalactosemia is not as marked as in classic galactosemia and breath testing is normal. If a lactose-restricted diet is provided during the first ten days of life, the severe acute neonatal complications are usually prevented. African Americans with clinical variant galactosemia and adequate early treatment do not appear to be at risk for long-term complications, including POI.
Hyperornithinemia-hyperammonemia-homocitrullinuria syndrome
MedGen UID:
82815
Concept ID:
C0268540
Disease or Syndrome
Hyperornithinemia-hyperammonemia-homocitrullinuria (HHH) syndrome is a disorder of the urea cycle and ornithine degradation pathway. Clinical manifestations and age of onset vary among individuals even in the same family. Neonatal onset (~8% of affected individuals). Manifestations of hyperammonemia usually begin 24-48 hours after feeding begins and can include lethargy, somnolence, refusal to feed, vomiting, tachypnea with respiratory alkalosis, and/or seizures. Infantile, childhood, and adult onset (~92%). Affected individuals may present with: Chronic neurocognitive deficits (including developmental delay, ataxia, spasticity, learning disabilities, cognitive deficits, and/or unexplained seizures); Acute encephalopathy secondary to hyperammonemic crisis precipitated by a variety of factors; and Chronic liver dysfunction (unexplained elevation of liver transaminases with or without mild coagulopathy, with or without mild hyperammonemia and protein intolerance). Neurologic findings and cognitive abilities can continue to deteriorate despite early metabolic control that prevents hyperammonemia.
Patent ductus venosus
MedGen UID:
91033
Concept ID:
C0344688
Congenital Abnormality
A congenital defect of the vasculature such that there is a shunt (by-pass) of blood directly from the portal vein to the vena cava (i.e., the blood from the portal vein is not filtered through the liver).
Cholestasis-pigmentary retinopathy-cleft palate syndrome
MedGen UID:
208652
Concept ID:
C0795969
Disease or Syndrome
MED12-related disorders include the phenotypes of FG syndrome type 1 (FGS1), Lujan syndrome (LS), X-linked Ohdo syndrome (XLOS), Hardikar syndrome (HS), and nonspecific intellectual disability (NSID). FGS1 and LS share the clinical findings of cognitive impairment, hypotonia, and abnormalities of the corpus callosum. FGS1 is further characterized by absolute or relative macrocephaly, tall forehead, downslanted palpebral fissures, small and simple ears, constipation and/or anal anomalies, broad thumbs and halluces, and characteristic behavior. LS is further characterized by large head, tall thin body habitus, long thin face, prominent nasal bridge, high narrow palate, and short philtrum. Carrier females in families with FGS1 and LS are typically unaffected. XLOS is characterized by intellectual disability, blepharophimosis, and facial coarsening. HS has been described in females with cleft lip and/or cleft palate, biliary and liver anomalies, intestinal malrotation, pigmentary retinopathy, and coarctation of the aorta. Developmental and cognitive concerns have not been reported in females with HS. Pathogenic variants in MED12 have been reported in an increasing number of males and females with NSID, with affected individuals often having clinical features identified in other MED12-related disorders.
Deficiency of transaldolase
MedGen UID:
224855
Concept ID:
C1291329
Disease or Syndrome
Transaldolase deficiency (TALDOD) is a rare inborn error of pentose metabolism. Typical features include intrauterine growth restriction, triangular face, loose wrinkly skin at birth, and development of progressive liver failure (summary by Lee-Barber et al., 2019).
Maleylacetoacetate isomerase deficiency
MedGen UID:
713903
Concept ID:
C1291607
Disease or Syndrome
Deficiency of maleylacetoacetate isomerase (MAAID) is characterized by mild elevations in succinylacetone in blood and urine, usually identified by newborn screening. Liver function and coagulation are normal. MAAID is differentiated from hepatorenal tyrosinemia (TYRSN1; 276700), which is also identified by hypersuccinylacetonemia on newborn screening but is a severe disorder with hepatic failure, renal tubulopathy, rickets, and porphyria-like neurologic crises. MAAID and TYRSN1 are caused by mutations in genes encoding the penultimate and ultimate enzymes, respectively, in the phenylalanine and tyrosine degradation pathway (summary by Yang et al., 2017).
Medium chain 3-ketoacyl-Coa thiolase deficiency
MedGen UID:
356367
Concept ID:
C1865781
Disease or Syndrome
Hypermanganesemia with dystonia, polycythemia, and cirrhosis
MedGen UID:
412958
Concept ID:
C2750442
Disease or Syndrome
Hypermanganesemia with dystonia 1 (HMNDYT1) is characterized by the following: A movement disorder resulting from manganese accumulation in the basal ganglia. Whole-blood manganese concentrations that often exceed 2000 nmol/L (normal: <320 nmol/L). Polycythemia. Hepatomegaly with variable hepatic fibrosis/cirrhosis. Neurologic findings can manifest in childhood (ages 2-15 years) as four-limb dystonia, leading to a characteristic high-stepping gait ("cock-walk gait"), dysarthria, fine tremor, and bradykinesia or on occasion spastic paraplegia; or in adulthood as parkinsonism (shuffling gait, rigidity, bradykinesia, hypomimia, and monotone speech) unresponsive to L-dopa treatment.
ALG8 congenital disorder of glycosylation
MedGen UID:
419692
Concept ID:
C2931002
Disease or Syndrome
CDGs, previously called carbohydrate-deficient glycoprotein syndromes, grew from hereditary multisystem disorders first recognized by Jaeken et al. (1980). The characteristic biochemical abnormality of CDGs is the hypoglycosylation of glycoproteins, which is routinely determined by isoelectric focusing of serum transferrin. Type I CDG comprises those disorders in which there is a defect in the assembly of lipid-linked oligosaccharides or their transfer onto nascent glycoproteins, whereas type II CDG comprises defects of trimming, elongation, and processing of protein-bound glycans. For a general discussion of CDGs, see CDG1A (212065). CDG1H is a severe form of CDG. The majority of patients have brain involvement, liver pathology, gastrointestinal symptoms, dysmorphism (including brachydactyly), eye involvement (especially cataract), and skin symptoms. Most patients die within the first year of life (summary by Marques-da-Silva et al., 2017).
COG7 congenital disorder of glycosylation
MedGen UID:
419311
Concept ID:
C2931010
Disease or Syndrome
CDG IIe is caused by a mutation that impairs the integrity of the conserved oligomeric Golgi (COG) complex and alters Golgi trafficking, resulting in the disruption of multiple glycosylation pathways. For a general discussion of CDGs, see CDG1A (212065).
Hyperbiliverdinemia
MedGen UID:
481594
Concept ID:
C3279964
Disease or Syndrome
Hyperbiliverdinemia can manifest as green jaundice, which is a green discoloration of the skin, urine, serum, and other bodily fluids, due to increased biliverdin resulting from inefficient conversion to bilirubin. Although rarely reported, affected individuals appear to have symptoms only in the context of obstructive cholestasis and/or liver failure. In some cases, green jaundice can resolve after resolution of obstructive cholestasis. Green jaundice has also been associated with malnutrition, medication, and congenital biliary atresia (summary by Huffman et al., 2009).
Congenital disorder of glycosylation type Ir
MedGen UID:
482714
Concept ID:
C3281084
Disease or Syndrome
Congenital disorder of glycosylation type Ir (CDG1R) is an autosomal recessive disorder characterized by developmental delay, failure to thrive, feeding difficulties, hypotonia, and strabismus. Transferrin analysis demonstrates underglycosylation (summary by Pi et al., 2022). For a discussion of the classification of CDGs, see CDG1A (212065).
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.
Peroxisome biogenesis disorder 5B
MedGen UID:
762202
Concept ID:
C3542026
Disease or Syndrome
The overlapping phenotypes of neonatal adrenoleukodystrophy (NALD) and infantile Refsum disease (IRD) represent the milder manifestations of the Zellweger syndrome spectrum (ZSS) of peroxisome biogenesis disorders. The clinical course of patients with the NALD and IRD presentation is variable and may include developmental delay, hypotonia, liver dysfunction, sensorineural hearing loss, retinal dystrophy, and visual impairment. Children with the NALD presentation may reach their teens, and those with the IRD presentation may reach adulthood (summary by Waterham and Ebberink, 2012). For a complete phenotypic description and a discussion of genetic heterogeneity of PBD(NALD/IRD), see 601539. Individuals with mutations in the PEX2 gene have cells of complementation group 5 (CG5, equivalent to CG10 and CGF). For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 4B
MedGen UID:
766851
Concept ID:
C3553937
Disease or Syndrome
Peroxisome biogenesis disorder-4B (PBD4B) includes the overlapping phenotypes of neonatal adrenoleukodystrophy (NALD) and infantile Refsum disease (IRD), which represent milder manifestations of the Zellweger syndrome spectrum (ZSS) of peroxisome biogenesis disorders (PBDs). The clinical course of patients with the NALD and IRD presentation is variable and may include developmental delay, hypotonia, liver dysfunction, sensorineural hearing loss, retinal dystrophy, and visual impairment. Children with the NALD presentation may reach their teens, and those with the IRD presentation may reach adulthood (summary by Waterham and Ebberink, 2012). For a complete phenotypic description and a discussion of genetic heterogeneity of PBD(NALD/IRD), see 601539. Individuals with mutations in the PEX6 gene have cells of complementation group 4 (CG4, equivalent to CG6 and CGC). For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 6A (Zellweger)
MedGen UID:
766861
Concept ID:
C3553947
Disease or Syndrome
Zellweger syndrome (ZS) is an autosomal recessive multiple congenital anomaly syndrome resulting from disordered peroxisome biogenesis. Affected children present in the newborn period with profound hypotonia, seizures, and inability to feed. Characteristic craniofacial anomalies, eye abnormalities, neuronal migration defects, hepatomegaly, and chondrodysplasia punctata are present. Children with this condition do not show any significant development and usually die in the first year of life (summary by Steinberg et al., 2006). For a complete phenotypic description and a discussion of genetic heterogeneity of Zellweger syndrome, see 214100. Individuals with PBDs of complementation group 7 (CG7, equivalent to CGB) have mutations in the PEX10 gene. For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 6B
MedGen UID:
766862
Concept ID:
C3553948
Disease or Syndrome
The overlapping phenotypes of neonatal adrenoleukodystrophy (NALD) and infantile Refsum disease (IRD) represent the milder manifestations of the Zellweger syndrome spectrum (ZSS) of peroxisome biogenesis disorders. The clinical course of patients with the NALD and IRD presentation is variable and may include developmental delay, hypotonia, liver dysfunction, sensorineural hearing loss, retinal dystrophy, and visual impairment. Children with the NALD presentation may reach their teens, and those with the IRD presentation may reach adulthood. Some patients with PEX10 mutations have a milder disorder characterized by childhood-onset cerebellar ataxia and neuropathy without mental retardation (summary by Waterham and Ebberink, 2012). For a complete phenotypic description and a discussion of genetic heterogeneity of PBD(NALD/IRD), see 601539. Individuals with mutations in the PEX10 gene have cells of complementation group 7 (CG7, equivalent to CGB). For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 7B
MedGen UID:
766865
Concept ID:
C3553951
Disease or Syndrome
The overlapping phenotypes of neonatal adrenoleukodystrophy (NALD) and infantile Refsum disease (IRD) represent the milder manifestations of the Zellweger syndrome spectrum (ZSS) of peroxisome biogenesis disorders. The clinical course of patients with the NALD and IRD presentation is variable and may include developmental delay, hypotonia, liver dysfunction, sensorineural hearing loss, retinal dystrophy, and visual impairment. Children with the NALD presentation may reach their teens, and those with the IRD presentation may reach adulthood (summary by Waterham and Ebberink, 2012). For a complete phenotypic description and a discussion of genetic heterogeneity of PBD(NALD/IRD), see 601539. Individuals with mutations in the PEX26 gene have cells of complementation group 8 (CG8, equivalent to CGA). For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 8B
MedGen UID:
766874
Concept ID:
C3553960
Disease or Syndrome
The overlapping phenotypes of neonatal adrenoleukodystrophy (NALD) and infantile Refsum disease (IRD) represent the milder manifestations of the Zellweger syndrome spectrum (ZSS) of peroxisome biogenesis disorders. The clinical course of patients with the NALD and IRD presentation is variable and may include developmental delay, hypotonia, liver dysfunction, sensorineural hearing loss, retinal dystrophy, and visual impairment. Children with the NALD presentation may reach their teens, and those with the IRD presentation may reach adulthood (summary by Waterham and Ebberink, 2012). For a complete phenotypic description and a discussion of genetic heterogeneity of PBD(NALD/IRD), see 601539. Individuals with mutations in the PEX16 gene have cells of complementation group 9 (CG9, equivalent to CGD). For information on the history of PBD complementation groups, see 214100.
Peroxisome biogenesis disorder 11A (Zellweger)
MedGen UID:
766914
Concept ID:
C3554000
Disease or Syndrome
Zellweger syndrome (ZS) is an autosomal recessive multiple congenital anomaly syndrome resulting from disordered peroxisome biogenesis. Affected children present in the newborn period with profound hypotonia, seizures, and inability to feed. Characteristic craniofacial anomalies, eye abnormalities, neuronal migration defects, hepatomegaly, and chondrodysplasia punctata are present. Children with this condition do not show any significant development and usually die in the first year of life (summary by Steinberg et al., 2006). For a complete phenotypic description and a discussion of genetic heterogeneity of Zellweger syndrome, see 214100. Individuals with PBDs of complementation group 13 (CG13, equivalent to CGH) have mutations in the PEX13 gene. For information on the history of PBD complementation groups, see 214100.
Mitochondrial complex III deficiency nuclear type 5
MedGen UID:
767522
Concept ID:
C3554608
Disease or Syndrome
Mitochondrial complex III deficiency is a genetic condition that can affect several parts of the body, including the brain, kidneys, liver, heart, and the muscles used for movement (skeletal muscles). Signs and symptoms of mitochondrial complex III deficiency usually begin in infancy but can appear later.\n\nThe severity of mitochondrial complex III deficiency varies widely among affected individuals. People who are mildly affected tend to have muscle weakness (myopathy) and extreme tiredness (fatigue), particularly during exercise (exercise intolerance). More severely affected individuals have problems with multiple body systems, such as liver disease that can lead to liver failure, kidney abnormalities (tubulopathy), and brain dysfunction (encephalopathy). Encephalopathy can cause delayed development of mental and motor skills (psychomotor delay), movement problems, weak muscle tone (hypotonia), and difficulty with communication. Some affected individuals have a form of heart disease called cardiomyopathy, which can lead to heart failure. \n\nMost people with mitochondrial complex III deficiency have a buildup of a chemical called lactic acid in the body (lactic acidosis). Some affected individuals also have buildup of molecules called ketones (ketoacidosis) or high blood glucose levels (hyperglycemia). Abnormally high levels of these chemicals in the body can be life-threatening.\n\nMitochondrial complex III deficiency can be fatal in childhood, although individuals with mild signs and symptoms can survive into adolescence or adulthood.
Polycystic kidney disease 3 with or without polycystic liver disease
MedGen UID:
854672
Concept ID:
C3887964
Disease or Syndrome
Autosomal dominant polycystic kidney disease (ADPKD) is generally a late-onset multisystem disorder characterized by bilateral kidney cysts, liver cysts, and an increased risk of intracranial aneurysms. Other manifestations include: cysts in the pancreas, seminal vesicles, and arachnoid membrane; dilatation of the aortic root and dissection of the thoracic aorta; mitral valve prolapse; and abdominal wall hernias. Kidney manifestations include early-onset hypertension, kidney pain, and kidney insufficiency. Approximately 50% of individuals with ADPKD have end-stage kidney disease (ESKD) by age 60 years. The prevalence of liver cysts increases with age and occasionally results in clinically significant severe polycystic liver disease (PLD), most often in females. Overall, the prevalence of intracranial aneurysms is fivefold higher than in the general population and further increased in those with a positive family history of aneurysms or subarachnoid hemorrhage. There is substantial variability in the severity of kidney disease and other extra-kidney manifestations.
TMEM199-CDG
MedGen UID:
895025
Concept ID:
C4225190
Disease or Syndrome
Congenital disorder of glycosylation type IIp (CDG2P) is an autosomal recessive metabolic disorder characterized by mild liver dysfunction, which may be found incidentally during adolescence. Laboratory abnormalities include elevated liver enzymes and alkaline phosphatase, coagulation factor deficiencies, hypercholesterolemia, and low ceruloplasmin. Serum isoelectric focusing of proteins shows a combined defect of N- and O-glycosylation, suggestive of a Golgi defect (summary by Jansen et al., 2016). For an overview of congenital disorders of glycosylation, see CDG1A (212065) and CDG2A (212066).
Lipoyl transferase 1 deficiency
MedGen UID:
904073
Concept ID:
C4225379
Disease or Syndrome
Lipoyl transferase 1 deficiency is a very rare inborn error of metabolism disorder, with a highly variable phenotype, typically characterized by neonatal to infancy-onset of seizures, psychomotor delay, and abnormal muscle tone that may include hypo- and/or hypertonia, resulting in generalized weakness, dystonic movements, and/or progressive respiratory distress, associated with severe lactic acidosis and elevated lactate, ketoglutarate and 2-oxoacids in urine. Additional manifestations may include dehydration, vomiting, signs of liver dysfunction, extrapyramidal signs, spastic tetraparesis, brisk deep tendon reflexes, speech impairment, swallowing difficulties, and pulmonary hypertension.
Growth retardation, intellectual developmental disorder, hypotonia, and hepatopathy
MedGen UID:
934687
Concept ID:
C4310720
Disease or Syndrome
GRIDHH is an autosomal recessive multisystem disorder characterized by poor overall growth, impaired intellectual development, hypotonia, and variable liver dysfunction. Additional features, such as seizures and hearing loss, may also be present (summary by Kopajtich et al., 2016).
Hydrops-lactic acidosis-sideroblastic anemia-multisystemic failure syndrome
MedGen UID:
934728
Concept ID:
C4310761
Disease or Syndrome
Hydrops, lactic acidosis, and sideroblastic anemia (HLASA) is an autosomal recessive multisystem disorder characterized by the onset of hydrops in utero. The severity of the hydrops and the disorder in general is highly variable. At birth, affected infants usually show poor growth, lactic acidosis, pulmonary hypertension with hypoxic respiratory insufficiency, and sideroblastic anemia. More variable features may include hepatosplenomegaly or cholestasis, hypoglycemia, pancreatic insufficiency, and micropenis or hypospadias. Death in infancy may occur. Those who survive tend to have resolution of lactic acidosis and anemia, but may show developmental delay and sensorineural deafness (summary by Riley et al., 2020).
Pseudo-TORCH syndrome 1
MedGen UID:
1639355
Concept ID:
C4552078
Disease or Syndrome
Trichohepatoneurodevelopmental syndrome
MedGen UID:
1648322
Concept ID:
C4748898
Disease or Syndrome
Trichohepatoneurodevelopmental syndrome is a complex multisystem disorder characterized by woolly or coarse hair, liver dysfunction, pruritus, dysmorphic features, hypotonia, and severe global developmental delay (Morimoto et al., 2018).
Combined oxidative phosphorylation defect type 11
MedGen UID:
1682397
Concept ID:
C5190991
Disease or Syndrome
Combined oxidative phosphorylation deficiency-21 (COXPD11) is a severe multisystemic autosomal recessive disorder characterized by neonatal hypotonia and lactic acidosis. Affected individuals may have respiratory insufficiency, foot deformities, or seizures, and all reported patients have died in infancy. Biochemical studies show deficiencies of multiple mitochondrial respiratory enzymes (summary by Garcia-Diaz et al., 2012). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Combined oxidative phosphorylation deficiency 37
MedGen UID:
1675208
Concept ID:
C5193031
Disease or Syndrome
Combined oxidative phosphorylation deficiency-37 is an autosomal recessive multisystem disorder apparent at birth or in the first months of life. Affected individuals have hypotonia, failure to thrive, and neurodegeneration with loss of developmental milestones, as well as liver dysfunction. Some patients may have hypertrophic cardiomyopathy, loss of vision and hearing, and/or seizures. Mitochondrial respiratory dysfunction is apparent in liver and skeletal muscle tissue. Most patients die in childhood (summary by Zeharia et al., 2016). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Developmental and epileptic encephalopathy, 75
MedGen UID:
1684253
Concept ID:
C5193099
Disease or Syndrome
Developmental and epileptic encephalopathy-75 (DEE75) is an autosomal recessive neurodevelopmental and neurodegenerative disorder characterized by onset of severe refractory seizures in the first months of life. Patients often have global developmental delay before the onset of seizures, and thereafter achieve few milestones. EEG usually shows multifocal spikes and hypsarrhythmia, consistent with a clinical diagnosis of West syndrome. They have severely impaired intellectual development with inability to walk, absent speech, and hypotonia with axial hyperreflexia. Brain imaging shows progressive cerebral atrophy, frontal lobe atrophy, white matter abnormalities, and delayed myelination. Since the disorder is due to mitochondrial dysfunction, some patients may develop other organ involvement, including cardiomyopathy or liver and renal dysfunction. Death may occur in childhood (summary by Yin et al., 2018). For a general phenotypic description and a discussion of genetic heterogeneity of DEE, see 308350.
Pontocerebellar hypoplasia, type 13
MedGen UID:
1684708
Concept ID:
C5231425
Disease or Syndrome
Pontocerebellar hypoplasia type 13 (PCH13) is an autosomal recessive disorder characterized by global developmental delay, impaired intellectual development with absent speech, microcephaly, and progressive atrophy of the cerebellar vermis and brainstem. Additional features, including seizures and visual impairment, are variable (summary by Uwineza et al., 2019). For a general phenotypic description and a discussion of genetic heterogeneity of PCH, see PCH1A (607596).
Congenital disorder of glycosylation, type IIr
MedGen UID:
1717186
Concept ID:
C5393313
Disease or Syndrome
Congenital disorder of glycosylation type 2R (CDG2R) is an X-linked recessive disorder characterized by infantile onset of liver failure, recurrent infections due to hypogammaglobulinemia, and cutis laxa. Some patients may also have mild intellectual impairment and dysmorphic features. Laboratory studies showed defective glycosylation of serum transferrin in a type 2 pattern (summary by Rujano et al., 2017). For an overview of congenital disorders of glycosylation, see CDG1A (212065) and CDG2A (212066).
Combined oxidative phosphorylation deficiency 40
MedGen UID:
1714731
Concept ID:
C5394232
Disease or Syndrome
Combined oxidative phosphorylation deficiency-40 (COXPD40) is an autosomal recessive mitochondrial disorder with onset in utero or soon after birth. Affected individuals have severe hypertrophic cardiomyopathy, poor growth, and sensorineural hearing loss. Laboratory studies show evidence of mitochondrial dysfunction, such as lactic acidosis. Patient-derived tissues and cells show variably decreased activities of mitochondrial respiratory complexes I, III, IV, and V. The disorder is lethal, with no reported patients surviving past infancy (summary by Friederich et al., 2018). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Combined oxidative phosphorylation deficiency 42
MedGen UID:
1709379
Concept ID:
C5394237
Disease or Syndrome
Combined oxidative phosphorylation deficiency-42 (COXPD42) is an autosomal recessive metabolic disorder characterized by onset of cardiomyopathy, respiratory insufficiency, lactic metabolic acidosis, and anemia in the first months of life. Patient tissue shows variable impairment of mitochondrial oxidative phosphorylation affecting mtDNA-encoded subunits I, III, and IV. All reported affected infants have died in the first year of life (summary by Friederich et al., 2018). For a discussion of genetic heterogeneity of combined oxidative phosphorylation deficiency, see COXPD1 (609060).
Mitochondrial complex IV deficiency, nuclear type 1
MedGen UID:
1750917
Concept ID:
C5435656
Disease or Syndrome
Mitochondrial complex IV deficiency nuclear type 1 (MC4DN1) is an autosomal recessive metabolic disorder characterized by rapidly progressive neurodegeneration and encephalopathy with loss of motor and cognitive skills between about 5 and 18 months of age after normal early development. Affected individuals show hypotonia, failure to thrive, loss of the ability to sit or walk, poor communication, and poor eye contact. Other features may include oculomotor abnormalities, including slow saccades, strabismus, ophthalmoplegia, and nystagmus, as well as deafness, apneic episodes, ataxia, tremor, and brisk tendon reflexes. Brain imaging shows bilateral symmetric lesions in the basal ganglia, consistent with a clinical diagnosis of Leigh syndrome (see 256000). Some patients may also have abnormalities in the brainstem and cerebellum. Laboratory studies usually show increased serum and CSF lactate and decreased levels and activity of mitochondrial respiratory complex IV in patient tissues. There is phenotypic variability, but death in childhood, often due to central respiratory failure, is common (summary by Tiranti et al., 1998; Tiranti et al., 1999; Teraoka et al., 1999; Poyau et al., 2000) Genetic Heterogeneity of Mitochondrial Complex IV Deficiency Most isolated COX deficiencies are inherited as autosomal recessive disorders caused by mutations in nuclear-encoded genes; mutations in the mtDNA-encoded COX subunit genes are relatively rare (Shoubridge, 2001; Sacconi et al., 2003). Mitochondrial complex IV deficiency caused by mutation in nuclear-encoded genes, in addition to MC4DN1, include MC4DN2 (604377), caused by mutation in the SCO2 gene (604272); MC4DN3 (619046), caused by mutation in the COX10 gene (602125); MC4DN4 (619048), caused by mutation in the SCO1 gene (603664); MC4DN5 (220111), caused by mutation in the LRPPRC gene (607544); MC4DN6 (615119), caused by mutation in the COX15 gene (603646); MC4DN7 (619051), caused by mutation in the COX6B1 gene (124089); MC4DN8 (619052), caused by mutation in the TACO1 gene (612958); MC4DN9 (616500), caused by mutation in the COA5 gene (613920); MC4DN10 (619053), caused by mutation in the COX14 gene (614478); MC4DN11 (619054), caused by mutation in the COX20 gene (614698); MC4DN12 (619055), caused by mutation in the PET100 gene (614770); MC4DN13 (616501), caused by mutation in the COA6 gene (614772); MC4DN14 (619058), caused by mutation in the COA3 gene (614775); MC4DN15 (619059), caused by mutation in the COX8A gene (123870); MC4DN16 (619060), caused by mutation in the COX4I1 gene (123864); MC4DN17 (619061), caused by mutation in the APOPT1 gene (616003); MC4DN18 (619062), caused by mutation in the COX6A2 gene (602009); MC4DN19 (619063), caused by mutation in the PET117 gene (614771); MC4DN20 (619064), caused by mutation in the COX5A gene (603773); MC4DN21 (619065), caused by mutation in the COXFA4 gene (603883); MC4DN22 (619355), caused by mutation in the COX16 gene (618064); and MC4DN23 (620275), caused by mutation in the COX11 gene (603648). Mitochondrial complex IV deficiency has been associated with mutations in several mitochondrial genes, including MTCO1 (516030), MTCO2 (516040), MTCO3 (516050), MTTS1 (590080), MTTL1 (590050), and MTTN (590010).
Rajab interstitial lung disease with brain calcifications 1
MedGen UID:
1750003
Concept ID:
C5436276
Disease or Syndrome
Rajab interstitial lung disease with brain calcifications-1 (RILDBC1) is an autosomal recessive multisystem disorder with a highly variable phenotype. Most patients present in infancy or early childhood with poor growth and interstitial lung disease, which may lead to death. Some may also have liver, skeletal, and renal abnormalities, and most have intracranial calcifications on brain imaging. Some may have early impaired motor development, but most have normal cognitive development (summary by Xu et al., 2018). Genetic Heterogeneity of Rajab Interstitial Lung Disease with Brain Calcifications Also see Rajab interstitial disease with brain calcifications-2 (RILDBC2; 619013), caused by mutation in the FARSA gene (602918).
Combined oxidative phosphorylation deficiency 46
MedGen UID:
1752252
Concept ID:
C5436466
Disease or Syndrome
Combined oxidative phosphorylation defect type 30
MedGen UID:
1799028
Concept ID:
C5567605
Disease or Syndrome
A rare mitochondrial oxidative phosphorylation disorder with characteristics of neonatal onset of hypotonia, feeding difficulties, deafness, and early fatal respiratory failure. Cardiac and liver involvement has been reported. Serum lactate is increased and metabolic studies show decreased activity of mitochondrial respiratory complexes I and IV in skeletal muscle.
Pyruvate dehydrogenase E3 deficiency
MedGen UID:
1805500
Concept ID:
C5574660
Disease or Syndrome
The phenotypes of dihydrolipoamide dehydrogenase (DLD) deficiency are an overlapping continuum that ranges from early-onset neurologic manifestations to adult-onset liver involvement and, rarely, a myopathic presentation. Early-onset DLD deficiency typically manifests in infancy as hypotonia with lactic acidosis. Affected infants frequently do not survive their initial metabolic decompensation, or die within the first few years of life during a recurrent metabolic decompensation. Children who live beyond the first two to three years frequently exhibit growth deficiencies and residual neurologic deficits (intellectual disability, spasticity, ataxia, and seizures). In contrast, isolated liver involvement can present as early as the neonatal period and as late as the third decade. Evidence of liver injury/failure is preceded by nausea and emesis and frequently associated with encephalopathy and/or coagulopathy. Acute metabolic episodes are frequently associated with lactate elevations, hyperammonemia, and hepatomegaly. With resolution of the acute episodes affected individuals frequently return to baseline with no residual neurologic deficit or intellectual disability. Liver failure can result in death, even in those with late-onset disease. Individuals with the myopathic presentation may experience muscle cramps, weakness, and an elevated creatine kinase.
Multiple mitochondrial dysfunctions syndrome 7
MedGen UID:
1841222
Concept ID:
C5830586
Disease or Syndrome
Mitochondrial dysfunctions syndrome-7 (MMDS7) is an autosomal recessive disorder characterized by a clinical spectrum ranging from neonatal fatal glycine encephalopathy to an attenuated phenotype of developmental delay, behavioral problems, limited epilepsy, and variable movement problems (Arribas-Carreira et al., 2023). For a general description and a discussion of genetic heterogeneity of multiple mitochondrial dysfunctions syndrome, see MMDS1 (605711).

Professional guidelines

PubMed

Safety Committee of Japanese Society of Anesthesiologists
J Anesth 2019 Feb;33(1):1-8. Epub 2018 Nov 11 doi: 10.1007/s00540-018-2542-4. PMID: 30417244
Liu PH, Huo TI, Miksad RA
Semin Liver Dis 2018 Aug;38(3):242-251. Epub 2018 Jul 24 doi: 10.1055/s-0038-1666805. PMID: 30041276
Liu PH, Hsu CY, Hsia CY, Lee YH, Chiou YY, Huang YH, Lee FY, Lin HC, Hou MC, Huo TI
J Gastroenterol Hepatol 2017 Apr;32(4):879-886. doi: 10.1111/jgh.13608. PMID: 27696519

Recent clinical studies

Etiology

Groeneveld DJ, Poole LG, Luyendyk JP
J Thromb Haemost 2021 Jun;19(6):1390-1408. Epub 2021 May 3 doi: 10.1111/jth.15312. PMID: 33774926Free PMC Article
Shimada M, Hirashima N, Iwase H, Saito M, Kondo H, Urata N, Unita S, Kondo T, Tanaka D, Tsunekawa T, Fujishiro M
Intern Med 2021 May 1;60(9):1343-1348. Epub 2020 Dec 7 doi: 10.2169/internalmedicine.6231-20. PMID: 33281163Free PMC Article
Liu PH, Huo TI, Miksad RA
Semin Liver Dis 2018 Aug;38(3):242-251. Epub 2018 Jul 24 doi: 10.1055/s-0038-1666805. PMID: 30041276
Zhou YM, Sui CJ, Zhang XF, Li B, Yang JM
BMC Gastroenterol 2017 Feb 10;17(1):25. doi: 10.1186/s12876-017-0584-y. PMID: 28183290Free PMC Article
Navarro-Alarcón M, López-Ga de la Serrana H, Pérez-Valero V, López-Martínez MC
Sci Total Environ 2002 May 27;291(1-3):135-41. doi: 10.1016/s0048-9697(01)01088-9. PMID: 12150433

Diagnosis

Huang L, Yu Q, Peng H
Med Sci Monit 2021 Jun 13;27:e931157. doi: 10.12659/MSM.931157. PMID: 34120137Free PMC Article
Shimada M, Hirashima N, Iwase H, Saito M, Kondo H, Urata N, Unita S, Kondo T, Tanaka D, Tsunekawa T, Fujishiro M
Intern Med 2021 May 1;60(9):1343-1348. Epub 2020 Dec 7 doi: 10.2169/internalmedicine.6231-20. PMID: 33281163Free PMC Article
Ishii N, Terao T, Araki Y, Hatano K
BMJ Case Rep 2013 Nov 22;2013 doi: 10.1136/bcr-2013-201575. PMID: 24272988Free PMC Article
Holtmeier J, Leuschner M, Schneider A, Leuschner U, Caspary WF, Braden B
Scand J Gastroenterol 2006 Nov;41(11):1336-41. doi: 10.1080/00365520600670125. PMID: 17060128
Schubert TT
Gastroenterology 1986 Jun;90(6):2013-21. doi: 10.1016/0016-5085(86)90276-3. PMID: 3516788

Therapy

Jang JH, Jeong JH, Jeong SH
Naunyn Schmiedebergs Arch Pharmacol 2024 Nov;397(11):8285-8309. Epub 2024 Jun 8 doi: 10.1007/s00210-024-03185-6. PMID: 38850302
Moon JJ, Hong SK, Kim YC, Hong SY, Choi Y, Yi NJ, Lee KW, Han SS, Lee H, Kim DK, Kim YS, Yang SH, Suh KS
PLoS One 2023;18(11):e0293844. Epub 2023 Nov 2 doi: 10.1371/journal.pone.0293844. PMID: 37917773Free PMC Article
Ishii N, Terao T, Araki Y, Hatano K
BMJ Case Rep 2013 Nov 22;2013 doi: 10.1136/bcr-2013-201575. PMID: 24272988Free PMC Article
Tchambaz L, Schlatter C, Jakob M, Krähenbühl A, Wolf P, Krähenbühl S
Drug Saf 2006;29(6):509-22. doi: 10.2165/00002018-200629060-00004. PMID: 16752933
Nozaki H, Shimada T, Fukushima Y, Inou T, Takeda Y
Surg Today 1998;28(10):1069-72. doi: 10.1007/BF02483964. PMID: 9786582

Prognosis

Kumagai M, Tsuchiya A, Yang Y, Takeda N, Natsui K, Natusi Y, Tomiyoshi K, Yamazaki F, Koseki Y, Shinchi H, Imawaka N, Ukekawa R, Nishibu T, Abe H, Sasaki T, Ueda K, Terai S
FEBS Open Bio 2024 Aug;14(8):1264-1276. Epub 2024 Jun 9 doi: 10.1002/2211-5463.13842. PMID: 38853023Free PMC Article
Moon JJ, Hong SK, Kim YC, Hong SY, Choi Y, Yi NJ, Lee KW, Han SS, Lee H, Kim DK, Kim YS, Yang SH, Suh KS
PLoS One 2023;18(11):e0293844. Epub 2023 Nov 2 doi: 10.1371/journal.pone.0293844. PMID: 37917773Free PMC Article
Liu PH, Huo TI, Miksad RA
Semin Liver Dis 2018 Aug;38(3):242-251. Epub 2018 Jul 24 doi: 10.1055/s-0038-1666805. PMID: 30041276
Zhou YM, Sui CJ, Zhang XF, Li B, Yang JM
BMC Gastroenterol 2017 Feb 10;17(1):25. doi: 10.1186/s12876-017-0584-y. PMID: 28183290Free PMC Article
Tietge UJ, Boker KH, Bahr MJ, Weinberg S, Pichlmayr R, Schmidt HH, Manns MP
Hepatogastroenterology 1998 Nov-Dec;45(24):2255-60. PMID: 9951906

Clinical prediction guides

Moon JJ, Hong SK, Kim YC, Hong SY, Choi Y, Yi NJ, Lee KW, Han SS, Lee H, Kim DK, Kim YS, Yang SH, Suh KS
PLoS One 2023;18(11):e0293844. Epub 2023 Nov 2 doi: 10.1371/journal.pone.0293844. PMID: 37917773Free PMC Article
Takahashi Y, Konishi T, Nishimura M, Nishihira J
Food Funct 2022 Sep 22;13(18):9372-9382. doi: 10.1039/d2fo01145j. PMID: 35959845
Groeneveld DJ, Poole LG, Luyendyk JP
J Thromb Haemost 2021 Jun;19(6):1390-1408. Epub 2021 May 3 doi: 10.1111/jth.15312. PMID: 33774926Free PMC Article
Shimada M, Hirashima N, Iwase H, Saito M, Kondo H, Urata N, Unita S, Kondo T, Tanaka D, Tsunekawa T, Fujishiro M
Intern Med 2021 May 1;60(9):1343-1348. Epub 2020 Dec 7 doi: 10.2169/internalmedicine.6231-20. PMID: 33281163Free PMC Article
Navarro-Alarcón M, López-Ga de la Serrana H, Pérez-Valero V, López-Martínez MC
Sci Total Environ 2002 May 27;291(1-3):135-41. doi: 10.1016/s0048-9697(01)01088-9. PMID: 12150433

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