Deficienza di MCAD
Revisione paritaria di Dr Adrian Bonsall, MBBSUltimo aggiornamento di Dr Colin Tidy, MRCGPUltimo aggiornamento 20 Giugno 2014
Rispetta le linee guida editoriali
- ScaricaScarica
- Condividi
- Language
- Discussione
- Versione audio
- Aggiungi alle fonti preferite su Google
Questa pagina è stata archiviata.
Non è stato rivisto di recente e non è aggiornato. I link esterni e i riferimenti potrebbero non funzionare più.
Professionisti Medici
Gli articoli di riferimento professionale sono progettati per essere utilizzati dai professionisti della salute. Sono scritti da medici del Regno Unito e basati su prove di ricerca, linee guida del Regno Unito ed europee. Potresti trovare il Test di screening neonatale articolo più utile, o uno dei nostri altri articoli sulla salute.
Synonyms: medium-chain acyl-CoA dehydrogenase (MCAD) deficiency, ACADM deficiency
This is an autosomal recessive inherited disorder of fatty acid metabolism, caused by a mutation of the medium-chain acyl-CoA dehydrogenase gene (ACADM) on chromosome 1. The gene has been mapped to locus 1p31; several allelic variations have been reported. The most common mutation is called G985. This is because of a substitution of a guanine for an adenine nucleotide at the 985th residue.
Fisiopatologia
Fatty acids are unable to be metabolised beyond the medium-chain size (8-12 carbon stage), and gluconeogenesis is effectively inhibited. In response to any fasting or metabolic stress (eg, illness) the body is unable to metabolise fat (so no ketones are produced), and continues to metabolise glucose producing hypoglycaemia.1 The clinical result is severe hypoglycaemia and hypoketonuria, with accumulation of monocarboxylic fatty acids and dicarboxylic organic acids.
Epidemiologia
The incidence is up to 1 in every 12,000 births.2
Presentazione
Typically this presents clinically with failure of fatty acid oxidation after fasting and an inability to generate energy during periods of increased energy demand. This may cause variable presentation, including symptomatic hypoglycaemia, hepatic encephalopathy or sudden unexpected infant death. Most cases present before 2 years of age (mean age 13 months), although a variable spectrum of disease is increasingly recognised, with presentations both in the neonatal period and in adulthood.
About a third of affected individuals remain asymptomatic throughout life but may be at risk of metabolic decompensation in periods of critical energy supply - eg, during infection or prolonged fasting.3
Age at presentation is quite variable.
It most commonly presents in infants aged >3 months, when overnight feeds reduce in frequency. The gap between feeds is then long enough for acute hypoglycaemia to occur, producing symptoms of preprandial irritability, drowsiness, jitteriness, sweating, coma and seizures.
It can present as sudden death in adults. There is a 25% mortality rate in undiagnosed cases.
It can present with:
Life-threatening hypoketotic hypoglycaemic coma.
Metabolic acidosis.
.
Hepatomegaly and fatty infiltration of viscera.
In later childhood it may present with episodic hypoglycaemia - eg, with sweating, collapse, confusion, or developmental delay.
It has been reported presenting after a first episode of alcohol intoxication.4
It very occasionally presents in adulthood with muscle weakness and fatigue.
Survivors of acute episodes may have severe hypoglycaemia-induced brain damage.
Indagini
These may be normal in between attacks.
Acutely - hypoglycaemia.
U&E may show high or low bicarbonate and reduced anion gap.
LFTs may show elevated enzymes, low plasma carnitine.
Urine - medium-chain dicarboxylic aciduria and absent ketones.
Skin biopsy can be performed to confirm diagnosis of primary carnitine deficiency - demonstrating reduced carnitine transport in fibroblasts. Fibroblasts may be used for fatty acid oxidation studies or enzyme assay.
Gestione
Avoidance of fasting.5A maximum duration of fasting in children with MCAD deficiency of:6
Between 6 months and 1 year of age - eight hours.
In the second year of life - ten hours.
Thereafter - twelve hours.
There are no firm guidelines on the duration of fasting during situations of intercurrent illness, especially with fever.
Because the fundamental biochemical defect is in fatty acid oxidation, the composition of the diet should be adjusted to provide greater calories in carbohydrates and proteins, while minimising lipids.
Daily carnitine supplementation may be required.7
Consulenza genetica should be provided for family members.
The heterozygous state is quite common. Testing for the gene should be offered to first-degree relatives of an affected child.
Complicazioni
Frequent episodes of severe hypoglycaemia carry a risk of adverse effects in the CNS.
Hypoglycaemia and hyperammonaemia may cause cerebral oedema and prolonged coma.
Prognosi3
About 25% of patients with undiagnosed MCAD deficiency die at or shortly after the first presentation. A further large group of undiagnosed patients presents too late to prevent long-term neurological disability.
If the diagnosis is made early, children with this deficiency can expect to lead a full and normal life, with simple dietary treatment aimed mainly at the avoidance of fasting.
Diagnosi prenatale
This is technically possible by demonstrating a marked reduction in octanoate oxidation in cultured amniotic cells obtained via amniocentesis.
Neonatal screening
Biochemically, MCAD deficiency is characterised by elevated medium-chain acylcarnitines in blood, particularly octanoylcarnitine. It can be identified by screening of dried blood spots via quantitative detection of acylcarnitines using mass spectrometry.8
The Department of Health introduced routine MCAD deficiency screening in the neonatal blood spot screen from February 2009.9
Aggiornamenti esclusivi per i professionisti sanitari
Rimani informato con gli ultimi aggiornamenti clinici, approfondimenti professionali e linee guida basate su evidenze. La newsletter Patient Pro seleziona contenuti essenziali per i professionisti sanitari—consegnati direttamente nella tua casella di posta.
Abbonandoti accetti i nostri Informativa sulla Privacy. Puoi annullare l'iscrizione in qualsiasi momento. Non vendiamo mai i tuoi dati.
Ulteriori letture e riferimenti
- Acyl-CoA Dehydrogenase, medium-chain, deficiency of, ACADMD; Ereditarietà Mendeliana Online nell'Uomo (OMIM)
- Carroll JC, Gibbons CA, Blaine SM, et al; Genetics: newborn screening for MCAD deficiency. Can Fam Physician. 2009 May;55(5):487.
- Loughrey C, Bennett MJ; Screening for MCAD deficiency in newborns. BMJ. 2009 Mar 12;338:b971. doi: 10.1136/bmj.b971.
- Mayell SJ, Edwards L, Reynolds FE, et al; Late presentation of medium-chain acyl-CoA dehydrogenase deficiency. J Inherit Metab Dis. 2006 Nov 30;.
- Touw CM, Smit GP, Niezen-Koning KE, et al; In vitro and in vivo consequences of variant medium-chain acyl-CoA dehydrogenase genotypes. Orphanet J Rare Dis. 2013 Mar 20;8:43. doi: 10.1186/1750-1172-8-43.
- Derks TG, van Spronsen FJ, Rake JP, et al; Safe and unsafe duration of fasting for children with MCAD deficiency. Eur J Pediatr. 2007 Jan;166(1):5-11. Epub 2006 Jun 21.
- Couce ML, Sanchez-Pintos P, Diogo L, et al; Newborn screening for medium-chain acyl-CoA dehydrogenase deficiency: regional experience and high incidence of carnitine deficiency. Orphanet J Rare Dis. 2013 Jul 10;8:102. doi: 10.1186/1750-1172-8-102.
- Kennedy S, Potter BK, Wilson K, et al; The first three years of screening for medium chain acyl-CoA dehydrogenase deficiency (MCADD) by newborn screening ontario. BMC Pediatr. 2010 Nov 17;10:82. doi: 10.1186/1471-2431-10-82.
- Newborn Bloodspot Screening Programme; Salute Pubblica Inghilterra
Informazioni sull'autoreVisualizza il profilo completo

Dr Colin Tidy, MRCGP
Medico di base, Autore medico
MBBS, MRCGP, MRCP (Paediatrics), DCH
Il Dr Colin Tidy è un medico del NHS, con sede nell'Oxfordshire.
Informazioni sul recensoreVisualizza il profilo completo

Dott. Adrian Bonsall, MBBS
Autore Medico
MA (Chimica), MBBS (Hons), DCH
Dal 2000 Adrian lavora in pediatria d'emergenza e terapia intensiva a Sydney, con particolari interessi in tossicologia, traumi e rianimazione.
Storia dell'articolo
Le informazioni su questa pagina sono scritte e revisionate da clinici qualificati.
Articolo disponibile anche in Inglese, Tedesco, Spagnolo, Francese, Italiano, Portoghese, Hindi, Ebraico, Arabo, and Svedese.
20 Giugno 2014 | Ultima versione

Chiedi, condividi, connettiti.
Esplora le discussioni, fai domande e condividi esperienze su centinaia di argomenti di salute.

Non ti senti bene?
Valuta i tuoi sintomi online gratuitamente
Di più sui disturbi congeniti ed ereditari
- Agenesia del corpo calloso
- Difetto del setto atriale
- Atresia biliare
- Agammaglobulinemia di Bruton
- Cardiomiopatie
- Problemi congeniti dell'orecchio
- Malformazioni gastrointestinali congenite
- HIV congenito e AIDS infantile
- Sindrome di Dandy-Walker
- Diaphyseal aclasis
- Sindrome di Dubin-Johnson
- Galattosemia
- Paralisi periodica ipokaliemica
- Errori congeniti del metabolismo - un'introduzione
- Rene a spugna midollare
- Sindrome di Osler-Weber-Rendu
- Sindrome di Parkes Weber
- Patent ductus arteriosus
- Deficienza di fosfoenolpiruvato carbossichinasi
- Carenza di proteina S