Medicine:Jervell and Lange-Nielsen syndrome

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Jervell and Lange-Nielsen syndrome
Other namesLong QT interval-deafness syndrome[1]
Jervell and Lange-Nielsen features.jpg
The features of Jervell and Lange-Nielsen syndrome include a prolonged QT interval and sensorineural deafness
SpecialtyCardiology
SymptomsBlackouts, seizures, sensorineural deafness
ComplicationsSudden death
Usual onsetCongenital
CausesGenetic
Differential diagnosisOther forms of Long QT syndrome
TreatmentBeta blockers, implantable cardioverter defibrillator

Jervell and Lange-Nielsen syndrome (JLNS) is a rare type of long QT syndrome associated with severe, bilateral sensorineural hearing loss.[2] Those with JLNS are at risk of abnormal heart rhythms called arrhythmias, which can lead to fainting, seizures, or sudden death. JLNS, like other forms of long QT syndrome, causes the cardiac muscle to take longer than usual to recharge between beats. It is caused by genetic variants responsible for producing ion channels that carry transport potassium out of cells. The condition is usually diagnosed using an electrocardiogram, but genetic testing can also be used. Treatment includes lifestyle measures, beta blockers, and implantation of a defibrillator in some cases. It was first described by Anton Jervell and Fred Lange-Nielsen in 1957.[3]

Symptoms and signs

Jervell and Lange-Nielsen syndrome causes severe sensorineural hearing loss from birth, affecting both ears. Those affected have a prolonged QT interval on an electrocardiogram and are at risk of abnormal heart rhythms (arrhythmias), which can cause dizziness, blackouts, or seizures.[2] In general, JLNS affects the heart more severely than other forms of long QT syndrome. 90% of those with JLNS experience arrhythmias, with 50% becoming symptomatic by the age of 3.[4] In some cases these arrhythmias lead to sudden death.[citation needed]

Genetics

Jervell and Lange-Nielsen syndrome is inherited in an autosomal recessive manner

Jervell and Lange-Nielsen syndrome is caused by mutations in the KCNE1 and KCNQ1 genes. The proteins produced by these two genes work together to form a potassium channel that transports positively charged potassium ions out of cells, which is called the slow delayed rectifier potassium current. The movement of potassium ions through these channels is critical for maintaining the normal functions of the inner ear and cardiac muscle.[5] JLNS is an autosomal recessive disorder meaning that two copies of the genetic mutation are required to produce the full syndrome. Mutations in the same genes can produce milder Romano-Ward forms of long QT syndrome if only a single copy of the genetic mutation has been inherited.[citation needed]

About 90% of cases of Jervell and Lange-Nielsen syndrome are caused by mutations in the KCNQ1 gene, leading to Jervell and Lange-Nielsen syndrome type 1 (JLNS1). KCNE1 mutations are responsible for the remaining 10% of cases, causing Jervell and Lange-Nielsen syndrome type 2 (JLNS2). Mutations in these genes alter the usual structure and function of potassium channels or prevent the assembly of normal channels. These changes disrupt the flow of potassium ions in the inner ear and in cardiac muscle, leading to the hearing loss and irregular heart rhythm characteristic of Jervell and Lange-Nielsen syndrome.[5]

Type OMIM Gene Notes
JLNS1 Online Mendelian Inheritance in Man (OMIM) 192500 KCNQ1 Encodes the α-subunit of the slow delayed rectifier potassium channel KV7.1 carrying the potassium current IKs. [6]
JLNS2 Online Mendelian Inheritance in Man (OMIM) 176261 KCNE1 Encodes MinK, a potassium channel β-subunit. [6]

Diagnosis

ECG from a 10-year-old boy with Jervell and Lange-Nielsen syndrome
Comparison of ECGs from a single family showing unaffected family member (top), Romano-Ward syndrome (middle) and Jervell and Lange-Nielsen syndrome (bottom)

The sensorineural hearing loss in Jervell and Lange-Nielsen syndrome is present from birth and can be diagnosed using audiometry or physiological tests of hearing.[7] The cardiac features of JLNS can be diagnosed by measuring the QT interval corrected for heart rate (QTc) on a 12-lead electrocardiogram (ECG). The QTc is less than 450 ms in 95% of normal males, and less than 460 ms in 95% of normal females. In those with Jervell and Lange-Nielsen syndrome the QTc is typically greater than 500 ms.[8]

Other factors beyond the QT interval should be taken into account when making a diagnosis, some of which have been incorporated into scoring systems such as the Schwartz score. These factors include a history of characteristic abnormal heart rhythms (Torsades de Pointes), unexplained blackouts (syncope), and a family history of confirmed LQT syndrome. Genetic testing to identify variants in the KCNQ1 or KCNE1 genes can also be used.[8]

Treatment

The risk of arrhythmias can be reduced in several ways. Medications that further prolong the QT interval such as sotalol should be avoided, as should very strenuous or competitive exercise.[2] Blood potassium levels should be kept within the normal range. Potassium supplements may be used at times when potassium is being lost such as when experiencing diarrhoea or vomiting, but medications that encourage the retention of potassium such as spironolactone or amiloride may also be required.[2][9] Beta blockers such as propranolol or nadolol reduce the risk of arrhythmias.[9]

An implantable defibrillator, a small device that monitors the heart rhythm and can automatically deliver an electric shock to restart the heart, may be used. These devices are recommended for those with JLNS who have experienced a cardiac arrest or a blackout whilst taking beta blockers.[9] Due to the higher risk of arrhythmias associated with JLNS than other forms of long QT syndrome, a defibrillator may be considered even in those without any symptoms.[9]

In those who experience recurrent arrhythmias despite medical therapy, a surgical procedure called sympathetic denervation can be used to interrupt the nerves that stimulate the heart.[2]

Prognosis

The risk of arrhythmias is higher for those with Jervell and Lange-Nielsen syndrome than other forms of long QT syndrome.[10] Although this risk is dependent on the underlying genetic defect and degree of QT prolongation, without treatment more than 50% of those affected will die before the age of 15.[11] However, treatment with beta blockers markedly reduces the risk of death, as does, in selected cases, implantation of a defibrillator.[11]

Epidemiology

Jervell and Lange-Nielsen syndrome affects an estimated one in 166,000 to 625,000 children, and is responsible for less than 10% of all cases of long QT syndrome. It has a markedly higher incidence in Norway and Sweden at up to one per 200,000.[5]

References

  1. RESERVED, INSERM US14-- ALL RIGHTS. "Orphanet: Jervell and Lange Nielsen syndrome" (in en). https://www.orpha.net/consor/cgi-bin/OC_Exp.php?lng=en&Expert=90647. 
  2. 2.0 2.1 2.2 2.3 2.4 "Congenital Long QT Syndrome". Electrical Diseases of the Heart. London: Springer. 2013. pp. 439–469. doi:10.1007/978-1-4471-4881-4_27. ISBN 978-1-4471-4881-4. 
  3. Jervell, A.; Lange-Nielsen, F. (1957). "Congenital deaf-mutism, functional heart disease with prolongation of the Q-T interval, and sudden death". American Heart Journal 54 (1): 59–68. doi:10.1016/0002-8703(57)90079-0. PMID 13435203. 
  4. Crotti, Lia; Celano, Giuseppe; Dagradi, Federica; Schwartz, Peter J. (2008-07-07). "Congenital long QT syndrome". Orphanet Journal of Rare Diseases 3: 18. doi:10.1186/1750-1172-3-18. ISSN 1750-1172. PMID 18606002. 
  5. 5.0 5.1 5.2 Tranebjaerg, L.; Samson, R.A.; Green, G.E. (1993). "Jervell and Lange-Nielsen Syndrome". GeneReviews (University of Washington, Seattle). PMID 20301579. https://www.ncbi.nlm.nih.gov/books/NBK1405/. Retrieved 29 November 2013. 
  6. 6.0 6.1 Giudicessi, John R.; Wilde, Arthur A. M.; Ackerman, Michael J. (October 2018). "The genetic architecture of long QT syndrome: A critical reappraisal". Trends in Cardiovascular Medicine 28 (7): 453–464. doi:10.1016/j.tcm.2018.03.003. ISSN 1873-2615. PMID 29661707. 
  7. Shearer, A. Eliot; Hildebrand, Michael S.; Smith, Richard JH (1993). "Genetic Hearing Loss Overview". in Adam, Margaret P.; Ardinger, Holly H.; Pagon, Roberta A. et al.. Hereditary Hearing Loss and Deafness Overview. University of Washington, Seattle. http://www.ncbi.nlm.nih.gov/books/NBK1434/. Retrieved 2020-05-03. 
  8. 8.0 8.1 Tranebjærg, Lisbeth; Samson, Ricardo A.; Green, Glenn Edward (1993), Adam, Margaret P.; Ardinger, Holly H.; Pagon, Roberta A. et al., eds., "Jervell and Lange-Nielsen Syndrome", GeneReviews® (University of Washington, Seattle), PMID 20301579, http://www.ncbi.nlm.nih.gov/books/NBK1405/, retrieved 2020-05-03 
  9. 9.0 9.1 9.2 9.3 Priori, Silvia G.; Blomström-Lundqvist, Carina; Mazzanti, Andrea; Blom, Nico; Borggrefe, Martin; Camm, John; Elliott, Perry Mark; Fitzsimons, Donna et al. (2015-11-01). "2015 ESC Guidelines for the management of patients with ventricular arrhythmias and the prevention of sudden cardiac death: The Task Force for the Management of Patients with Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death of the European Society of Cardiology (ESC)Endorsed by: Association for European Paediatric and Congenital Cardiology (AEPC)" (in en). European Heart Journal 36 (41): 2793–2867. doi:10.1093/eurheartj/ehv316. ISSN 0195-668X. PMID 26320108. 
  10. Giudicessi, John R.; Ackerman, Michael J. (October 2013). "Genotype- and phenotype-guided management of congenital long QT syndrome". Current Problems in Cardiology 38 (10): 417–455. doi:10.1016/j.cpcardiol.2013.08.001. ISSN 1535-6280. PMID 24093767. 
  11. 11.0 11.1 Pabba, Krishna; Chakraborty, Rebanta K. (2019), "Jervell and Lange Nielsen Syndrome", StatPearls (StatPearls Publishing), PMID 30725985, http://www.ncbi.nlm.nih.gov/books/NBK537300/, retrieved 2019-06-17 

External links

Classification
External resources

This article incorporates public domain text from The U.S. National Library of Medicine