myotonia

Myotonic Dystrophy 2

Clinical Characteristics
Ocular Features: 

Polychromatic lens opacities and posterior subcapsular sclerosis are found in 15-30% of patients. 

Ptosis, ophthalmoplegia and strabismus are not features of DM2.As many as 25% of patients with DM have a pigmentary retinopathy, usually in a butterfly pattern.

Systemic Features: 

Symptoms of myotonia usually appear in the third and fourth decades of life while evidence of limb girdle muscle weakness usually appears much later.  There is no infancy or childhood form of the disease and developmental delays do not occur.   In some patients the proximal muscles seem to be more affected than distal muscles and such cases are sometimes referred to as PROMM disease.  In these patients the neck and finger flexors may be the first to be affected.  However, there is considerable clinical variability.  Facial weakness is minimal.  Eventually both proximal and distal muscles weaken.  Myalgia of a burning, tearing nature can be debilitating.  Cardiac arrhythmias occur in a minority of patients.  Frontal balding is characteristic.  The long-term prognosis is better than in patients with myotonic dystrophy 1 (160900), and some but not all reports suggest fewer individuals experience age-related cognitive decline.  Insulin insensitivity and testicular failure occur in approximately half of patients.

PROMM disease and DM2 are now generally accepted as the same disease and the latter designation is preferred.

Genetics

Like classic myotonic dystrophy 1 (160900), this disorder also results from an abnormal number of repeats (in this case of CCTG).  Up to 30 tetranucleotide repeats in CNBP (3q21.3) is normal but patients with myotonic dystrophy 2 may have 11,000 or more and the number increases with age.  The repeat length may diminish with generational transmission.  Unlike DM 1, the repeat number does not seem to correlate with disease severity.  Both DM1 and DM2 are inherited in an autosomal dominant pattern.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

There is no treatment for the muscle disease but many patients require analgesic medication for muscle pain.  Visually significant cataracts should be removed.  Some patients require supportive care.

References
Article Title: 

Myotonic Dystrophy 1

Clinical Characteristics
Ocular Features: 

Posterior subcapsular cataracts may be seen at any age, often with striking iridescent opacities in the overlying cortex as well.  These polychromatic lens changes can be diagnostic but are present in only 50% of young adults with myotonic dystrophy.  When present, they are almost always bilateral.  Proximal muscle involvement leads to ptosis, strabismus, weakness of the orbicularis oculi, and sometimes ophthalmoplegia.  Such muscle weakness may lead to exposure keratitis. 

As many as 25% of patients with DM have a pigmentary retinopathy, usually in a butterfly pattern.

A low IOP and even hypotony is sometimes seen.  The mean IOP in a series of 51 patients has been reported as 10.9 compared with 15.4 in controls.  Using ultrasound biomicroscopy, ciliary body detachments were found in at least one quadrant of all eyes.

Systemic Features: 

In the congenital form, hypotonia, generalized weakness, mental retardation and respiratory insufficiency are often present.  There is a great deal of clinical heterogeneity among patients.  Those with mild disease may have only cataracts and mild myotonia with a normal life expectancy.  Those with more severe disease (classical myotonic dystrophy) have these signs plus marked muscle weakness and wasting.  Cardiac conduction defects with secondary arryhthmias are a significant cause of mortality. Such patients tend to become disabled in adulthood.  Symptoms become evident in the second decade or later.  Deep muscle pain is common and can be severe.  Distal muscle weakness usually begins before facial muscle weakness is apparent.  Myotonia often involves the tongue while proximal muscle weakness can cause dysphagia and dysarthria.  Such patients may also suffer respiratory distress. Reproductive fitness is reduced in males who can have gonadal atrophy.  Frontal balding is common.  Some age-related cognitive decline occurs.

Over 60% of patients have a hearing impairment and more than half of these have auditory brainstem response abnormalities.  Vestibular hypesthesia is present in 37.5%.

Genetics

Myotonic dystrophy 1 is an autosomal dominant disorder caused by a trinucleotide (CTG) repeat expansion in a region of the DMPK gene (19q13.2-q13.3).  The number of repeats varies widely and is roughly correlated with severity of disease.  Infants with congenital myotonia usually have the highest number of repeats and have the most severe cognitive deficits.  The number can expand during gametogenesis each generation (resulting in the phenomenon of anticipation) and females generally transmit larger numbers.  Most infants with congenital myotonia are offspring of affected mothers.  Reduced fetal movement and hydramnios are often noted during such pregnancies.

Affected males have few offspring secondary to gonadal atrophy.  Affected heterozygous females, however, do not have the expected ratio of affected offspring because of the dynamic nature of the number of repeats.  The risk of an affected offspring for a nulliparous afflicted female is only 3-9% and she has a 20-40% risk of recurrence after the birth of an affected child.

In a study of sibships with myotonic dystrophy, 58% of offspring were affected when the transmitting parent was male and 63% when the transmitting parent was female.

At least some of the variable transmission risks and clinical heterogeneity may be explained by somatic instability of the CTG repeat numbers.  The degree of instability, moreover, may also be heritable.  Age of onset, for example, is modified by the level of somatic instability.  Further, patients in whom the repeat expands more rapidly develop symptoms earlier. 

A similar disorder, myotonic dystrophy 2 (602668), is caused by a tetranucleotide repeat expansion in the CNBP gene.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

A variety of pharmaceutical agents have been tried for pain management without consistent results.  No treatment improves the muscle weakness.  Cholesterol lowering drugs such as statins should be avoided.  Physical therapy may be helpful.

Cardiac conduction and structural defects are a significant threat even in asymtomatic patients and require constant monitoring for the development of arrythmias.

References
Article Title: 

Inner ear dysfunction in myotonic dystrophy type 1

Balatsouras DG, Felekis D, Panas M, Xenellis J, Koutsis G, Kladi A, Korres SG. Inner ear dysfunction in myotonic dystrophy type 1. Acta Neurol Scand. 2012 Nov 5. doi: 10.1111/ane.12020. [Epub ahead of print].

PubMed ID: 
23121018

Somatic instability of the expanded CTG triplet repeat in myotonic dystrophy type 1 is a heritable quantitative trait and modifier of disease severity

les F, Couto JM, Higham CF, Hogg G, Cuenca P, Braida C, Wilson RH, Adam B, Del Valle G, Brian R, Sittenfeld M, Ashizawa T, Wilcox A, Wilcox DE, Monckton DG. Somatic instability of the expanded CTG triplet repeat in myotonic dystrophy type 1 is a heritable quantitative trait and modifier of disease severity. Hum Mol Genet. 2012 May 16. [Epub ahead of print].

PubMed ID: 
22595968

Incidence and predictors of sudden death, major conduction defects and sustained ventricular tachyarrhythmias in 1388 patients with myotonic dystrophy type 1

Wahbi K, Babuty D, Probst V, Wissocque L, Labombarda F, Porcher R, Becane HM, Lazarus A, Behin A, Laforet P, Stojkovic T, Clementy N, Dussauge AP, Gourraud JB, Pereon Y, Lacour A, Chapon F, Milliez P, Klug D, Eymard B, Duboc D. Incidence and predictors of sudden death, major conduction defects and sustained ventricular tachyarrhythmias in 1388 patients with myotonic dystrophy type 1. Eur Heart J. 2016 Dec 9. pii: ehw569. [Epub ahead of print] PubMed.

PubMed ID: 
27941019
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