Myotonic Dystrophy

Overview

Plain-Language Overview

Myotonic Dystrophy is a genetic disorder that affects the muscles and other body systems. It causes progressive muscle weakness and difficulty relaxing muscles after use, known as myotonia. People with this condition may also experience problems with their heart, eyes, and endocrine system. Symptoms often begin in adulthood but can appear at any age. The disease is inherited and tends to worsen over time, impacting daily activities and quality of life.

Clinical Definition

Myotonic Dystrophy is an autosomal dominant multisystem disorder characterized by progressive skeletal muscle weakness, myotonia, and systemic involvement including cardiac conduction defects, cataracts, endocrine abnormalities, and cognitive impairment. It is caused by a trinucleotide repeat expansion in the DMPK gene (type 1) or CNBP gene (type 2), leading to toxic RNA accumulation and altered splicing of multiple transcripts. The disease exhibits anticipation, with earlier onset and increased severity in successive generations. Clinical features include distal muscle weakness, facial muscle wasting, ptosis, and difficulty releasing grip due to myotonia. Cardiac manifestations include arrhythmias and conduction blocks, which can be life-threatening. Cataracts often develop early, and endocrine dysfunction may present as insulin resistance or testicular atrophy. Diagnosis is confirmed by genetic testing, and management is supportive, focusing on symptom control and prevention of complications.

Inciting Event

There is no specific inciting event; the disease results from inherited genetic mutations.

Latency Period

none

Diagnostic Delay

Variable and subtle early symptoms such as mild muscle weakness and fatigue may delay diagnosis.
Misattribution of symptoms to other neuromuscular or systemic diseases can cause diagnostic delay.
Lack of awareness of family history or incomplete family information may contribute to delay.

Clinical Presentation

Signs & Symptoms

Progressive distal muscle weakness and wasting.
Myotonia causing difficulty in muscle relaxation after contraction.
Frontal balding and facial muscle weakness.
Cardiac conduction abnormalities including arrhythmias.
Cataracts developing at a young age.
Endocrine disturbances such as insulin resistance and testicular atrophy.
Excessive daytime sleepiness and cognitive impairment.

History of Present Illness

Progressive muscle weakness and wasting, especially in distal muscles.
Difficulty with muscle relaxation after contraction (myotonia), such as delayed hand grip release.
Associated symptoms include ptosis, dysphagia, and cardiac conduction abnormalities.
Patients may report fatigue, daytime sleepiness, and cataracts.

Past Medical History

History of cardiac arrhythmias or conduction defects.
Previous diagnosis of cataracts at a young age.
Episodes of respiratory insufficiency or sleep apnea.

Family History

Autosomal dominant inheritance pattern with multiple affected family members.
History of similar muscle weakness, myotonia, or early cataracts in relatives.
Congenital myotonic dystrophy in offspring of affected mothers.

Physical Exam Findings

Presence of muscle wasting predominantly in distal muscles such as the hands and feet.
Delayed muscle relaxation after contraction, known as myotonia.
Bilateral ptosis and facial muscle weakness leading to a characteristic hatchet face appearance.
Frontal balding and temporal muscle atrophy.
Decreased deep tendon reflexes.

Diagnostic Workup

Diagnostic Criteria

Diagnosis of Myotonic Dystrophy is based on the presence of characteristic clinical features such as myotonia, distal muscle weakness, early-onset cataracts, and cardiac conduction abnormalities, supported by family history. Confirmation requires genetic testing demonstrating expanded CTG repeats in the DMPK gene for type 1 or CCTG repeats in the CNBP gene for type 2. Electromyography may reveal myotonic discharges, and muscle biopsy can show fiber atrophy and ring fibers. Diagnosis integrates clinical, electrophysiological, and molecular findings.

Pathophysiology

Key Mechanisms

Myotonic dystrophy is caused by a trinucleotide repeat expansion in the DMPK gene (type 1) or CNBP gene (type 2), leading to toxic RNA accumulation.
The toxic RNA sequesters RNA-binding proteins, disrupting normal splicing of multiple pre-mRNAs.
This abnormal splicing results in defective muscle chloride channels and other proteins, causing myotonia and muscle weakness.

Involvement	Details
Organs	Muscular system is primarily affected causing weakness and myotonia.
	Heart involvement leads to conduction defects and arrhythmias.
	Eyes develop cataracts due to lens opacification.
	Endocrine organs such as the pancreas may be involved causing insulin resistance.
Tissues	Skeletal muscle tissue exhibits myotonia, atrophy, and fibrosis.
	Cardiac muscle tissue shows fibrosis and conduction system abnormalities.
	Lens tissue is affected leading to early-onset cataracts.
Cells	Skeletal muscle fibers are the primary cells affected, showing myotonia and muscle wasting.
	Cardiac conduction cells are involved, leading to arrhythmias and conduction defects.
	Neurons in the central nervous system may be affected, contributing to cognitive impairment.
Chemical Mediators	Chloride channels dysfunction due to abnormal RNA splicing leads to impaired muscle relaxation.
	DMPK protein deficiency disrupts normal muscle cell function and signaling.
	Cytokines may be elevated in muscle tissue contributing to inflammation and fibrosis.

Treatment

Pharmacological Treatments

Mexiletine
- Mechanism: Blocks abnormal sodium channels to reduce myotonia
- Side effects: nausea, dizziness, cardiac arrhythmias
Phenytoin
- Mechanism: Stabilizes neuronal membranes by blocking sodium channels to improve muscle relaxation
- Side effects: gingival hyperplasia, ataxia, rash
Quinidine
- Mechanism: Sodium channel blocker that decreases myotonic discharges
- Side effects: gastrointestinal upset, cardiac arrhythmias

Non-pharmacological Treatments

Physical therapy improves muscle strength and reduces stiffness.
Occupational therapy assists with daily living activities and adaptive techniques.
Use of assistive devices helps maintain mobility and prevent falls.
Regular cardiac monitoring is essential due to risk of conduction defects.

Prevention

Pharmacological Prevention

Use of antiarrhythmic drugs and pacemaker implantation to prevent cardiac complications.
Medications such as mexiletine to reduce myotonia symptoms.

Non-pharmacological Prevention

Regular cardiac monitoring with ECG and Holter to detect conduction abnormalities early.
Physical therapy to maintain muscle strength and prevent contractures.
Genetic counseling for affected families to inform reproductive decisions.

Outcome & Complications

Complications

Life-threatening cardiac arrhythmias and sudden cardiac death.
Respiratory failure due to respiratory muscle weakness.
Aspiration pneumonia secondary to dysphagia.
Infertility related to testicular atrophy.

Short-term Sequelae	Long-term Sequelae
Transient muscle stiffness and difficulty releasing grip due to myotonia. Fatigue and muscle weakness limiting daily activities. Episodes of cardiac conduction abnormalities causing syncope.	Progressive muscle wasting leading to significant disability. Chronic cardiac conduction defects requiring pacemaker placement. Development of systemic complications such as diabetes and infertility. Cognitive decline and neuropsychiatric manifestations.

Differential Diagnoses

Myotonic Dystrophy versus Duchenne Muscular Dystrophy

Myotonic Dystrophy	Duchenne Muscular Dystrophy
Adult onset with progressive muscle weakness and myotonia	Onset in early childhood, typically before age 5
Facial and distal muscle weakness with myotonia	Calf pseudohypertrophy is common
Normal or mildly elevated CK levels	Elevated serum creatine kinase (CK) levels markedly increased

Myotonic Dystrophy versus Facioscapulohumeral Muscular Dystrophy

Myotonic Dystrophy	Facioscapulohumeral Muscular Dystrophy
Myotonia on EMG with characteristic myotonic discharges	Weakness primarily affects facial and shoulder girdle muscles without myotonia
Distal muscle involvement and frontal balding	Scapular winging is a prominent feature
Multisystem involvement including cataracts and cardiac conduction defects	Normal EMG without myotonic discharges

Myotonic Dystrophy versus Hypothyroid Myopathy

Myotonic Dystrophy	Hypothyroid Myopathy
Myotonia with percussion and grip	Elevated TSH and low free T4 indicating hypothyroidism
Normal thyroid function tests	Proximal muscle weakness without myotonia
Multisystem features such as cataracts and cardiac conduction abnormalities	Delayed relaxation of deep tendon reflexes