The genetic defect is sex linked (manifests only in males), and symptoms manifest between 2 and 5 years of age (creatine kinase may be increased before symptoms appear). Death is usually secondary to congestive heart failure or pneumonia.

Axial skeletal muscle imbalance produces kyphoscoliosis, which often requires surgical correction.

Involvement of cardiac muscle is reflected by a progressive loss of the R-wave amplitude on the lateral precordial leads of the electrocardiogram (ECG). Routine echocardiography can provide important information about cardiac function. Progressive loss of myocardial tissue results in cardiomyopathy, ventricular dysrhythmias, and mitral regurgitation.

Treatment of cardiac dysfunction includes angiotensin-converting enzyme inhibitors, β-adrenergic blockers, and dysrhythmia surveillance.

Degeneration of respiratory muscles (reflected by spirometry) results in an ineffective cough with retention of secretions and pneumonia.

Significant complications from anesthesia in patients with muscular dystrophy are secondary to the effects of anesthetic drugs on myocardial and skeletal muscle.

Degeneration of gastrointestinal smooth muscle with hypomotility of the intestinal tract and delayed gastric emptying in conjunction with impaired swallowing mechanisms may increase the risk of perioperative aspiration.

Pulmonary function studies demonstrate a restrictive lung disease pattern, mild arterial hypoxemia, and diminished ventilatory responses to hypoxia and hypercapnia.

Pregnancy may produce an exacerbation of myotonic dystrophy, and congestive heart failure is more likely to occur during pregnancy.

SCh produces myotonia and should not be administered to these patients. The response of these patients to nondepolarizing muscle relaxants may be enhanced. Reversal with neostigmine may provoke myotonia. The response to the peripheral nerve stimulator must be carefully interpreted because muscle stimulation may produce myotonia (misinterpreted as sustained tetanus when significant neuromuscular block still exists).

Patients with myotonia are very sensitive to the ventilatory depressant effects of opioids, barbiturates, benzodiazepines, and volatile anesthetics.

No specific anesthetic technique has been shown to be superior for patients with myotonic dystrophy. Propofol infusions may be acceptable. Inhaled anesthetics may be used, but close monitoring of cardiac rhythm and cardiovascular function is indicated.

The primary goal of the perioperative management of patients with both forms of periodic paralysis is the maintenance of normal potassium levels and avoidance of events that precipitate muscle weakness (alkalosis owing to hyperventilation, carbohydrate loads, hypothermia).

Short-acting muscle relaxants are preferred, and the response should be monitored with a peripheral nerve stimulator. SCh should be avoided because it may enhance potassium release from skeletal muscle cells.

The ECG should be monitored for evidence of hypokalemia and associated cardiac dysrhythmias. (Serum potassium concentration should be measured during prolonged operations.)

Avoidance of carbohydrate loads, hypothermia, and excessive hyperventilation is prudent.

The clinical hallmark of myasthenia gravis is skeletal muscle weakness (increased by repetitive muscle use) with periods of exacerbation and remission (Table 23-4).

Treatment includes administration of anticholinesterase drugs, thymectomy, corticosteroids, and immunosuppressants. Whereas underdosage with anticholinesterase drugs results in skeletal muscle weakness, overdosage leads to a “cholinergic crisis.” The role of thymectomy for the treatment of myasthenia is not clearly established.

The myasthenic syndrome is a disorder of neuromuscular transmission associated with carcinomas, particularly small cell carcinoma of the lung. (This syndrome should be suspected in patients undergoing diagnostic procedures, such as diagnostic bronchoscopy, mediastinoscopy, or exploratory thoracotomy for possible cancer) (Table 23-5).

The most serious immediate problem is hypoventilation. Vital capacity should be monitored frequently. If it
decreases below 15 to 20 mL/kg, mechanical ventilation of the lungs is indicated.

Although 85% of patients with this syndrome achieve a good recovery, chronic recurrent neuropathy develops in 3% to 5% of patients.

Autonomic nervous system dysfunction with wide fluctuations in blood pressure (physical stimulation may precipitate hypertension), tachycardia, cardiac dysrhythmias, and cardiac arrest.

Compensatory cardiovascular responses may be absent (autonomic nervous system dysfunction), resulting in significant hypotension secondary to postural changes, blood loss, or positive airway pressure. Conversely, stimuli such as laryngoscopy and tracheal intubation may produce hypertension and tachycardia.

SCh is not recommended because drug-induced potassium release may result in hyperkalemia and cardiac arrest. The response to nondepolarizing muscle relaxants ranges from sensitivity to resistance.

It is likely that mechanical ventilation will be required during the immediate postoperative period.