Muscular dystrophies comprise an important group of inherited disorders of man. Although the disease has been studied extensively, little is known about the underlying primary pathomechanisms. Consequently, treatment of patients is difficult and prognosis is poor. An animal model of muscular dystrophy is a useful research tool for approaching the basic problems of pathogenesis in muscle diseases. An inherited progressive muscular dystrophy of mink which resembles the amyotonic forms of human muscular dystrophy is currently under study. Clinically, the earliest sign is progressive muscular weakness and atrophy. Muscle enzyme activities in serum are usually elevated to pathologic levels. Urinary creatine/creatinine ratio is elevated. Pathologic changes are limited to skeletal muscle and are typical of those seen in amyotonic forms of human muscular dystrophy. These changes include variation in diameter size of muscle fibers, centralized nuclei, floccular and hyaline degeneration of scattered muscle fibers, increase in connective tissue in endomysial and perimysial areas, and regenerative attempts. Both type I and type II muscle fibers are involved in the disease process. Genetic studies indicate an autosomal recessive mode of inheritance. Although the primary defect in muscular dystrophy is traditionally thought to reside in skeletal muscle, recent studies have produced theories of primary involvement of other tissues and organ systems. These theories are presented and relationships to the traditional theory are discussed.