The purpose of the present study was to determine changes in the localization of vinculin, Type IV collagen, laminin, and fibronectin during the damage-repair process in the skeletal muscle over several days following acute blunt trauma. A single blunt trauma to the gastrocnemius muscle of the rat was induced by applying 1.57 J of kinetic energy to one leg. By day 2 after trauma, vinculin had disappeared rapidly from the intracellular submembraneous region corresponding to the costamere, whereas Type IV collagen and laminin persisted around the degenerating myofibers (corresponding to the basement membrane). Fibronectin could be observed filling the widened endomysium and in the ruptured myofibers. In the early phase of muscle regeneration (day 5 after trauma), newly synthesized vinculin, Type IV collagen, and laminin formed ring-like structures around the regenerating myo-tubes. Fibronectin could also be observed filling the widened endomysium around the regenerating myotubes. Further, when small newly formed or splitted myofibers were observed in the areas of regenerating myofibers (day 10 after trauma), vinculin, Type IV collagen, laminin, and fibronectin were localized in specialized regions corresponding to the costamere, basement membrane, and endomysium. These results demonstrated that restoration of the costamere, basement membrane, and endomysium are essential to the maturation of regenerating myofibers after injury.