Minimally invasive stabilization of metatarsal fractures to enable adequate fracture healing in acorrect position to restore anatomy and biomechanics of the foot. A.Dislocated diaphyseal and subcapital fractures of the second to fifth metatarsal (> 3 mm, > 10° dislocation). B.Fifth metatarsal fracture at the metadiaphyseal junction (Lawrence and Botte typeIII). High grade soft tissue damage or infection at the implant insertion site. A.Fluoroscopically assisted closed reduction and antegrade intramedullary fixation of diaphyseal and subcapital fractures of the second to fifth metatarsal. B.Fluoroscopically assisted wire-guided intramedullary screw fixation of fifth metatarsal fractures at the metadiaphyseal junction. A.Mobilization with partial weight bearing (20 kg) for 6weeks wearing astiff sole; implant removal under local anesthesia after 6-8weeks, followed by afree range of movement and weight-bearing as tolerated (WBAT). B.Early mobilization with weight-bearing as tolerated (WBAT); removal of the orthosis after 6weeks, implant removal optional. A.Antegrade nailing of subcapital and shaft fractures of metatarsalsII-V achieves good clinical results with low complication rates both when using prepared Kirschner wires or elastically stable intramedullary nails (ESIN). B.According to current literature, intramedullary screw osteosynthesis of proximal metatarsalV fractures of zoneII andIII according to Lawrence and Botte leads to faster bony healing with alower nonunion rate compared with conservative treatment. It is recommended especially, but not only, for active athletes.