ObjectiveTo investigate the feasibility of the 3rd-6th intercostal nerve transfer to the suprascapular nerve for reconstruction of shoulder abduction. MethodsFifteen thoracic walls (30 sides) were collected from human cadavers. The 3rd-6th intercostal nerve length which can be dissected between the midaxillary line and midclavicular line, and the transfer distance between the midaxillary line and midpoint of the clavicular bone (prepared point for neurotization) were measured. ResultsIn 30 sides of specimens, the 3rd and 4th intercostal nerves could be obtained between the midaxillary line and midclavicular line, the available length of which was significantly greater than the transfer distance (P lt; 0.01). Six sides of the 5th intercostal nerve and 16 sides of 6th intercostal nerve were covered by the costal cartilage before reaching the midclavicular line. The available length of the 5th intercostal nerve was similar to the transfer distance (P gt; 0.01), while the available length of the 6th intercostal nerve was significantly less than transfer distance (P lt; 0.01). The suprascapular nerve could be dissociated and turned to the clavicular bone of more than 2 cm. The whole length of the available 5th intercostal nerve length and the turning length (2 cm) of suprascapular nerve was significantly greater than the transfer distance (P lt; 0.01), but for the 6th intercostal nerve, the whole length was still less than transfer distance (P lt; 0.01). ConclusionIt could be an alternative method to use the 3rd, 4th, and 5th intercostal nerve transfer to the suprascapular nerve for reconstruction of shoulder abduction. And for the 6th intercostal nerve, longer dissociated length may be required for direct coaptation or using a graft for nerve repair.
ObjectiveTo investigate the anatomic features of the perforating branch flap of the medial vastus muscle, so as to provide a new perforating branch flap for repairing the soft tissue defect. MethodsSix fresh donated lower limb specimens underwent an intra-arterial injection of a lead oxide and lactoprene preparation. The integument of the thigh was dissected to observe the origin, course, size, and location of the perforating branch of the medial vastus muscle by angiography and photography. Based on the anatomic study, the free perforating branch flaps of the medial vastus muscle (14 cm × 6 cm to 20 cm × 5 cm) were used to repair skin and soft tissue defects (8 cm × 6 cm to 12 cm × 8 cm) of the feet in 4 patients between June 2009 and August 2011. ResultsThe artery of the medial vastus was sent out constantly from the femoral artery, and then descended in the vastus muscle to lateral patella where it anastomosed with the terminal branches of lateral femoral circumflex artery to form prepatellar vascular network. The artery of the medial vastus sent out 3-5 musculocutaneous perforating branches into the deep fascia and then extended superficially to the overlying skin. Four flaps survived after surgery; wounds at the donor site and recipient site healed by first intention. After follow-up of 6-12 months, the flaps had good appearance and texture. All ankles had normal movement range of plantarflexion and dorsiflexion. ConclusionThe free perforating branch flaps of the medial vastus muscle can be harvested easily, and have the advantage of good texture and abundant donor site.