Direct and reversed dorsal digital island flaps: A review of 65 cases

Abstract

BackgroundReconstruction of soft tissue defects in fingers continues to be a challenging problem. The purpose of this study is to report the reconstruction of small-to-moderate defects of fingers with dorsal digital island flap (DDIF) and to evaluate the efficacy of use of the flap. MethodsOver last six years, a retrospective study was conducted with 65 patients who had soft tissue defects of fingers treated with the DDIF. Sixty-nine soft-tissue defects were found in 69 fingers in 65 patients. Based on the flow direction of blood supply, the patients were divided into two groups: the direct (n=35) and reversed (n=30) DDIF groups. In addition, based on the different donor sites, the direct DDIF group was divided into two subgroups: the proximal phalangeal direct DDIF subgroup (n=16) and the extended pedicle direct DDIF subgroup (n=19). The main outcomes were static 2-point discrimination and Semmes–Weinstein monofilament scores of flap and joint motion. ResultsAt the final follow-up, the mean static two-point discrimination of the flaps was 9.7mm (range, 8 to 12mm) in the proximal phalangeal direct DDIF subgroup and 8.3mm (range, 7 to 11mm) in the extended pedicle direct DDIF subgroup, with a significant difference (p=0.005). In the direct DDIF group, there was no significant difference in total active motion between the donor fingers and the opposite sides. In the reversed DDIF group, the mean total active motion of the donor fingers was 170° and the data of the opposite sides was 181°, with a significant difference (p=0.024). Maximum amplitude losses of 15° were seen in 12% of patients in the distal interphalangeal joint. ConclusionsThe DDIF is reliable and technically easy for reconstructing small-to-moderate defects of fingers. The extended pedicle direct DDIF may be an optional solution when sensory reconstruction is needed.