Hooked fingernail deformity can develop after any type of fingertip amputation. A more proximal amputation is associated with a higher probability of developing hooked fingernails. Proximal fingertip amputations with very short remaining nail beds are recommended for revision amputation with nail bed ablation. This procedure eliminates the possibility that the patient may have a functional nail. When the nail matrix is still retained, an oblique triangular neurovascular island flap may preserve the nail and digit length. At our institution, the modified oblique triangular neurovascular island flap is routinely used for patients who underwent fingertip amputation with a retained nail bed. These modifications may aid in preventing the development of hooked nail deformity and creating a round pulp contour without the need for fixation, composite grafts, or distant soft tissue transfer.
Managing lateral soft tissue defects, distal to the proximal interphalangeal joint, of the finger can be challenging. The use of antegrade homodigital island flap can be limited due to the length of the defect. Using a heterodigital island flap can be precluded by an injury in the adjacent fingers. Using the locoregional flap from the hand can result in a more extensive soft tissue dissection, which can create additional donor site morbidity. We present our execution technique of the homodigital dorsal skin advancement flap. The pedicle of the flap is based on dorsal branches of the digital artery perforator; hence the proper digital artery and nerve are unharmed. The operation is limited only to the injured digit, which can reduce donor site morbidity.
Background: Volar locking plate (VP) and Kirschner wire (K-wire) fixations of distal end radius fractures are the most frequently used techniques that produce similar long term clinical results. However, inadequate fixation strength of the K-wire may cause pin loosening or migration. Although these complications can be prevented by immobilization, joint stiffness and a prolonged recovery period can occur.
Objective: Herein, a technique that provided more stability, allowing immediate motion after fixation by linking the K-wires into a single system (locked K-wire system) was proposed.
Methods: We evaluated biomechanical responses of the locked K-wire system and a VP in extraarticular distal radius fracture models AO/OTAa type 23A2 and 23A3 using three-dimensional finite element analysis. All models were tested under axial, bending, and torsional loads.
Results: From the simulation results, the total displacement was greater in the dorsal wedge fracture than that from the simple fracture under all loads for both fixation systems. The locked K-wire system and the VP could withstand immediate physiologic load with maximum displacements of 1.15 mm and 1.39 mm, respectively.
Conclusion: Considering the immediate physiologic load resistance and the ability to preserve its position during the bone-healing period, the locked K-wire system might be used as an alternative to fix distal radius fractures.
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