Composite scalp and cranium defects, which require microsurgical reconstruction, result from tumor resection, radiation, trauma, severe burn injuries, and rarely vasculitic disorders. In the current study, the authors aim to compare the outcomes of the fasciocutaneous flaps and musculocutaneous free flaps used for the reconstruction of extensive composite scalp and cranium defects. From 2010 to 2017, 21 patients who underwent composite scalp and cranium defect reconstruction with a free flap were retrospectively identified. Eighteen patients had squamous cell carcinoma, 2 patients had meningioma, and 1 patient had Ewing sarcoma. Thirteen musculocutaneous free flaps including latissimus dorsi and vertical rectus abdominis flaps and 9 free fasciocutaneous flaps including radial forearm and anterolateral thigh flaps were used. Only 1 flap loss was encountered. No neurologic impairment in postoperative period was reported. The mean length of stay in the hospital, the duration of surgery, and total volume of blood transfusion for the fasciocutaneous flap group were significantly shorter than those for musculocutaneous flap group. No flap atrophy was reported in fasciocutaneous flap group. Reconstruction of the composite scalp and cranium defects with fasciocutaneous free flaps allows shorter hospitalization, less blood transfusion and less flap atrophy than those of musculocutaneous flaps. To this respect, their usage should be prioritized in such challenging patients.
The authors demonstrated, for the first time, that hyperhomocysteinemia severely suppressed the microvasculature of skin flaps, as shown by increased flap necrosis and reduced microvessel calibration in the experimental group.
We hypothesized that an osseous tissue can be prefabricated with a peripheral nerve by vascular induction, and by using a rat model, we tested this hypothesis.Twenty Wistar rats were used in the prefabricated neuro-osseous flap study. Bilateral sciatic nerves were placed linearly within the medullary cavities of the femurs. Left femurs were accepted as the experimental group. The right femurs of all the rats were used as internal control where the sciatic nerves were ligated at the bony entrance of the flap.After 6 weeks, all experimental femur flaps were viable. Radioactivity counts and metabolic activity studies showed viable and functional bone tissue in experimental group compared with control group (P = 0.001). On microangiographic evaluation, significant dilatation of the perineural vasculature was observed in experimental group. Histologic investigations showed viable bone tissue only in the experimental group flaps.Due to its easy applicability, reproducibility, and robust circulation, the prefabricated neuro-osseous flap would be an option in reconstructive surgery.
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