Skin-flap thickness is an important consideration when choosing a free flap for head and neck reconstruction. The anterolateral thigh flap, the rectus abdominis flap, and the radial forearm flap, which included the epidermis, the dermal, and the subcutaneous layers, were measured using ultrasonography in 31 patients. The mean skin and subcutaneous thickness of the anterolateral thigh flap was 7.1 mm; the rectus abdominis flap was 13.7 mm; and the radial forearm flap was 2.1 mm. Further analysis revealed a statistically significant difference among the skin and subcutaneous thickness of the three flap groups. Of the 44 anterolateral thigh flap transfers done for head and neck reconstruction after cancer ablative surgery, 41 (93.2 percent) were transferred successfully. The anterolateral thigh flap creates a moderately thick skin flap, and is less variable in thickness across its area than is the rectus abdominis flap. The flap is adaptable for reconstruction of head and neck soft-tissue defects.
This study was undertaken to compare removal torque of endosseous implants in the fibula, iliac crest and scapula of cadavers. The fibulae, iliac crests and scapulae were harvested from the right side of 5 formalin-preserved cadavers. Endosseous implants (Brånemark System) were placed at 3 points of each bone. The removal torque of the implant was measured by a torque gauge manometer (Tohnichi 15 BTG-N). After measurement of the removal torque, the bone was cut at each implant site. The thicknesses of cortical and total bone were measured. The mean removal torques were 46.3 N cm in the fibulae, 15.2 N cm in the iliac crests and 21.4 N cm in the scapulae. There was a statistically significant difference in mean removal torque between the three bones. The total bone thicknesses were 11.7 mm in the fibulae, 9.9 mm in the iliac crests and 8.2 mm in the scapulae. The cortical bone thicknesses were 5.0 mm in the fibulae, 1.6 mm in the iliac crests and 1.8 mm in the scapulae. Significant correlation between the removal torque and the cortical bone thickness was found. However there was no significant correlation between the removal torque and the total bone thickness. In conclusion, the implants inserted in the fibulae showed the highest removal torques as compared to the ones inserted in the iliac crests and the scapulae. Moreover the removal torque was related to the thickness of the cortical bone in the implant sites.
The surgical strategy for maxillary reconstruction after maxillectomy has yet to be standardized. The authors developed a technique using a three-dimensional orbitozygomatic skeletal model of a titanium mesh for skeletal reconstruction after maxillectomy. From May of 1996 to September of 2000, 18 patients underwent reconstruction using the titanium mesh model in conjunction with a soft-tissue free flap following total maxillectomy for a maxillary malignancy. The soft-tissue free flap was conventional and consisted of two skin paddles to the maxillary defect. One skin paddle became the lateral nasal wall and the other was used to close the palatal defect. After modeling, the titanium mesh plate was implanted between the orbital contents and the upper edge of the free flap to lie over the front of the flap. The model was fixed to the residual zygoma laterally and to the nasal or frontal bone medially. The palatal skin paddle was anchored by three or four dermal stitches to the bottom edge of the titanium mesh to create a concave neopalate that allowed the patient to wear a denture. Thirteen of 18 patients who underwent implantation had good facial appearance and oral function. This procedure prevented lagophthalmos, facial deformity, and sagging of the palatal skin paddle caused by gravitational force. Five patients (27.8 percent) developed exposure or infection of the implant and lost the benefit of having the prosthesis. However, treatment did not require total removal of the implant. Maintaining adequate tissue volume during soft-tissue transfer on either side of the mesh plate may minimize the complication rate. Titanium mesh implantation for skeletal reconstruction after maxillectomy avoids the need for bone grafting and may be especially beneficial in fragile or aged patients.
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