Anatomical Reconstruction of Extensive Inferomedial Blow-Out Fractures Involving the Inferomedial Orbital Strut Using a Single Fan-shaped Titanium-Reinforced Porous Polyethylene Plate

Abstract

Extensive inferomedial blow-out fractures involving the inferomedial orbit strut frequently result in severe ophthalmic complications. Therefore, anatomical reconstruction is essential but is still technically challenging. Thus, the authors have used a novel technique using a combination of single fan-shaped titanium-reinforced porous polyethylene (TR-PPE) implants and a bidirectionally extended transconjunctival approach. Herein, the authors describe our surgical technique and discuss its effectiveness. First, the transconjunctival approach was performed and was subsequently extended medially using the transcaruncular approach and laterally using lateral blepharotomy. After the origin of the inferior oblique muscle was identified, a trimmed fan-shaped TR-PPE implant was inserted into the orbital floor. It was subsequently rotated and bent at the site of origin of the IO muscle and moved upward to cover the superior bony ledge of the medial wall. Finally, the implant was fixed to the orbital rim. Anatomical orbital reconstruction was confirmed by a computed tomographic scan. The preoperative diplopia in 19 patients, resolved within 1 week in 16 patients and in 3 to 6 months in the remaining 3 patients. Preoperative enophthalmos >2 mm in all patients improved to <2 mm in 67 patients and 3 mm in 2 patients (>7 mm preoperatively). The postoperative course was uneventful, and no severe complications were observed. The authors believe that the placement of a fan-shaped TR-PEE implant into the orbit through the bidirectionally extended transconjunctival approach could be a viable option for the anatomical reconstruction of extensive inferomedial blow-out fractures involving the inferomedial orbital strut.