[Gold weights for the treatment of lagophthalmos caused by facial paralysis. Our experience and review of the literature]. / Pesas de oro en el tratamiento de lagoftalmos por parálisis facial. Experiencia y revisión de la literatura.

Paralysis of the orbicularis oculi muscle in patients with facial palsy can originate serious functional and esthetic problems. The implantation of a gold weight in the upper eyelid is one of the many surgical techniques that have been described for the correction of lagophthalmos in these patients. In this article we review the literature and present our experience with gold weight implantation for eyelid reanimation in patients with facial palsy. This procedure is technically simple to perform, produces good functional and cosmetic results, has a relatively low complication rate and is reversible should facial function return.

Isolated unilateral temporalis muscle hypertrophy. A case report.

A case of isolated unilateral temporalis muscle hypertrophy is presented. A review of the literature revealed only one report of temporalis hypertrophy, probably caused by psychogenic muscle hyperactivity. The temporalis muscle hypertrophy in the patient described was idiopathic and its management was surgical.

Repair of experimental mandibular defects in rats with autogenous, demineralised, frozen and fresh bone.

This prospective experimental study aimed to assess the regenerative capability of demineralised bone autografts resected and replaced orthotopically, compared with traditional fresh and deep frozen mandibular autografts in rats. In 60 adult Wistar rats, a bone defect 4 x 4 mm was created at the left ascending mandibular ramus and the removed bone was used as a fresh (n = 20), deep frozen (n = 20), or demineralised (n = 20) graft which was implanted orthotopically 2 weeks later. Ten rats in each group were killed at 2 and 6 weeks later. Outcome was measured by cellular proliferation on histological examination. The number of mesenchymal cells was significantly greater (P < 0.05) at both 2 and 6 weeks in the demineralised grafts than in the other two groups. There were no differences between the 2- and 6-week examinations of deep frozen bone, nor between the medullary and peripheral aspects. It was concluded that demineralised bony autografts cause greater osteoinduction both in the short (2 weeks) and the medium (6 weeks) term.

Effect of particulate porous hydroxyapatite on osteoinduction of demineralized bone autografts in experimental reconstruction of the rat mandible.

In an experimental model in the rat, a nonhealing bone defect was created in the left ascending mandibular ramus to test the effect of particulate porous hydroxyapatite (HA) on osteoinduction of demineralized bone autografts. The bone fragment removed was demineralized in HCl and used as an autograft for mandibular reconstruction. Granules of HA were added to the lingual and vestibular surfaces of the graft. The effect of this material was evaluated by determining the number of mesenchymal cells induced in the biomaterial and the central and peripheral zones of the bone graft, at 2-and 6-week intervals. The results show that the sites containing HA showed inhibition of osteoinduction by the bone matrix. In all groups, a proliferative gradient from the peripheral zone toward the center of the bone was observed. Similarly, the HA experienced a greater cellular increase in the regions in contact with the demineralized bone matrix.