Piezoelectric Bone Surgery: A Revolutionary Technique for Minimally Invasive Surgery in Cranial Base and Spinal Surgery? Technical Note

OBJECTIVE: Piezoelectric surgery represents an innovative, ultrasonic surgery technique for performing a safe and effective osteotomy or osteoplasty that contrasts with the traditional hard and soft tissue management methods with rotating instruments. METHODS: Because of its physical and mechanical properties, the definitive clinical advantage of piezoelectric bone surgery with regard to precision cutting lies in the sparing of vital neurovascular bundles or general soft tissue and better visualization of the surgical field, thus suggesting its great safety. Piezoelectric bone surgery has been previously described only in oral and maxillofacial operative procedures in adults. RESULTS: Five children between the age of 6 and 84 months were operated on for craniosynostosis, tethered cord, and an extraconal intraorbital tumor. The usefulness of piezoelectric bone surgery during neurosurgical procedures is presented for these cases. This technique is especially recommended when there are anatomic difficulties because of poor intraoperative visibility or the presence of delicate anatomic structures. CONCLUSION: The present preliminary report (comprising illustrative case reports) demonstrates and introduces for the first time the utility of piezoelectric bone surgery in cranial base and spinal surgery in children. Until now, there has been no documented neurosurgical experience of this technique even in adults.

[1]  J. Sherman,et al.  Ultracision: the harmonic scalpel and its possible uses in maxillofacial surgery. , 2000, The British journal of oral & maxillofacial surgery.

[2]  G. Rosner,et al.  Hemodynamic and metabolic effects of decompressive hemicraniectomy in normal brain An experimental PET-study in cats , 2003, Brain Research.

[3]  D. Cardinali,et al.  Autonomic neural signals in bone: physiological implications for mandible and dental growth. , 2004, Life sciences.

[4]  M. Dyson Non-thermal cellular effects of ultrasound. , 1982, The British journal of cancer. Supplement.

[5]  A. Goel,et al.  Vascularized pedicled laminoplasty. , 1997, Surgical neurology.

[6]  S. Tani,et al.  Laminoplasty with Preservation of Posterior Cervical Elements: Surgical Technique , 2002, Neurosurgery.

[7]  Georg Eggers,et al.  Piezosurgery: an ultrasound device for cutting bone and its use and limitations in maxillofacial surgery. , 2004, The British journal of oral & maxillofacial surgery.

[8]  O. Gratzl,et al.  Treatment of syringomyelia after posttraumatic paraparesis or tetraparesis. , 1999, Journal of spinal disorders.

[9]  M. Robiony,et al.  Piezoelectric bone cutting in multipiece maxillary osteotomies. , 2004, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[10]  E D Williams,et al.  The effects of operator technique and bur design on temperature during osseous preparation for osteosynthesis self-tapping screws. , 1999, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.

[11]  H. Ludwig,et al.  Subgaleal Versus Subperiosteal Dissection in Fronto-Orbital Advancement Procedures , 2001, The Journal of craniofacial surgery.

[12]  C. Cutting,et al.  Blood supply of the upper craniofacial skeleton: the search for composite calvarial bone flaps. , 1984, Plastic and reconstructive surgery.

[13]  B. Schaller Subcranial approach in the surgical treatment of anterior skull base trauma , 2005, Acta Neurochirurgica.