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DOI: 10.1055/s-2000-9315
Frameless Stereotactic Localization in Cranial Base Surgery
Publication History
Publication Date:
31 December 2000 (online)
ABSTRACT
Mastery of the three-dimensional anatomic relationships of the cranial base/ paranasal sinuses is required to reduce the incidence of iatrogenic surgical complications, facilitate complete tumor extirpation, and enhance functional outcomes. Real-time intraoperative localization technology is one method available to assist the cranial base surgeon. We report our institutional experience with the StealthStationTM treatment guidance platform. Eighty-eight consecutive patients with pathology of the cranial base/paranasal sinuses were operated on with the aid of real-time frameless stereotactic localization. Preoperative image data sets were acquired with either CT or MRI scans. Patient demographics, accuracy of the data sets, surgical approaches, pathology, complications, and further applications of this technology are presented. Procedures were performed on 47 women and 41 men ranging in age from 6 to 85 years. In these 88 procedures, 44 MRI and 44 CT scans with a mean accuracy of 1.57 and 1.23 mm, respectively, were used. Approaches to the cranial base included midface degloving (25), endoscopic (23), craniofacial (13), maxillectomy (12), rhinotomy without maxillectomy (5), transoral (5), pterional (2), transcondylar (1), and transcervical (2). Indications for surgery included severe inflammatory disease of the paranasal sinuses with epidural or subdural abscess, or both (7), cerebrospinal fluid fistula or encephalocele, or both (11), and 40 benign and 30 malignant tumors. Complications occurred in 10 of 88 patients (11%). Real-time intraoperative localization can be applied to cranial base surgery in a variety of scenarios. The instantaneous transfer of imaging data to the surgical field is useful in localizing pathology, enhancing operative safety, and reducing morbidity, thereby improving outcomes. This technology will certainly play an integral role in minimizing complications and improving surgical outcomes as cranial base surgery moves into the next millennium.
REFERENCES
- 1 Klimek L, Mosges R, Laborde G, Korves B. Computer-assisted image-guided surgery in pediatric skull-base procedures. J Pediatr Surg . 1995; 30 1673-1676
- 2 Hoarsley V, Clarke R H. The structure and function of the cerebellum examined by a new method. Brain . 1908; 31 45-124
- 3 Kelly P J, Kall B A, Goerss S, Earnest F. Computer assisted stereotactic resection of the intra-axial brain neuroplasms. J Neurosurg . 1986; 64 427-439
- 4 Goldsmith M M, Bucholz R D, Smith K R, Nitsche N. Clinical applications of frameless stereotactic devices in neurology: Preliminary report. Am J Otol . 1995; 16 475-479
- 5 Anon J B, Ludger K, Mosges R, Zinreich S J. Computer-assisted endoscopic sinus surgery. Adv Sinus Nasal Surg . 1997; 30 389-401
- 6 Gunkel A R, Freysinger W, Thumfart W F. Computer-assisted surgery in the frontal and maxillary sinus. Laryngoscopy . 1997; 107 631-663
- 7 Freysinger W, Gunkel A R, Arno M, Bale R J, Vogele M, Thumfart W F. Advancing ear, nose, and throat computer-assisted surgery with the arm-based ISG viewing wand: The stereotactic suction tube. Laryngoscopy . 1997; 107 690-693
- 8 Carrau R L, Snyderman C H, Curtin H B, Weissman J L. Computer-assisted frontal sinusotomy. Otolaryngol Head Neck Surg . 1994; 111 727-732
- 9 Carrau R L, Snyderman C H, Curtin H B, Janecka I P, Stechison M, Weissman J L. Computer-assisted intraoperative navigation during skull base surgery. Am J Otolaryngol . 1996; 17 95-101
- 10 Fried M P, Kleefield J, Gopal H, Reardon E, Ho B T, Kuhn F A. Image-guided endoscopic surgery: Results of accuracy and performance in a multicenter clinical study using an electromagnetic tracking system. Laryngoscope . 1997; 107 594-601
- 11 Fried M P, Morrison P R. Computer-augmented endoscopic sinus surgery. Otolaryngol Clin North Am . 1998; 31 331-340
- 12 Metson R, Gliklich R E, Cosenza M. A comparison of image guidance systems for sinus surgery. Laryngoscope . 1998; 108 1164-1170
- 13 Sargent E W, Bucholz R D. Middle cranial fossa surgery with image-guided instrumentation. Otolaryngol Head Neck Surg . 1997; 117 131-134
- 14 Senior B A, Laza D C, Kennedy D W, Wienstein G S. Computer-assisted resection of benign sinonasal tumors with skull base and orbital extension. Arch Otolaryngol Head Neck Surg . 1997; 123 706-711
- 15 Burkey B B, Speyer M T, Maciunas R J, Fitzpatrick J M, Galloway R L, Allen G S. Sublabial, transseptal, transsphenoidal approach to the pituitary region guided by the ACUSTAR I system. Otolaryngol Head Neck Surg . 1998; 118 191-194
- 16 Stankiewicz J A. Cerebrospinal fluid fistula and endoscopic sinus surgery. Adv Endosc Sinus Surg . 1995; 81-86
- 17 Marmulla R, Hilbert M, Niederdellmann H. Inherent precision of mechanical, infrared and laser-guided navigation systems for computer-assisted surgery. J Cranio-Maxillofac Surg . 1997; 25 192-197
- 18 Anon J B. Computer-aided endoscopic sinus surgery. Laryngoscopy . 1998; 108 949-961
- 19 Zinreich S J, Tebo S A, Snyderman C H, Carrau R L, Anon J B. Intraoperative stereotaxis for endoscopic sinus surgery: A technical review. Adv Otolaryngol Head Neck Surg . 1997; 11 181-203
- 20 Bucholz R D, Smith K R, Henderson J, McDurmont I, Schulz D. Intraoperative localization using a three-dimensional optical digitizer. Proceedings of Clinical Applications of Modern Imaging Technology. The Society of Photo-Optical Instrumentation Engineers 1993;
- 21 Metson R, Cozenza M, Gliklich R E, Montgomery W W. The role of image-guidance systems for head and neck surgery. Arch Otolaryngol Head Neck Surg . 1999; 125 1100-1104
- 22 Casiano R R. Intraoperative image-guidance technology. Arch Otolaryngol Head Neck Surg . 1999; 125 1275-1278