2001, Número 3
<< Anterior
Cir Plast 2001; 11 (3)
La navegación quirúrgica en el campo de la cirugía craneofacial: una revisión y evaluación de la tecnología y sus aplicaciones prácticas
Kurt RS, Schramm A, Nils-Claudius G
Idioma: Español
Referencias bibliográficas: 77
Paginas: 131-142
Archivo PDF: 482.00 Kb.
RESUMEN
Los avances en la investigación científica dentro el campo de la cirugía asistida por computadora, han sido introducidas en la práctica clínica. La cirugía craneofacial, así como la reconstrucción de defectos en esta área se han beneficiado por la introducción de técnicas de navegación instrumental que permiten al cirujano, la planeación, simulación y seguimiento intraoperatorio a través de la visualización en tiempo real de imágenes multiplanares y tridimensionales. Por primera vez los sistemas de navegación permiten al cirujano saber con exactitud la posición de los instrumentos quirúrgicos o revisar el contorno durante el acto operatorio en una imagen tridimensional del paciente. Las técnicas asistidas por computadora y la robótica son un avance para la cirugía craneofacial moderna, que permitirán optimizar la planeación preoperatoria, así como mejorar la precisión y la calidad de nuestras cirugías.
REFERENCIAS (EN ESTE ARTÍCULO)
Klimek L, Mosgues R. Computed-assited surgery in the ENT specialty. Developments and experiences from the first decade. Laryngorhinotologie 1998; 77: 275-82.
Altobelli DE, Kikinis R, Mulliken JB, Cline H, Lorensen W, Jolesz F. Computer assisted three-dimensional planning in craniofacial surgery. Plast Reconst Surg 1993; 92: 576-80.
Cutting C, Bookstein FL, Grayson B, Fellingham L, Mc Carthy JG. Three dimensional computer-assisted design of craniofacial surgical procedures: optimization and integration with cephalometric and CT-based model. Plast Reconst Surg 1986; 77: 877-87.
Girod S, Keere E, Girod B. Advances in interactive craniofacial surgery planning by 3D simulation and visualization. Int J Oral Maxillofac Surg 1995; 24: 120-125.
Keese E, Girod S, Kikinis R, Girod B. Deformable modeling of facial tissue for craniofacial surgery simulation. Comput Aided Surg 1998; 3: 228-38.
Lambrecht JT, Schiel H, Kreusch T, Jacob AL, Hammert B. New trends in the management of CT data in plastic and reconstructive surgery. Int Surg 1997; 82: 332-338.
Lo LJ, Marsh JL, Vannier MW, Patel VV. Craniofacial computer-assisted surgical planning and simulation. Clin Plast Surg 1994; 21: 501-516.
Neumann P, Siebert D, Faulkner G. Virtual 3D cutting for bone segment extraction in maxillofacial surgery planning. Stud Health Technol Inform 1999; 62: 235-41.
Vannier MW, Marsh JL. Three-dimensional imaging surgical planning and image-guided therapy. Radiol Clin North Am 1996; 34: 545-63.
Ayoub AF, Stirrups DR. The practicability of finite-element analysis for assessing changes in human craniofacial morphology from cephalograms. Arch Oral Biol 1993; 38: 679-83.
Keese E, Bschorer R, Gekrke G, Schmelzle R. Dreidimensionales Erfassung del Oberflächlichen Gesichtkontur mit Hilfe optoelektronisher Abtastung für die kontrolle weichteilverlagernder Eingriffe. Mund Kiefer GesichtChir 1997; Suppl 1: 58-60).
Lambrecht JT, Schiel H, Jacob A, Kreusch T. CAR-CAD-CAM-CAS: 3D Perspectives. In: Lemke, Inamura, Jaffe, Vannier (Eds.) Proceeding of the international Symposium on computer and communication systems for image guided Diagnosis and Therapy- CAR´95. Berlin: Springer, (1995: 1364-1368).
Frohberg U, Haase L. Chirurgie simulée en modèle 3D. Technique et applications. Rev Stomatol Chir Maxillofac 1993; 94: 33-6.
Perry M, Banks P, Richards R, Friedman EP, Shaw P. The use of computer-generated three-dimensional models in orbital reconstruction. Br J Oral Maxillofac Surg 1998; 36: 275-84.
Takato T, Harii K, Hirabayashi S, Kamuro Y,Yanehara Y, Susami T. Mandibular lengthening by gradual distraction: analysis using accurate skull replica. Br J Plast Surg 1993; 46: 686-93.
Ono I, Gunji H, Suda K, Kareko F. Method of preparing an exact size model using helical volume scan computed tomography. Plast Reconst Surg 1994; 93: 1363-71.
Sader R, Zeilhofer HF, Kliegis U, Deppe H, Horch HH. Über die Genauigkeit von 3D-gestützten Operations planungen mit Rapid-prototyping-Techniken. Mund Kiefer GesichtsChir 1997; 1(Suppl 1): 61-64.
Rose EH, Norris MS, Rose JM. Application of High-Tech Three-dimensional imaging and computed generated models in complex facial reconstruction with vascularized bone grafts. Plast Reconst Surg 1993; 91: 252-64.
Wittenberg RC. CAD database created solid models. Electronic Engineering Tomes 1987; 424: 1-8.
Stocker NG, Mancovich NJ, Valentino D. Sterolitographic models for surgical planning: preliminary report. J Oral Maxillofac Surg 1992; 50: 466-71.
Klimek L, Klein HM, Schneider W, Mösges R, Schmelzer B, Voy ED. Sterolitographic modelling for reconstructive head surgery. Acta Otorhino-laryngologica belg 1993; 47: 329-34.
Lambrecht JT, Brix F. Individual Skull Model fabrication for craniofacial surgery. Cleft Palate Journal 1997; 27: 382-387.
Horsley V, Clarke RH. The structure and function of the cerebellum examined by a new method. Brain 1908; 31: 35-124.
Schramm A, Gellrich N-C, Schön R, Schimming R, Schmelzeisen R. Advantages of computer assisted surgery in the treatment of craniomaxillofacial tumors. In: CARS ´99, Lemke HU, Inamura K, Vannier MW, Farman Ag, Eds., New York: ELSEVIER, 1999: pp. 903-7.
Fialkov JA, Phillips JH, Gruss JS, Chir B, Kassel EE, Zucker RM. A stereotactic system for guiding complex craniofacial reconstruction. Plast Reconst Surg 1992; 89: 340-45.
Iskander BJ, Nashold BS. History of functional neurosurgery- Neurosurg Clin North Am 1995; 6: 1-25.
Zamorano L, Jiang Z, Kadi AM. Computed-assisted neurosurgery system: Wagne State University hardware and software configuration. Comput Med Imaging Graph 1994; 18: 257-271.
Haßfeld S, Mühling J, Zöller J. Intraoperative navigation in oral and maxillofacial surgery. Int J Oral Maxillofac Surg 1995; 24: 111-9.
Haßfeld S, Mühling J, Zöller J. Planung und Durchfürung von Mittelgesichtsverlagerungen mit Hilfe eines 3D-Navegationsgerätes. Dtsch Z Mund Kiefer Gesichtschr 1994; 18: 259-63.
Koivukangas J, Louhisalmi Y, Alukuijala J, Oikarinen J. Ultrasound-controlled neuronavigator-guided brain surgery. J Neurosurgery 1993; 79: 36-42.
Sipos EP, Tebo SA, Zinreich SJ, Lomg DM, Brem H. In vivo accuracy testing and clinical experience with the ISG Viewing Wand. Neurosurgery 1996; 39: 194-202
Carney AS, Patel N, Baldwin DL, Coakham HB, Sandeman DR. Intraoperative image guidance in otolaryngology- the use of the ISG Viewing Wand. J Laryngol Otol 1996; 110: 322-27.
Freysinger W, Gunkel AR, Thumfart WF. Image-guided endoscopic ENT surgery. Eur Arch Otorhinolaryngol 1997; 254: 343-46.
Golfinos JG, Fitzpatrick BC, Smith LR, Spetzler RF. Clinical use of frameless stereotactic arm: Results of 325 cases. J Neurosurgery 1995; 83: 197-205.
Marmulla R, Hilbert M, Niederdellman H. Inherent precision of mechanical, infrared and laser-guided navigation systems for computed-assisted surgery. J Craniomaxillofac Surg 1997; 25: 192-7.
Mc Dermott MW, Gutin PH. Image-guided surgery for skull base neoplasms using the ISG Viewing Wand. Anatomic and technical considerations. Neurosurg Clin North Am 1996; 7: 285-95.
Carrau RL, Snyderman CH, Curtin HD, Jeneka IP, Stechison M, Weissman JL. Computer-assisted intraoperative navigation during skull base surgery. Am J Otolaryngol 1996; 17: 95-101.
Haßfeld S, Mühling J. Computer assisted oral and maxillofacial surgery- a review and assessment of technology. Int J Oral Maxilofacial Surg 2001; 30: 2-13.
Horstmann GA, reinhart HF. Ranging accuracy test of the sonic microstereometric system. Neurosurgery 1996; 39: 105-7.
Barnett GH, Kormos DN, Steiner CP. Weisenberg J. Intraoperative localization using an armless, frameless stereotactic wand. Technical note. J Neurosurg 1993; 78: 510-14.
Kato A, Yoshimine T, Hayakawa T . A frameless, armless navigational system for computed-assisted neurosurgery. Technical note. J Neurosurg 1991; 74,845-49.
Manwaring KH, Manwaring ML, Moss SD. Magnetic field guided endoscopic dissection through a burr hole may avoid more invasive craniotomies. A Preliminary report. Acta Neurochir Suppl Wien 1994; 61: 34-9.
Wagner A, Ploder O, Einislidis G, Truppe M Ewers R. Image-guided surgery. Int J oral Maxillofac Surg 1996; 25: 147-51.
Birkfellner W, Watzinger F, Wanschitz F. Systematic distortions in magnetic position digitizer. Med Phys 1998; 25: 2242-48.
Heilbrun MP, Mc Donald P, Wiker C, Koehler S, Peters W. Stereotactic localization and guidence using a machine vision technique. Stereotactic Funct Neurosurg 1992; 58: 94-98.
Smith KR, Frank KJ, Buchola RD. The Neurostation- a highly accurate, minimally invasive solution to frameless stereotactic neurosurgery. Comput Med Imaging Graph 1994; 18: 247-56.
Caversaccio M, Bachler R, Ladrach K, Schroth G, Nolte LP, Hausler R. Frameless computer-aisded surgery system for revision endoscopic sinus surgery. Otolaryngol Head Neck Surg 2000; 122: 808-13.
Foley KT, Smith MM. Image-guided spine surgery. Neurosurg Clin North Am 1996; 7: 171-86.
Hauser R, Westermann B. Optical tracking of a microscope for image guided intranasal sinus surgery. Ann Otol Rhinol Laryngol 1999; 108: 54-62.
Maciunas RJ, Berger MS, Copeland B, Mayberg MR, Selker R, Allen GS. A technique for interactive image-guided neurosurgical intervention in primary brain tumors. Neurosurg Clin North Am 1996; 7: 245-66.
Vorbeck F, Castellieri M, Ehrenberger K, Imhof H. Experiences in intraoperative computer-aided navigation in ENT sinus surgery with the Aesculap Navigation system. Comput Aided Surg 1998; 3: 306-11.
Matson R, Gliklich RE, Cosenza M. A comparison of image guidance systems for sinus surgery. Laryngoscope 1998; 108: 1164-70.
Marmulla R, Wagener H, Hilbert M, Niederdellmann H. präzision computerunterstützter systeme bei profilverbessernden Eingriffen in Gesicht. Mund Kiefer Gesichtschir 1997; 1(Suppl1): 65-67.
Marmulla R, Niederdellmann M. Computer assisted bone segment navigation. J Craniomaxillofac Surg 1998; 26: 347-59.
Colchester AC, Zah OJ. Holton-Tainter KS. Development and preliminary evaluation of VISLAN, a surgical planning and guidance system using intraoperative video imaging. Med Image Anal 1996; 1: 73-90.
Zeilhofer HF, Kliegis U, Sader R, Hordi HH. Videomatching als intraoperative Navigations hilfe bei profilverbessernden operationen. Mund Kiefer GesichtsChir 1997; 1(Suppl.1): 68-70.
Wagner A, Ploder O, Enislidis, Truppe M, Ewers R. Virtual image guided navigation in tumor surgery-technical innovation. J Craniomaxillofac Surg 1995; 23,271-3.
Wagner A, Rasse M, Millesi W, Ewers R. Virtual reality for orthognathic surgery: The augmented reality Environment concept. J Oral Maxillofac Surg 1997; 55: 456-62.
Mösges R. Computergescützte Chirurgie (CAS) der Schädelbasisregion. Ergäanzung. Revolution oder science fiction?. Eur Arch Otorhinolaryngology 1993; 250(Suppl!): 373-78.
Reinhardt HF, Horstmann GA, Gratzl O. Sonic Stereometry in microsurgical procedures for deep-seated brain tumors anda vascular malformations. Neurosurgery 1993; 32: 51-57.
Eljamel MS. Accuracy, efficacy and clinical applications of the Radionics Operating Arm System. Comput Aided Surg 1997; 2: 292-97.
Helm PA, Eckel TS. Accuracy registration methods in frameless stereotaxis. Comput Aided Surg 1998; 3: 51-56.
Horstmann GA, Reinhart HS. Ranging accuracy test of the sonic microstereometric system. Neurosurgery 1994; 34: 754-55.
Haßfeld S, Zöller J, Albert FK, Wirtz CR, Knauth M, Mühling J. Preoperative planning and intraoperative navigation in skull base surgery. J Craniomaxillofac Surg 1998; 26: 220-5.
Englmeier KH, Haubner M, Fink U, Fink B. Image analysis and synthesis of multimodal images in Medicine. Compt Methods Programs Biomed 1994; 43: 193-206.
Hill DL, Hawkes DJ, Glecson MJ. Accurate frameless registration of MR and CT images of the head applications in planning surgery and radiation therapy. Radiology 1994; 191: 447-454.
Watanabe E, Mayanagi Y, Kosugi Y, Menaka S, Takakura K. Open surgery assisted by the navigator, a stereotactic, articulated, sensitive arm. Neurosurgery 1991; 28: 792-99.
Sanderman DR, Patel N, Chandler C, Nelson RJ, Coakham HBm Grifith HB. Advances in image-directed neurosurgery: Preliminary experience with the ISG Viewing Wand compared with Leksell G frame. Br J Neurosurg 1994; 8: 529-44.
Haßfeld S, Mühling J, Wirzt CR, Knauth M, Lutze T, Schulz HJ. Intraoperative guidance in maxillofacial and craniofacial surgery. Proc Inst Mech Eng 1997; 221: 277-263.
Alp MS, Dujoung M, Mora M, Charbel FT, Ausman JI. Head registration techniques for image-guided Surgery. Neurol Res 1998; 20: 31-7.
Martel AL, Heid O, Slomczykowsky M, Kerslake R, Nolk LP. Assessment of 3-dimensional magnetic resonance imaging fast low angel shot images for computer assisted spinal surgery. Compt Aided Surg 1998; 3: 40-44.
Klimek L, Mosges R, Laborde G, Korbes B. Computer-assisted image-guided surgery in pediatric skull-base procedures. J Pediatr Surg 1995; 30: 1673-76.
Friend MP, Morrison PR. Computer-augmented endoscopic sinus surgery. Otolaryngol Clin North Am 1998; 31: 331-40.
Klimek L, Wenzel M, Mosges R. Computer-assisted orbital surgery. Ophthalmic Surg 1993; 24: 411-17.
Eufinger H, Wehmöller M. Individual prefabricated titanium implants in Reconstructive Craniofacial surgery: clinical and technical aspects of the first 22 cases: Plast Reconst Surg 1998; 102: 300-8.
Hilbert M, Muller W, Strutz J. Development of a surgical simulator for interventions of the paranasal sinuses. Technical principles and initial prototypen. Laryngorhinootologie 1998; 77: 153-6.
Visarius H, Gong J, Scheer C, Haralamb S, Nolte LP. Man-machine interfaces in computer assisted surgery. Computed Aided Surg 1997; 2: 102-7.