Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
European Spine Journal
Published in: European Spine Journal 1/2010

01-01-2010 | Review Article

Image-guided spine surgery: state of the art and future directions

Authors: Thorsten Tjardes, Sven Shafizadeh, Dieter Rixen, Thomas Paffrath, Bertil Bouillon, Eva S. Steinhausen, Holger Baethis

Published in: European Spine Journal | Issue 1/2010

Login to get access

Abstract

Navigation technology is a widely available tool in spine surgery and has become a part of clinical routine in many centers. The issue of where and when navigation technology should be used is still an issue of debate. It is the aim of this study to give an overview on the current knowledge concerning the technical capabilities of image-guided approaches and to discuss possible future directions of research and implementation of this technique. Based on a Medline search total of 1,462 publications published until October 2008 were retrieved. The abstracts were scanned manually for relevance to the topics of navigated spine surgery in the cervical spine, the thoracic spine, the lumbar spine, as well as ventral spine surgery, radiation exposure, tumor surgery and cost-effectivity in navigated spine surgery. Papers not contributing to these subjects were deleted resulting in 276 papers that were included in the analysis. Image-guided approaches have been investigated and partially implemented into clinical routine in virtually any field of spine surgery. However, the data available is mostly limited to small clinical series, case reports or retrospective studies. Only two RCTs and one metaanalysis have been retrieved. Concerning the most popular application of image-guided approaches, pedicle screw insertion, the evidence of clinical benefit in the most critical areas, e.g. the thoracic spine, is still lacking. In many other areas of spine surgery, e.g. ventral spine surgery or tumor surgery, image-guided approaches are still in an experimental stage. The technical development of image-guided techniques has reached a high level as the accuracies that can be achieved technically meet the anatomical demands. However, there is evidence that the interaction between the surgeon (‘human factor’) and the navigation system is a source of inaccuracy. It is concluded that more effort needs to be spend to understand this interaction.
Literature
1.
Acosta FL Jr, Quinones-Hinojosa A, Gadkary CA, Schmidt MH, Chin CT, Ames CP, Rosenberg WS, Weinstein P (2005) Frameless stereotactic image-guided C1–C2 transarticular screw fixation for atlantoaxial instability: review of 20 patients. J Spinal Disord Tech 18:385–391. doi:10.​1097/​01.​bsd.​0000169443.​44202.​67 PubMed
2.
Acosta FL Jr, Thompson TL, Campbell S, Weinstein PR, Ames CP (2005) Use of intraoperative isocentric C-arm 3D fluoroscopy for sextant percutaneous pedicle screw placement: case report and review of the literature. Spine J 5:339–343. doi:10.​1016/​j.​spinee.​2004.​09.​012 PubMed
3.
Arand M, Hartwig E, Hebold D, Kinzl L, Gebhard F (2001) Precision analysis of navigation-assisted implanted thoracic and lumbar pedicled screws. A prospective clinical study. Unfallchirurg 104:1076–1081. doi:10.​1007/​s001130170023 PubMed
4.
Arand M, Hartwig E, Kinzl L, Gebhard F (2001) Spinal navigation in cervical fractures—a preliminary clinical study on Judet-osteosynthesis of the axis. Comput Aided Surg 6:170–175PubMed
5.
6.
Arand M, Schempf M, Hebold D, Teller S, Kinzl L, Gebhard F (2003) Precision of navigation-assisted surgery of the thoracic and lumbar spine. Unfallchirurg 106:899–906PubMed
7.
8.
9.
Austin MS, Vaccaro AR, Brislin B, Nachwalter R, Hilibrand AS, Albert TJ (2002) Image-guided spine surgery: a cadaver study comparing conventional open laminoforaminotomy and two image-guided techniques for pedicle screw placement in posterolateral fusion and nonfusion models. Spine 27:2503–2508. doi:10.​1097/​00007632-200211150-00015 PubMed
10.
Batista AP, Buneo CA, Snyder LH, Andersen RA (1999) Reach plans in eye-centered coordinates. Science 285:257–260. doi:7643[pii] PubMed
11.
Battaglia TC, Tannoury T, Crowl AC, Chan DP, Anderson DG (2005) A cadaveric study comparing standard fluoroscopy with fluoroscopy-based computer navigation for screw fixation of the odontoid. J Surg Orthop Adv 14:175–180PubMed
12.
Bloch O, Holly LT, Park J, Obasi C, Kim K, Johnson JP (2001) Effect of frameless stereotaxy on the accuracy of C1–2 transarticular screw placement. J Neurosurg 95:74–79PubMed
13.
Bolger C, Wigfield C (2000) Image-guided surgery: applications to the cervical and thoracic spine and a review of the first 120 procedures. J Neurosurg 92:175–180PubMed
14.
Borm W, Konig RW, Albrecht A, Richter HP, Kast E (2004) Percutaneous transarticular atlantoaxial screw fixation using a cannulated screw system and image guidance. Minim Invasive Neurosurg 47:111–114. doi:10.​1055/​s-2004-818449 PubMed
15.
16.
Carl AL, Khanuja HS, Sachs BL, Gatto CA, vom Lehn J, Vosburgh K, Schenck J, Lorensen W, Rohling K, Disler D (1997) In vitro simulation. Early results of stereotaxy for pedicle screw placement. Spine 22:1160–1164. doi:10.​1097/​00007632-199705150-00018 PubMed
17.
18.
Chibbaro S, Benvenuti L, Carnesecchi S, Marsella M, Serino D, Gagliardi R (2005) The use of virtual fluoroscopy in managing acute type II odontoid fracture with anterior single-screw fixation. A safe, effective, elegant and fast form of treatment. Acta Neurochir (Wien) 147:735–739. doi:10.​1007/​s00701-005-0522-6 (discussion 739)
19.
Citak M, Board TN, Sun Y, Look V, Krettek C, Hufner T, Kendoff D (2007) Reference marker stability in computer aided orthopedic surgery: a biomechanical study in artificial bone and cadavers. Technol Health Care 15:407–414PubMed
20.
Cleary K, Anderson J, Brazaitis M, Devey G, DiGioia A, Freedman M, Gronemeyer D, Lathan C, Lemke H, Long D, Mun SK, Taylor R (2000) Final report of the technical requirements for image-guided spine procedures Workshop, April 17–20, 1999, Ellicott City, Maryland, USA. Comput Aided Surg 5:180–215PubMed
21.
22.
Ebmeier K, Giest K, Kalff R (2003) Intraoperative computerized tomography for improved accuracy of spinal navigation in pedicle screw placement of the thoracic spine. Acta Neurochir (Wien) 85:105–113
23.
24.
Fritsch E, Duchow J, Seil R, Grunwald I, Reith W (2002) Accuracy of fluoroscopic navigation of pedicle screws. CT-based evaluation of bone screw placement. Orthopade 31:385–391. doi:10.​1007/​s00132-001-0280-y PubMed
25.
26.
Gebhard F, Kinzl L, Hartwig E, Arand M (2003) Navigation of tumors and metastases in the area of the thoraco-lumbar spine. Unfallchirurg 106:949–955PubMed
27.
Gebhard F, Kraus M, Schneider E, Arand M, Kinzl L, Hebecker A, Batz L (2003) Radiation dosage in orthopedics—a comparison of computer-assisted procedures. Unfallchirurg 106:492–497. doi:10.​1007/​s00113-003-0606-9 PubMed
28.
Gebhard FT, Kraus MD, Schneider E, Liener UC, Kinzl L, Arand M (2006) Does computer-assisted spine surgery reduce intraoperative radiation doses? Spine 31:2024–2027 (discussion 202829)PubMed
29.
Geerling J, Gosling T, Gosling A, Ortega G, Kendoff D, Citak M, Krettek C, Hufner T (2008) Navigated pedicle screw placement: experimental comparison between CT- and 3D fluoroscopy-based techniques. Comput Aided Surg 13:157–166PubMed
30.
31.
32.
Graziano MS, Cooke DF, Taylor CS (2000) Coding the location of the arm by sight. Science 290:1782–1786. doi:9014[pii] PubMed
33.
34.
Grutzner PA, Beutler T, Wendl K, von Recum J, Wentzensen A, Nolte LP (2004) Intraoperative three-dimensional navigation for pedicle screw placement. Der Chirurg; Zeitschrift fur alle Gebiete der operativen Medizen 75:967–975PubMed
35.
36.
Holly LT, Bloch O, Johnson JP (2006) Evaluation of registration techniques for spinal image guidance. J Neurosurg 4:323–328
37.
38.
39.
Hott JS, Deshmukh VR, Klopfenstein JD, Sonntag VK, Dickman CA, Spetzler RF, Papadopoulos SM (2004) Intraoperative Iso-C C-arm navigation in craniospinal surgery: the first 60 cases. Neurosurgery 54:1131–1136. doi:10.​1227/​01.​NEU.​0000119755.​71141.​13 (discussion 1136–1137)PubMed
40.
41.
Iriki A, Tanaka M, Iwamura Y (1996) Coding of modified body schema during tool use by macaque postcentral neurones. NeuroReport 7:2325–2330PubMed
42.
43.
Ito H, Neo M, Yoshida M, Fujibayashi S, Yoshitomi H, Nakamura T (2007) Efficacy of computer-assisted pedicle screw insertion for cervical instability in RA patients. Rheumatol Int 27:567–574. doi:10.​1007/​s00296-006-0256-7 PubMed
44.
Jackson SR, Newport R, Husain M, Harvey M, Hindle JV (2000) Reaching movements may reveal the distorted topography of spatial representations after neglect. Neuropsychologia 38:500–507. doi:S0028-3932(99)00083-4[pii] PubMed
45.
46.
Kamimura M, Ebara S, Itoh H, Tateiwa Y, Kinoshita T, Takaoka K (1999) Accurate pedicle screw insertion under the control of a computer-assisted image guiding system: laboratory test and clinical study. J Orthop Sci 4:197–206. doi:10.​1007/​s007760050094 PubMed
47.
Kamimura M, Ebara S, Itoh H, Tateiwa Y, Kinoshita T, Takaoka K (2000) Cervical pedicle screw insertion: assessment of safety and accuracy with computer-assisted image guidance. J Spinal Disord 13:218–224. doi:10.​1097/​00002517-200006000-00004 PubMed
48.
Kelleher MO, McEvoy L, Nagaria J, Kamel M, Bolger C (2006) Image-guided transarticular atlanto-axial screw fixation. Int J Med Robot 2:154–160. doi:10.​1002/​rcs.​92 PubMed
49.
50.
Kotani Y, Abumi K, Ito M, Minami A (2003) Improved accuracy of computer-assisted cervical pedicle screw insertion. J Neurosurg 99:257–263PubMed
51.
52.
Ladavas E, di Pellegrino G, Farne A, Zeloni G (1998) Neuropsychological evidence of an integrated visuotactile representation of peripersonal space in humans. J Cogn Neurosci 10:581–589. doi:10.​1162/​089892998562988 PubMed
53.
Laine T, Lund T, Ylikoski M, Lohikoski J, Schlenzka D (2000) Accuracy of pedicle screw insertion with and without computer assistance: a randomised controlled clinical study in 100 consecutive patients. Eur Spine J 9:235–240. doi:10.​1007/​s005860000146 PubMed
54.
Lekovic GP, Potts EA, Karahalios DG, Hall G (2007) A comparison of two techniques in image-guided thoracic pedicle screw placement: a retrospective study of 37 patients and 277 pedicle screws. J Neurosurg 7:393–398
55.
56.
Linhardt O, Perlick L, Luring C, Stern U, Plitz W, Grifka J (2005) Extracorporeal single dose and radiographic dosage in image-controlled and fluoroscopic navigated pedicle screw implantation. Z Orthop Ihre Grenzgeb 143:175–179. doi:10.​1055/​s-2005-836489 PubMed
57.
Little JB, Taveras JM (eds) (1992) Radiology: diagnosis, imaging, intervention. JB Lippincott, Philadelphia
58.
Liu YJ, Tian W, Liu B, Li Q, Hu L, Li ZY, Yuan Q, Xing YG, Wang YQ, Sun YZ (2005) Accuracy of CT-based navigation of pedicle screws implantation in the cervical spine compared with X-ray fluoroscopy technique. Zhonghua Wai Ke Za Zhi 43:1328–1330 Chin J SurgPubMed
59.
Mac Millan M (2005) Computer-guided percutaneous interbody fixation and fusion of the L5-S1 disc: a 2-year prospective study. J spinal Disord Tech 18 Suppl:S90–95
60.
Mahadewa T, Mizuno J, Inoue T, Nakagawa H (2004) C7 fracture treated with a pedicle screw system under navigation guidance. Singapore Med J 45:489–493PubMed
61.
Maier B, Zheng G, Ploss C, Zhang X, Welle K, Nolte LP, Marzi I (2007) A CT-free, intra-operative planning and navigation system for minimally invasive anterior spinal surgery—an accuracy study. Comput Aided Surg 12:233–241. doi:10.​1080/​1092908070155289​4 PubMed
62.
63.
McAfee PC, Cunningham B, Holsapple G, Adams K, Blumenthal S, Guyer RD, Dmietriev A, Maxwell JH, Regan JJ, Isaza J (2005) A prospective, randomized, multicenter Food and Drug Administration investigational device exemption study of lumbar total disc replacement with the CHARITE artificial disc versus lumbar fusion: part II: evaluation of radiographic outcomes and correlation of surgical technique accuracy with clinical outcomes. Spine 30:1576–1583, discussion E1388–1590PubMed
64.
65.
66.
Merloz P, Troccaz J, Vouaillat H, Vasile C, Tonetti J, Eid A, Plaweski S (2007) Fluoroscopy-based navigation system in spine surgery. Proc Inst Mech Eng 221:813–820. doi:10.​1243/​09544119JEIM268
67.
Mirza SK, Wiggins GC, Ct Kuntz, York JE, Bellabarba C, Knonodi MA, Chapman JR, Shaffrey CI (2003) Accuracy of thoracic vertebral body screw placement using standard fluoroscopy, fluoroscopic image guidance, and computed tomographic image guidance: a cadaver study. Spine 28:402–413. doi:10.​1097/​00007632-200302150-00018 PubMed
68.
69.
70.
Nolte LP, Visarius H, Arm E, Langlotz F, Schwarzenbach O, Zamorano L (1995) Computer-aided fixation of spinal implants. J Image Guided Surg 1:88–9369
71.
Nolte LP, Zamorano L, Visarius H, Berlemann U, Langlotz F, Arm E, Schwarzenbach O (1995) Clinical evaluation of a system for precision enhancement in spine surgery. Clin Biomech (Bristol, Avon) 10:293–303. doi:10.​1016/​0268-0033(95)00004-5
72.
Nottmeier EW, Crosby TL (2007) Timing of paired points and surface matching registration in three-dimensional (3D) image-guided spinal surgery. J Spinal Disord Tech 20:268–270PubMed
73.
74.
Ohnsorge JA, Siebert CH, Schkommodau E, Mahnken AH, Prescher A, Weisskopf M (2005) Minimally-invasive computer-assisted fluoroscopic navigation for kyphoplasty. Z Orthop Ihre Grenzgeb 143:195–203. doi:10.​1055/​s-2005-836514 PubMed
75.
Paramore CG, Dickman CA, Sonntag VK (1996) The anatomical suitability of the C1-2 complex for transarticular screw fixation. J Neurosurg 85:221–224PubMed
76.
77.
78.
79.
80.
Rajasekaran S, Vidyadhara S, Shetty AP (2007) Intra-operative Iso-C3D navigation for pedicle screw instrumentation of hangman’s fracture: a case report. J Orthop Surg (Hong Kong) 15:73–77
81.
82.
83.
84.
Reichle E, Sellenschloh K, Morlock M, Eggers C (2002) Placement of pedicle screws using different navigation systems. A laboratory trial with 12 spinal preparations. Orthopade 31:368–371. doi:10.​1007/​s00132-001-0277-6 PubMed
85.
Reinhold M, Bach C, Audige L, Bale R, Attal R, Blauth M, Magerl F (2008) Comparison of two novel fluoroscopy-based stereotactic methods for cervical pedicle screw placement and review of the literature. Eur Spine J
86.
87.
88.
Rushworth MF, Nixon PD, Passingham RE (1997) Parietal cortex and movement. I. Movement selection and reaching. Exp Brain Res Experimentelle Hirnforschung 117:292–310
89.
90.
Sakai Y, Matsuyama Y, Yoshihara H, Nakamura H, Nakashima S, Ishiguro N (2006) Simultaneous registration with ct-fluoro matching for spinal navigation surgery. A case report. Nagoya J Med Sci 68:45–52PubMed
91.
92.
93.
Schaeren S, Roth J, Dick W (2002) Effective in vivo radiation dose with image reconstruction controlled pedicle instrumentation vs. CT-based navigation. Orthopade 31:392–396. doi:10.​1007/​s00132-001-0281-x
94.
Schnake KJ, Konig B, Berth U, Schroeder RJ, Kandziora F, Stockle U, Raschke M, Haas NP (2004) Accuracy of CT-based navitation of pedicle screws in the thoracic spine compared with conventional technique. Unfallchirurg 107:104–112. doi:10.​1007/​s00113-003-0720-8 PubMed
95.
Seichi A, Takeshita K, Kawaguchi H, Kawamura N, Higashikawa A, Nakamura K (2005) Image-guided surgery for thoracic ossification of the posterior longitudinal ligament. Technical note. J Neurosurg 3:165–168
96.
Seichi A, Takeshita K, Nakajima S, Akune T, Kawaguchi H, Nakamura K (2005) Revision cervical spine surgery using transarticular or pedicle screws under a computer-assisted image-guidance system. J Orthop Sci 10:385–390. doi:10.​1007/​s00776-005-0902-z PubMed
97.
Siewerdsen JH, Moseley DJ, Burch S, Bisland SK, Bogaards A, Wilson BC, Jaffray DA (2005) Volume CT with a flat-panel detector on a mobile, isocentric C-arm: pre-clinical investigation in guidance of minimally invasive surgery. Med Phys 32:241–254. doi:10.​1118/​1.​1836331 PubMed
98.
Slomczykowski M, Roberto M, Schneeberger P, Ozdoba C, Vock P (1999) Radiation dose for pedicle screw insertion. Fluoroscopic method versus computer-assisted surgery. Spine 24:975–982. doi:10.​1097/​00007632-199905150-00009 (discussion 983)PubMed
99.
100.
Theocharopoulos N, Perisinakis K, Damilakis J, Papadokostakis G, Hadjipavlou A, Gourtsoyiannis N (2003) Occupational exposure from common fluoroscopic projections used in orthopaedic surgery. J Bone Joint Surg Am 85-A:1698–1703PubMed
101.
Thoranaghatte R, Zheng G, Nolte LP (2005) Novel method for registering an endoscope in an operative setup. Conf Proc IEEE Eng Med Biol Soc 4:4349–4352PubMed
102.
103.
Vaccaro AR, Yuan PS, Smith HE, Hott J, Sasso R, Papadopoulos S (2005) An evaluation of image-guided technologies in the placement of anterior thoracic vertebral body screws in spinal trauma: a cadaver study. J Spinal Cord Med 28:308–313PubMed
104.
Van Royen BJ, Baayen JC, Pijpers R, Noske DP, Schakenraad D, Wuisman PI (2005) Osteoid osteoma of the spine: a novel technique using combined computer-assisted and gamma probe-guided high-speed intralesional drill excision. Spine 30:369–373. doi:10.​1097/​01.​brs.​0000152531.​49095.​34 PubMed
105.
106.
107.
Weinstein JN, Spratt KF, Spengler D, Brick C, Reid S (1988) Spinal pedicle fixation: reliability and validity of roentgenogram-based assessment and surgical factors on successful screw placement. Spine 13:1012–1018. doi:10.​1097/​00007632-198809000-00008 PubMed
108.
Wendl K, von Recum J, Wentzensen A, Grutzner PA (2003) Iso-C(3D0-assisted) navigated implantation of pedicle screws in thoracic lumbar vertebrae. Unfallchirurg 106:907–913PubMed
109.
110.
111.
Youkilis AS, Quint DJ, McGillicuddy JE, Papadopoulos SM (2001) Stereotactic navigation for placement of pedicle screws in the thoracic spine. Neurosurgery 48:771-778, discussion 778–779PubMed
Metadata
Title
Image-guided spine surgery: state of the art and future directions
Authors
Thorsten Tjardes
Sven Shafizadeh
Dieter Rixen
Thomas Paffrath
Bertil Bouillon
Eva S. Steinhausen
Holger Baethis
Publication date
01-01-2010
Publisher
Springer-Verlag
Published in
European Spine Journal / Issue 1/2010
Print ISSN: 0940-6719
Electronic ISSN: 1432-0932
DOI
https://doi.org/10.1007/s00586-009-1091-9

Other articles of this Issue 1/2010

European Spine Journal 1/2010 Go to the issue

Grand Rounds

Langerhans cell histiocytosis of the atlas in an adult

Yearly European Spine Journal Review

The Michel Benoist and Robert Mulholland yearly European Spine Journal Review: a survey of the “medical” articles in the European Spine Journal, 2009

Original Article

Radiological and clinical outcome of screw placement in adolescent idiopathic scoliosis: evaluation with low-dose computed tomography

Original Article

Subaxial cervical pedicle screw insertion with newly defined entry point and trajectory: accuracy evaluation in cadavers

Ideas and Technical Innovations

Easy retrieval of polyaxial tulip-head pedicle screws by “U” rod technique

Announcements

Announcements