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Acta Neurochirurgica

Published in:

01-03-2012 | Clinical Article

Diffusion tensor imaging fiber tracking using navigated brain stimulation—a feasibility study

Authors: Sandro M. Krieg, Niels H. Buchmann, Jens Gempt, Ehab Shiban, Bernhard Meyer, Florian Ringel

Published in: Acta Neurochirurgica | Issue 3/2012

Abstract

Background

Navigated brain stimulation (NBS) is a newly evolving technique. In addition to its supposed purpose, e.g., preoperative mapping of the central region, little is known about its further use in neurosurgery. We evaluated the usefulness of diffusion tensor imaging fiber tracking (DTI-FT) based on NBS compared to conventional characterization of the seed region.

Methods

We examined 30 patients with tumors in or close to the corticospinal tract (CST) using NBS with the Nexstim eXimia system. NBS was performed for motor cortex mapping, and DTI-FT was performed by three different clinicians using BrainLAB iPlan® Cranial 3.0.1 at two time points. Number of fibers, tract volume, aberrant tracts, and proximity to the tumor were compared between the two methods.

Results

We recognized a higher number of fibers (1,298 ± 1,279 vs. 916 ± 986 fibers; p < 0.01), tract volume (23.0 ± 15.3 vs. 18.3 ± 14.0 cm³; p < 0.01), and aberrant tracts (0.6 ± 0.5 vs. 0.3 ± 0.5 aberrant tracts/tracked CST; p < 0.001) when the seed region was defined conventionally, while proximity of the tracts to the tumor did not differ. While NBS-based DTI-FT is independent of the planning clinician, conventional outlining of the seed region shows generally higher variability between investigators.

Conclusions

Conventional DTI-FT showed significant differences between the two modalities, most likely because of the more specific definition of the seed region when DTI-FT is based on NBS. Moreover, NBS-aided DTI fiber tracking is user-independent and, therefore, a method for further standardization of DTI fiber tracking.

Bello L, Gambini A, Castellano A, Carrabba G, Acerbi F, Fava E, Giussani C, Cadioli M, Blasi V, Casarotti A, Papagno C, Gupta AK, Gaini S, Scotti G, Falini A (2008) Motor and language DTI Fiber Tracking combined with intraoperative subcortical mapping for surgical removal of gliomas. Neuroimage 39:369–382PubMedCrossRef

Berman JI, Berger MS, Chung SW, Nagarajan SS, Henry RG (2007) Accuracy of diffusion tensor magnetic resonance imaging tractography assessed using intraoperative subcortical stimulation mapping and magnetic source imaging. J Neurosurg 107:488–494PubMedCrossRef

Bland JM, Altman DG (1999) Measuring agreement in method comparison studies. Stat Methods Med Res 8:135–160PubMedCrossRef

Buchmann N, Gempt J, Stoffel M, Foerschler A, Meyer B, Ringel F (2011) Utility of diffusion tensor-imaged (DTI) motor fiber tracking for the resection of intracranial tumors near the corticospinal tract. Acta Neurochir (Wien) 153:68–74; discussion 74

Cedzich C, Taniguchi M, Schafer S, Schramm J (1996) Somatosensory evoked potential phase reversal and direct motor cortex stimulation during surgery in and around the central region. Neurosurgery 38:962–970PubMedCrossRef

Clark CA, Barrick TR, Murphy MM, Bell BA (2003) White matter fiber tracking in patients with space-occupying lesions of the brain: a new technique for neurosurgical planning? Neuroimage 20:1601–1608PubMedCrossRef

Coenen VA, Krings T, Mayfrank L, Polin RS, Reinges MH, Thron A, Gilsbach JM (2001) Three-dimensional visualization of the pyramidal tract in a neuronavigation system during brain tumor surgery: first experiences and technical note. Neurosurgery 49:86–92; discussion 92–83

Duffau H (2006) New concepts in surgery of WHO grade II gliomas: functional brain mapping, connectionism and plasticity–a review. J Neurooncol 79:77–115PubMedCrossRef

Forster MT, Hattingen E, Senft C, Gasser T, Seifert V, Szelenyi A (2011) Navigated transcranial magnetic stimulation and functional magnetic resonance imaging: advanced adjuncts in preoperative planning for central region tumors. Neurosurgery 68:1317–1324; discussion 1324–1315

10.

Hendler T, Pianka P, Sigal M, Kafri M, Ben-Bashat D, Constantini S, Graif M, Fried I, Assaf Y (2003) Delineating gray and white matter involvement in brain lesions: three-dimensional alignment of functional magnetic resonance and diffusion-tensor imaging. J Neurosurg 99:1018–1027PubMedCrossRef

11.

Kamada K, Houkin K, Iwasaki Y, Takeuchi F, Kuriki S, Mitsumori K, Sawamura Y (2002) Rapid identification of the primary motor area by using magnetic resonance axonography. J Neurosurg 97:558–567PubMedCrossRef

12.

Kamada K, Sawamura Y, Takeuchi F, Kawaguchi H, Kuriki S, Todo T, Morita A, Masutani Y, Aoki S, Kirino T (2005) Functional identification of the primary motor area by corticospinal tractography. Neurosurgery 56:98–109; discussion 198–109

13.

Kamada K, Sawamura Y, Takeuchi F, Kawaguchi H, Kuriki S, Todo T, Morita A, Masutani Y, Aoki S, Kirino T (2007) Functional identification of the primary motor area by corticospinal tractography. Neurosurgery 61:166–176; discussion 176–167

14.

Kombos T, Suess O, Ciklatekerlio O, Brock M (2001) Monitoring of intraoperative motor evoked potentials to increase the safety of surgery in and around the motor cortex. J Neurosurg 95:608–614PubMedCrossRef

15.

Lehericy S, Duffau H, Cornu P, Capelle L, Pidoux B, Carpentier A, Auliac S, Clemenceau S, Sichez JP, Bitar A, Valery CA, Van Effenterre R, Faillot T, Srour A, Fohanno D, Philippon J, Le Bihan D, Marsault C (2000) Correspondence between functional magnetic resonance imaging somatotopy and individual brain anatomy of the central region: comparison with intraoperative stimulation in patients with brain tumors. J Neurosurg 92:589–598PubMedCrossRef

16.

Litofsky NS, Bauer AM, Kasper RS, Sullivan CM, Dabbous OH (2006) Image-guided resection of high-grade glioma: patient selection factors and outcome. Neurosurg Focus 20:E16PubMedCrossRef

17.

Martino J, Taillandier L, Moritz-Gasser S, Gatignol P, Duffau H (2009) Re-operation is a safe and effective therapeutic strategy in recurrent WHO grade II gliomas within eloquent areas. Acta Neurochir (Wien) 151:427–436CrossRef

18.

Mori S, van Zijl PC (2002) Fiber tracking: principles and strategies—a technical review. NMR Biomed 15:468–480PubMedCrossRef

19.

Neuloh G, Pechstein U, Cedzich C, Schramm J (2004) Motor evoked potential monitoring with supratentorial surgery. Neurosurgery 54:1061–1070PubMedCrossRef

20.

Nimsky C, Ganslandt O, Fahlbusch R (2006) Implementation of fiber tract navigation. Neurosurgery 58:ONS-292-303; discussion ONS-303-294

21.

Nimsky C, Ganslandt O, Hastreiter P, Wang R, Benner T, Sorensen AG, Fahlbusch R (2005) Preoperative and intraoperative diffusion tensor imaging-based fiber tracking in glioma surgery. Neurosurgery 56:130–137; discussion 138

22.

Pechstein U, Cedzich C, Nadstawek J, Schramm J (1996) Transcranial high-frequency repetitive electrical stimulation for recording myogenic motor evoked potentials with the patient under general anesthesia. Neurosurgery 39:335–343PubMedCrossRef

23.

Picht T, Schmidt S, Brandt S, Frey D, Hannula H, Neuvonen T, Karhu J, Vajkoczy P, Suess O (2011) Preoperative functional mapping for rolandic brain tumor surgery: comparison of navigated transcranial magnetic stimulation to direct cortical stimulation. Neurosurgery 69:581–588; discussion 588

24.

Robles SG, Gatignol P, Lehericy S, Duffau H (2008) Long-term brain plasticity allowing a multistage surgical approach to World Health Organization grade II gliomas in eloquent areas. J Neurosurg 109:615–624PubMedCrossRef

25.

Taniguchi M, Cedzich C, Schramm J (1993) Modification of cortical stimulation for motor evoked potentials under general anesthesia: technical description. Neurosurgery 32:219–226PubMedCrossRef

26.

Willems PW, Taphoorn MJ, Burger H, Berkelbach van der Sprenkel JW, Tulleken CA (2006) Effectiveness of neuronavigation in resecting solitary intracerebral contrast-enhancing tumors: a randomized controlled trial. J Neurosurg 104:360–368PubMedCrossRef

Title: Diffusion tensor imaging fiber tracking using navigated brain stimulation—a feasibility study
Authors: Sandro M. Krieg
Niels H. Buchmann
Jens Gempt
Ehab Shiban
Bernhard Meyer
Florian Ringel
Publication date: 01-03-2012
Publisher: Springer Vienna
Published in: Acta Neurochirurgica / Issue 3/2012
Print ISSN: 0001-6268
Electronic ISSN: 0942-0940
DOI: https://doi.org/10.1007/s00701-011-1255-3

At a glance: The STEP trials

Springer Medicine

Diffusion tensor imaging fiber tracking using navigated brain stimulation—a feasibility study

Abstract

Background

Methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

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