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Acta Neurochirurgica
Published in: Acta Neurochirurgica 7/2016

01-07-2016 | Clinical Article - Neurosurgical Techniques

Mapping of cortical language function by functional magnetic resonance imaging and repetitive navigated transcranial magnetic stimulation in 40 healthy subjects

Authors: Nico Sollmann, Sebastian Ille, Tobias Boeckh-Behrens, Florian Ringel, Bernhard Meyer, Sandro M. Krieg

Published in: Acta Neurochirurgica | Issue 7/2016

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Abstract

Background

Functional magnetic resonance imaging (fMRI) is considered to be the standard method regarding non-invasive language mapping. However, repetitive navigated transcranial magnetic stimulation (rTMS) gains increasing importance with respect to that purpose. However, comparisons between both methods are sparse.

Methods

We performed fMRI and rTMS language mapping of the left hemisphere in 40 healthy, right-handed subjects in combination with the tasks that are most commonly used in the neurosurgical context (fMRI: word-generation = WGEN task; rTMS: object-naming = ON task). Different rTMS error rate thresholds (ERTs) were calculated, and Cohen’s kappa coefficient and the cortical parcellation system (CPS) were used for systematic comparison of the two techniques.

Results

Overall, mean kappa coefficients were low, revealing no distinct agreement. We found the highest agreement for both techniques when using the 2-out-of-3 rule (CPS region defined as language positive in terms of rTMS if at least 2 out of 3 stimulations led to a naming error). However, kappa for this threshold was only 0.24 (kappa of <0, 0.01–0.20, 0.21–0.40, 0.41–0.60, 0.61–0.80 and 0.81–0.99 indicate less than chance, slight, fair, moderate, substantial and almost perfect agreement, respectively).

Conclusions

Because of the inherent differences in the underlying physiology of fMRI and rTMS, the different tasks used and the impossibility of verifying the results via direct cortical stimulation (DCS) in the population of healthy volunteers, one must exercise caution in drawing conclusions about the relative usefulness of each technique for language mapping. Nevertheless, this study yields valuable insights into these two mapping techniques for the most common language tasks currently used in neurosurgical practice.
Literature
1.
Barker AT, Jalinous R, Freeston IL (1985) Non-invasive magnetic stimulation of human motor cortex. Lancet 1:1106–1107CrossRefPubMed
2.
Krieg SM, Sollmann N, Tanigawa N, Foerschler A, Meyer B, Ringel F (2015) Cortical distribution of speech and language errors investigated by visual object naming and navigated transcranial magnetic stimulation. Brain Structure and Function
3.
Lioumis P, Zhdanov A, Makela N, Lehtinen H, Wilenius J, Neuvonen T, Hannula H, Deletis V, Picht T, Makela JP (2012) A novel approach for documenting naming errors induced by navigated transcranial magnetic stimulation. J Neurosci Methods 204:349–354CrossRefPubMed
4.
Picht T, Krieg SM, Sollmann N, Rosler J, Niraula B, Neuvonen T, Savolainen P, Lioumis P, Makela JP, Deletis V, Meyer B, Vajkoczy P, Ringel F (2013) A comparison of language mapping by preoperative navigated transcranial magnetic stimulation and direct cortical stimulation during awake surgery. Neurosurgery 72:808–819CrossRefPubMed
5.
Sollmann N, Tanigawa N, Ringel F, Zimmer C, Meyer B, Krieg SM (2014) Language and its right-hemispheric distribution in healthy brains: An investigation by repetitive transcranial magnetic stimulation. NeuroImage 102P2:776–788CrossRef
6.
Sollmann N, Tanigawa N, Tussis L, Hauck T, Ille S, Maurer S, Negwer C, Zimmer C, Ringel F, Meyer B, Krieg SM (2015) Cortical regions involved in semantic processing investigated by repetitive navigated transcranial magnetic stimulation and object naming. Neuropsychologia 70:185–195CrossRefPubMed
7.
Tarapore PE, Findlay AM, Honma SM, Mizuiri D, Houde JF, Berger MS, Nagarajan SS (2013) Language mapping with navigated repetitive TMS: proof of technique and validation. NeuroImage 82:260–272CrossRefPubMed
8.
Lefaucheur JP, Andre-Obadia N, Antal A, Ayache SS, Baeken C, Benninger DH, Cantello RM, Cincotta M, de Carvalho M, De Ridder D, Devanne H, Di Lazzaro V, Filipovic SR, Hummel FC, Jaaskelainen SK, Kimiskidis VK, Koch G, Langguth B, Nyffeler T, Oliviero A, Padberg F, Poulet E, Rossi S, Rossini PM, Rothwell JC, Schonfeldt-Lecuona C, Siebner HR, Slotema CW, Stagg CJ, Valls-Sole J, Ziemann U, Paulus W, Garcia-Larrea L (2014) Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS). Clin Neurophysiol 125:2150–2206CrossRefPubMed
9.
Rossi S, Hallett M, Rossini PM, Pascual-Leone A, Safety of TMSCG (2009) Safety, ethical considerations, and application guidelines for the use of transcranial magnetic stimulation in clinical practice and research. Clin Neurophysiol 120:2008–2039CrossRefPubMedPubMedCentral
10.
Wassermann EM (1998) Risk and safety of repetitive transcranial magnetic stimulation: report and suggested guidelines from the International Workshop on the Safety of Repetitive Transcranial Magnetic Stimulation, June 5–7, 1996. Electroencephalogr Clin Neurophysiol 108:1–16CrossRefPubMed
11.
Ogawa S, Lee TM, Kay AR, Tank DW (1990) Brain magnetic resonance imaging with contrast dependent on blood oxygenation. Proc Natl Acad Sci U S A 87:9868–9872CrossRefPubMedPubMedCentral
12.
Ruohonen J (1998) Transcranial magnetic stimulation: Modelling and new techniques. PhD thesis, Helsinki University of Technology
13.
Di Lazzaro V, Oliviero A, Profice P, Saturno E, Pilato F, Insola A, Mazzone P, Tonali P, Rothwell JC (1998) Comparison of descending volleys evoked by transcranial magnetic and electric stimulation in conscious humans. Electroencephalogr Clin Neurophysiol 109:397–401CrossRefPubMed
14.
Ille S, Sollmann N, Hauck T, Maurer S, Tanigawa N, Obermueller T, Negwer C, Droese D, Boeckh-Behrens T, Meyer B, Ringel F, Krieg SM (2015) Impairment of preoperative language mapping by lesion location: a functional magnetic resonance imaging, navigated transcranial magnetic stimulation, and direct cortical stimulation study. J Neurosurg 123:314–324CrossRefPubMed
15.
Ille S, Sollmann N, Hauck T, Maurer S, Tanigawa N, Obermueller T, Negwer C, Droese D, Zimmer C, Meyer B, Ringel F, Krieg SM (2015) Combined noninvasive language mapping by navigated transcranial magnetic stimulation and functional MRI and its comparison with direct cortical stimulation. J Neurosurg 123:212–225CrossRefPubMed
16.
Krieg SM, Sollmann N, Hauck T, Ille S, Meyer B, Ringel F (2014) Repeated mapping of cortical language sites by preoperative navigated transcranial magnetic stimulation compared to repeated intraoperative DCS mapping in awake craniotomy. BMC Neurosci 15:20CrossRefPubMedPubMedCentral
17.
Sollmann N, Picht T, Makela JP, Meyer B, Ringel F, Krieg SM (2013) Navigated transcranial magnetic stimulation for preoperative language mapping in a patient with a left frontoopercular glioblastoma. J Neurosurg 118:175–179CrossRefPubMed
18.
Corina DP, Gibson EK, Martin R, Poliakov A, Brinkley J, Ojemann GA (2005) Dissociation of action and object naming: evidence from cortical stimulation mapping. Hum Brain Mapp 24:1–10CrossRefPubMed
19.
Corina DP, Loudermilk BC, Detwiler L, Martin RF, Brinkley JF, Ojemann G (2010) Analysis of naming errors during cortical stimulation mapping: implications for models of language representation. Brain Lang 115:101–112CrossRefPubMedPubMedCentral
20.
21.
Krieg SM, Tarapore PE, Picht T, Tanigawa N, Houde J, Sollmann N, Meyer B, Vajkoczy P, Berger MS, Ringel F, Nagarajan S (2014) Optimal timing of pulse onset for language mapping with navigated repetitive transcranial magnetic stimulation. NeuroImage 100:219–236CrossRefPubMed
22.
Rosler J, Niraula B, Strack V, Zdunczyk A, Schilt S, Savolainen P, Lioumis P, Makela J, Vajkoczy P, Frey D, Picht T (2014) Language mapping in healthy volunteers and brain tumor patients with a novel navigated TMS system: evidence of tumor-induced plasticity. Clin Neurophysiol 125:526–536CrossRefPubMed
23.
Krieg SM, Shiban E, Buchmann N, Gempt J, Foerschler A, Meyer B, Ringel F (2012) Utility of presurgical navigated transcranial magnetic brain stimulation for the resection of tumors in eloquent motor areas. J Neurosurg 116:994–1001CrossRefPubMed
24.
Picht T, Strack V, Schulz J, Zdunczyk A, Frey D, Schmidt S, Vajkoczy P (2012) Assessing the functional status of the motor system in brain tumor patients using transcranial magnetic stimulation. Acta Neurochir (Wien) 154:2075–2081CrossRef
25.
Rossini PM, Barker AT, Berardelli A, Caramia MD, Caruso G, Cracco RQ, Dimitrijevic MR, Hallett M, Katayama Y, Lucking CH et al (1994) Non-invasive electrical and magnetic stimulation of the brain, spinal cord and roots: basic principles and procedures for routine clinical application. Report of an IFCN committee. Electroencephalogr Clin Neurophysiol 91:79–92CrossRefPubMed
26.
Snodgrass JG, Vanderwart M (1980) A standardized set of 260 pictures: norms for name agreement, image agreement, familiarity, and visual complexity. J Exp Psychol Hum Learn 6:174–215CrossRefPubMed
27.
28.
Salmelin R, Helenius P, Service E (2000) Neurophysiology of fluent and impaired reading: a magnetoencephalographic approach. J Clin Neurophysiol 17:163–174CrossRefPubMed
29.
Wheat KL, Cornelissen PL, Sack AT, Schuhmann T, Goebel R, Blomert L (2013) Charting the functional relevance of Broca's area for visual word recognition and picture naming in Dutch using fMRI-guided TMS. Brain Lang 125:223–230CrossRefPubMed
30.
Sollmann N, Hauck T, Hapfelmeier A, Meyer B, Ringel F, Krieg SM (2013) Intra- and interobserver variability of language mapping by navigated transcranial magnetic brain stimulation. BMC Neurosci 14:150CrossRefPubMedPubMedCentral
31.
Sollmann N, Ille S, Obermueller T, Negwer C, Ringel F, Meyer B, Krieg SM (2015) The impact of repetitive navigated transcranial magnetic stimulation coil positioning and stimulation parameters on human language function. Eur J Med Res 20:47CrossRefPubMedPubMedCentral
32.
Haglund MM, Berger MS, Shamseldin M, Lettich E, Ojemann GA (1994) Cortical localization of temporal lobe language sites in patients with gliomas. Neurosurgery 34:567–576, discussion 576 CrossRefPubMed
33.
Sanai N, Mirzadeh Z, Berger MS (2008) Functional outcome after language mapping for glioma resection. N Engl J Med 358:18–27CrossRefPubMed
34.
Landis JR, Koch GG (1977) The measurement of observer agreement for categorical data. Biometrics 33:159–174CrossRefPubMed
35.
Viera AJ, Garrett JM (2005) Understanding interobserver agreement: the kappa statistic. Fam Med 37:360–363PubMed
36.
Kononen M, Tamsi N, Saisanen L, Kemppainen S, Maatta S, Julkunen P, Jutila L, Aikia M, Kalviainen R, Niskanen E, Vanninen R, Karjalainen P, Mervaala E (2015) Non-invasive mapping of bilateral motor speech areas using navigated transcranial magnetic stimulation and functional magnetic resonance imaging. J Neurosci Methods 248:32–40CrossRefPubMed
37.
Sack AT, Cohen Kadosh R, Schuhmann T, Moerel M, Walsh V, Goebel R (2009) Optimizing functional accuracy of TMS in cognitive studies: a comparison of methods. J Cogn Neurosci 21:207–221CrossRefPubMed
38.
De Witt Hamer PC, Robles SG, Zwinderman AH, Duffau H, Berger MS (2012) Impact of intraoperative stimulation brain mapping on glioma surgery outcome: a meta-analysis. J Clin Oncol 30:2559–2565CrossRefPubMed
39.
Ojemann G, Ojemann J, Lettich E, Berger M (1989) Cortical language localization in left, dominant hemisphere. An electrical stimulation mapping investigation in 117 patients. J Neurosurg 71:316–326CrossRefPubMed
40.
Giussani C, Roux FE, Ojemann J, Sganzerla EP, Pirillo D, Papagno C (2010) Is preoperative functional magnetic resonance imaging reliable for language areas mapping in brain tumor surgery? Review of language functional magnetic resonance imaging and direct cortical stimulation correlation studies. Neurosurgery 66:113–120CrossRefPubMed
41.
Kuchcinski G, Mellerio C, Pallud J, Dezamis E, Turc G, Rigaux-Viode O, Malherbe C, Roca P, Leclerc X, Varlet P, Chretien F, Devaux B, Meder JF, Oppenheim C (2015) Three-tesla functional MR language mapping: comparison with direct cortical stimulation in gliomas. Neurology 84:560–568CrossRefPubMed
42.
Bizzi A, Blasi V, Falini A, Ferroli P, Cadioli M, Danesi U, Aquino D, Marras C, Caldiroli D, Broggi G (2008) Presurgical functional MR imaging of language and motor functions: validation with intraoperative electrocortical mapping. Radiology 248:579–589CrossRefPubMed
43.
Hickok G, Poeppel D (2004) Dorsal and ventral streams: a framework for understanding aspects of the functional anatomy of language. Cognition 92:67–99CrossRefPubMed
44.
Mahdavi A, Houshmand S, Oghabian MA, Zarei M, Mahdavi A, Shoar MH, Ghanaati H (2011) Developing optimized fMRI protocol for clinical use: comparison of different language paradigms. J Magn Reson Imaging 34:413–419CrossRefPubMed
45.
46.
Stippich C, Mohammed J, Kress B, Hahnel S, Gunther J, Konrad F, Sartor K (2003) Robust localization and lateralization of human language function: an optimized clinical functional magnetic resonance imaging protocol. Neurosci Lett 346:109–113CrossRefPubMed
47.
Vigneau M, Beaucousin V, Herve PY, Duffau H, Crivello F, Houde O, Mazoyer B, Tzourio-Mazoyer N (2006) Meta-analyzing left hemisphere language areas: phonology, semantics, and sentence processing. NeuroImage 30:1414–1432CrossRefPubMed
48.
Vigneau M, Beaucousin V, Herve PY, Jobard G, Petit L, Crivello F, Mellet E, Zago L, Mazoyer B, Tzourio-Mazoyer N (2011) What is right-hemisphere contribution to phonological, lexico-semantic, and sentence processing? Insights from a meta-analysis. NeuroImage 54:577–593CrossRefPubMed
49.
Holodny AI, Schulder M, Liu WC, Wolko J, Maldjian JA, Kalnin AJ (2000) The effect of brain tumors on BOLD functional MR imaging activation in the adjacent motor cortex: implications for image-guided neurosurgery. AJNR Am J Neuroradiol 21:1415–1422PubMed
50.
Ulmer JL, Krouwer HG, Mueller WM, Ugurel MS, Kocak M, Mark LP (2003) Pseudo-reorganization of language cortical function at fMR imaging: a consequence of tumor-induced neurovascular uncoupling. AJNR Am J Neuroradiol 24:213–217PubMed
51.
Pascual-Leone A, Bartres-Faz D, Keenan JP (1999) Transcranial magnetic stimulation: studying the brain-behaviour relationship by induction of 'virtual lesions'. Philosophical transactions of the Royal Society of London. Series B, Biological Sci 354:1229–1238CrossRef
52.
McGraw P, Mathews VP, Wang Y, Phillips MD (2001) Approach to functional magnetic resonance imaging of language based on models of language organization. Neuroimaging Clin N Am 11:343–353PubMed
53.
Conti A, Raffa G, Granata F, Rizzo V, Germano A, Tomasello F (2014) Navigated transcranial magnetic stimulation for "somatotopic" tractography of the corticospinal tract. Neurosurgery 10(Suppl 4):542–554, discussion 554CrossRefPubMed
54.
Frey D, Strack V, Wiener E, Jussen D, Vajkoczy P, Picht T (2012) A new approach for corticospinal tract reconstruction based on navigated transcranial stimulation and standardized fractional anisotropy values. NeuroImage 62:1600–1609CrossRefPubMed
55.
Krieg SM, Buchmann NH, Gempt J, Shiban E, Meyer B, Ringel F (2012) Diffusion tensor imaging fiber tracking using navigated brain stimulation—a feasibility study. Acta Neurochir (Wien) 154:555–563CrossRef
56.
Sollmann N, Giglhuber K, Tussis L, Meyer B, Ringel F, Krieg SM (2015) nTMS-based DTI fiber tracking for language pathways correlates with language function and aphasia—A case report. Clin Neurol Neurosurg 136:25–28CrossRefPubMed
57.
Rutten GJ, Ramsey NF (2010) The role of functional magnetic resonance imaging in brain surgery. Neurosurg Focus 28:E4CrossRefPubMed
58.
Hauck T, Tanigawa N, Probst M, Wohlschlaeger A, Ille S, Sollmann N, Maurer S, Zimmer C, Ringel F, Meyer B, Krieg SM (2015) Stimulation frequency determines the distribution of language positive cortical regions during navigated transcranial magnetic brain stimulation. BMC Neurosci 16:5CrossRefPubMedPubMedCentral
59.
Hauck T, Tanigawa N, Probst M, Wohlschlaeger A, Ille S, Sollmann N, Maurer S, Zimmer C, Ringel F, Meyer B, Krieg SM (2015) Task type affects location of language-positive cortical regions by repetitive navigated transcranial magnetic stimulation mapping. PLoS One 10:e0125298CrossRefPubMedPubMedCentral
60.
Riecker A, Ackermann H, Wildgruber D, Dogil G, Grodd W (2000) Opposite hemispheric lateralization effects during speaking and singing at motor cortex, insula and cerebellum. Neuroreport 11:1997–2000CrossRefPubMed
61.
Szaflarski JP, Binder JR, Possing ET, McKiernan KA, Ward BD, Hammeke TA (2002) Language lateralization in left-handed and ambidextrous people: fMRI data. Neurology 59:238–244CrossRefPubMed
62.
Woermann FG, Jokeit H, Luerding R, Freitag H, Schulz R, Guertler S, Okujava M, Wolf P, Tuxhorn I, Ebner A (2003) Language lateralization by Wada test and fMRI in 100 patients with epilepsy. Neurology 61:699–701CrossRefPubMed
Metadata
Title
Mapping of cortical language function by functional magnetic resonance imaging and repetitive navigated transcranial magnetic stimulation in 40 healthy subjects
Authors
Nico Sollmann
Sebastian Ille
Tobias Boeckh-Behrens
Florian Ringel
Bernhard Meyer
Sandro M. Krieg
Publication date
01-07-2016
Publisher
Springer Vienna
Published in
Acta Neurochirurgica / Issue 7/2016
Print ISSN: 0001-6268
Electronic ISSN: 0942-0940
DOI
https://doi.org/10.1007/s00701-016-2819-z

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