脳磁図の臨床応用に関する文献レビュー (第5報) : 脳腫瘍
脳腫瘍の術前診断として, 腫瘍の性状, 局在に加え腫瘍近傍の脳機能マッピングが重要である。しかし, 開頭術前に脳機能局在を確認する方法は未だに十分に確立していない。現在脳磁図は脳神経外科手術に際して保険適応となっている唯一の脳機能画像方法であるが, その有用性などに関するエビデンスレベルはあまり論じられていない。今後の脳磁図診断の臨床応用の方向性を見極めるために, 現在の脳腫瘍に対する脳磁図の診断的エビデンスレベルを明らかにする。MEDLINE にて (brain tumor OR neoplasm) AND (MEG OR magnetoencephalography) を1985年から20...
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| Published in | 臨床神経生理学 Vol. 41; no. 1; pp. 46 - 53 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
一般社団法人 日本臨床神経生理学会
2013
|
| Online Access | Get full text |
| ISSN | 1345-7101 2188-031X |
| DOI | 10.11422/jscn.41.46 |
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| Abstract | 脳腫瘍の術前診断として, 腫瘍の性状, 局在に加え腫瘍近傍の脳機能マッピングが重要である。しかし, 開頭術前に脳機能局在を確認する方法は未だに十分に確立していない。現在脳磁図は脳神経外科手術に際して保険適応となっている唯一の脳機能画像方法であるが, その有用性などに関するエビデンスレベルはあまり論じられていない。今後の脳磁図診断の臨床応用の方向性を見極めるために, 現在の脳腫瘍に対する脳磁図の診断的エビデンスレベルを明らかにする。MEDLINE にて (brain tumor OR neoplasm) AND (MEG OR magnetoencephalography) を1985年から2012年7月まで検索した。その結果920件の論文が検索され, エビデンスレベル, 原著論文に基づいて56論文に絞りこみ現在までの脳腫瘍に対する脳磁図の臨床応用についてまとめた。1993年に体性感覚誘発脳磁界を用いて脳腫瘍術前診断で中心溝を同定した報告は初めての臨床応用であった。その後脳磁図は同様の目的で脳腫瘍患者に使用され続け, 多くのエビデンスレベル1の論文が報告された。また1999年より言語優位半球の同定のために脳磁図の応用が始まり, 現在までエビデンスレベルの高い6編の論文があった。しかし, その同定率が90%を超える論文は少なく, さらなる手法の工夫が必要と考えられた。さらに近年はResting state脳磁図のように課題負荷の少ない検査法の報告も認められ, 今後患者負担の少ない検査法への発展も期待できる。中心溝同定, 言語機能局在に関しては, 脳磁図は脳腫瘍術前診断として推奨グレードの高い有用な検査法である。 |
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| AbstractList | 脳腫瘍の術前診断として, 腫瘍の性状, 局在に加え腫瘍近傍の脳機能マッピングが重要である。しかし, 開頭術前に脳機能局在を確認する方法は未だに十分に確立していない。現在脳磁図は脳神経外科手術に際して保険適応となっている唯一の脳機能画像方法であるが, その有用性などに関するエビデンスレベルはあまり論じられていない。今後の脳磁図診断の臨床応用の方向性を見極めるために, 現在の脳腫瘍に対する脳磁図の診断的エビデンスレベルを明らかにする。MEDLINE にて (brain tumor OR neoplasm) AND (MEG OR magnetoencephalography) を1985年から2012年7月まで検索した。その結果920件の論文が検索され, エビデンスレベル, 原著論文に基づいて56論文に絞りこみ現在までの脳腫瘍に対する脳磁図の臨床応用についてまとめた。1993年に体性感覚誘発脳磁界を用いて脳腫瘍術前診断で中心溝を同定した報告は初めての臨床応用であった。その後脳磁図は同様の目的で脳腫瘍患者に使用され続け, 多くのエビデンスレベル1の論文が報告された。また1999年より言語優位半球の同定のために脳磁図の応用が始まり, 現在までエビデンスレベルの高い6編の論文があった。しかし, その同定率が90%を超える論文は少なく, さらなる手法の工夫が必要と考えられた。さらに近年はResting state脳磁図のように課題負荷の少ない検査法の報告も認められ, 今後患者負担の少ない検査法への発展も期待できる。中心溝同定, 言語機能局在に関しては, 脳磁図は脳腫瘍術前診断として推奨グレードの高い有用な検査法である。 |
| Author | 亀山, 茂樹 鎌田, 恭輔 露口, 尚弘 平田, 雅之 石井, 良平 尾﨑, 勇 池田, 英敏 渡辺, 裕貴 中里, 信和 井口, 義信 橋本, 勲 白石, 秀明 |
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| References | 13) Roberts TP, Ferrari P, Perry D, et al: Presurgical mapping with magnetic source imaging: comparisons with intraoperative findings. Brain Tumor Pathol 17: 57–64, 2000. 20) Aoyama H, Kamada K, Shirato H, et al: Integration of functional brain information into stereotactic irradiation treatment planning using magnetoencephalography and magnetic resonance axonography. Int J Radiat Oncol Biol Phys 58: 1177–1183, 2004. 12) Makela JP, Kirveskari E, Seppa M, et al: Three-dimensional integration of brain anatomy and function to facilitate intraoperative navigation around the sensorimotor strip. Hum Brain Mapp 12: 180–192, 2001. 6) Kamada K, Takeuchi F, Kuriki S, et al: Functional neurosurgical simulation with brain surface magnetic resonance images and magnetoencephalography. Neurosurgery 33: 269–272; discussion 72-3, 1993. 21) Kamada K, Todo T, Masutani Y, et al: Visualization of the frontotemporal language fibers by tractography combined with functional magnetic resonance imaging and magnetoencephalography. J Neurosurg 106: 90–98, 2007. 1) Wood CC, Cohen D, Cuffin BN, et al: Electrical sources in human somatosensory cortex: identification by combined magnetic and potential recordings. Science 227: 1051–1053, 1985. 7) Ganslandt O, Fahlbusch R, Nimsky C, et al: Functional neuronavigation with magnetoencephalography: outcome in 50 patients with lesions around the motor cortex. J Neurosurg 91: 73–79, 1999. 9) Kamada K, Houkin K, Iwasaki Y, et al: Rapid identification of the primary motor area by using magnetic resonance axonography. J Neurosurg 97: 558–567, 2002. 22) Ota T, Kamada K, Kawai K, et al: Refined analysis of complex language representations by non-invasive neuroimaging techniques. Br J Neurosurg 25: 197–202, 2011. 24) Hirata M, Goto T, Barnes G, et al: Language dominance and mapping based on neuromagnetic oscillatory changes: comparison with invasive procedures. J Neurosurg 112: 528–538, 2010. 17) Papanicolaou AC, Pataraia E, Billingsley-Marshall R, et al: Toward the substitution of invasive electroencephalography in epilepsy surgery. J Clin Neurophysiol 22: 231–237, 2005. 3) Kamada K, Oshiro O, Takeuchi F, et al: Identification of central sulcus by using somatosensory evoked magnetic fields and brain surface MR images: three dimensional projection analysis. J Neurol Sci 116: 29–33, 1993. 11) Korvenoja A, Kirveskari E, Aronen HJ, et al: Sensorimotor cortex localization: comparison of magnetoencephalography, functional MR imaging, and intraoperative cortical mapping. Radiology 241: 213–222, 2006. 23) Findlay AM, Ambrose JB, Cahn-Weiner DA, et al: Dynamics of hemispheric dominance for language assessed by magnetoencephalographic imaging. Ann Neurol 71: 668–686, 2012. 4) Kamada K, Sawamura Y, Takeuchi F, et al: Expressive and receptive language areas determined by a non-invasive reliable method using functional magnetic resonance imaging and magnetoencephalography. Neurosurgery 60: 296–305; discussion 05-6, 2007. 19) Grummich P, Nimsky C, Pauli E, et al: Combining fMRI and MEG increases the reliability of presurgical language localization: a clinical study on the difference between and congruence of both modalities. Neuroimage 32: 1793–1803, 2006. 25) Bosma I, Douw L, Bartolomei F, et al: Synchronized brain activity and neurocognitive function in patients with low-grade glioma: a magnetoencephalography study. Neuro Oncol 10: 734–744, 2008. 14) Gaetz W, Cheyne D, Rutka JT, et al: Presurgical localization of primary motor cortex in pediatric patients with brain lesions by the use of spatially filtered magnetoencephalography. Neurosurgery 64: ons177–185; discussion ons86, 2009. 26) Guggisberg AG, Honma SM, Findlay AM, et al: Mapping functional connectivity in patients with brain lesions. Ann Neurol 63: 193–203, 2008. 10) Kirsch HE, Zhu Z, Honma S, et al: Predicting the location of mouth motor cortex in patients with brain tumors by using somatosensory evoked field measurements. J Neurosurg 107: 481–487, 2007. 2) Gallen CC, Sobel DF, Waltz T, et al: Noninvasive presurgical neuromagnetic mapping of somatosensory cortex. Neurosurgery 33: 260–268; discussion 68, 1993. 28) Wilson TW, Heinrichs-Graham E, Aizenberg MR: Potential role for magnetoencephalography in distinguishing low- and high-grade gliomas: a preliminary study with histopathological confirmation. Neuro Oncol 14: 624–630, 2012. 5) Papanicolaou AC, Simos PG, Breier JI, et al: Magnetoencephalographic mapping of the language-specific cortex. J Neurosurg 90: 85–93, 1999. 8) Ganslandt O, Buchfelder M, Hastreiter P, et al: Magnetic source imaging supports clinical decision making in glioma patients. Clin Neurol Neurosurg 107: 20–26, 2004. 16) Rosburg T, Kreitschmann-Andermahr I, Emmerich E, et al: Hemispheric differences in frequency dependent dipole orientation of the human auditory evoked field component N100m. Neurosci Lett 258: 105–108, 1998. 15) Oshino S, Kato A, Wakayama A, et al: Magnetoencephalographic analysis of cortical oscillatory activity in patients with brain tumors: Synthetic aperture magnetometry (SAM) functional imaging of delta band activity. Neuroimage 34: 957–964, 2007. 18) Simos PG, Breier JI, Fletcher JM, et al: Brain activation profiles in dyslexic children during non-word reading: a magnetic source imaging study. Neurosci Lett 290: 61–65, 2000. 27) Martino J, Honma SM, Findlay AM, et al: Resting functional connectivity in patients with brain tumors in eloquent areas. Ann Neurol 69: 521–532, 2011. |
| References_xml | – reference: 9) Kamada K, Houkin K, Iwasaki Y, et al: Rapid identification of the primary motor area by using magnetic resonance axonography. J Neurosurg 97: 558–567, 2002. – reference: 24) Hirata M, Goto T, Barnes G, et al: Language dominance and mapping based on neuromagnetic oscillatory changes: comparison with invasive procedures. J Neurosurg 112: 528–538, 2010. – reference: 16) Rosburg T, Kreitschmann-Andermahr I, Emmerich E, et al: Hemispheric differences in frequency dependent dipole orientation of the human auditory evoked field component N100m. Neurosci Lett 258: 105–108, 1998. – reference: 4) Kamada K, Sawamura Y, Takeuchi F, et al: Expressive and receptive language areas determined by a non-invasive reliable method using functional magnetic resonance imaging and magnetoencephalography. Neurosurgery 60: 296–305; discussion 05-6, 2007. – reference: 8) Ganslandt O, Buchfelder M, Hastreiter P, et al: Magnetic source imaging supports clinical decision making in glioma patients. Clin Neurol Neurosurg 107: 20–26, 2004. – reference: 23) Findlay AM, Ambrose JB, Cahn-Weiner DA, et al: Dynamics of hemispheric dominance for language assessed by magnetoencephalographic imaging. Ann Neurol 71: 668–686, 2012. – reference: 19) Grummich P, Nimsky C, Pauli E, et al: Combining fMRI and MEG increases the reliability of presurgical language localization: a clinical study on the difference between and congruence of both modalities. Neuroimage 32: 1793–1803, 2006. – reference: 15) Oshino S, Kato A, Wakayama A, et al: Magnetoencephalographic analysis of cortical oscillatory activity in patients with brain tumors: Synthetic aperture magnetometry (SAM) functional imaging of delta band activity. Neuroimage 34: 957–964, 2007. – reference: 21) Kamada K, Todo T, Masutani Y, et al: Visualization of the frontotemporal language fibers by tractography combined with functional magnetic resonance imaging and magnetoencephalography. J Neurosurg 106: 90–98, 2007. – reference: 27) Martino J, Honma SM, Findlay AM, et al: Resting functional connectivity in patients with brain tumors in eloquent areas. Ann Neurol 69: 521–532, 2011. – reference: 25) Bosma I, Douw L, Bartolomei F, et al: Synchronized brain activity and neurocognitive function in patients with low-grade glioma: a magnetoencephalography study. Neuro Oncol 10: 734–744, 2008. – reference: 11) Korvenoja A, Kirveskari E, Aronen HJ, et al: Sensorimotor cortex localization: comparison of magnetoencephalography, functional MR imaging, and intraoperative cortical mapping. Radiology 241: 213–222, 2006. – reference: 10) Kirsch HE, Zhu Z, Honma S, et al: Predicting the location of mouth motor cortex in patients with brain tumors by using somatosensory evoked field measurements. J Neurosurg 107: 481–487, 2007. – reference: 28) Wilson TW, Heinrichs-Graham E, Aizenberg MR: Potential role for magnetoencephalography in distinguishing low- and high-grade gliomas: a preliminary study with histopathological confirmation. Neuro Oncol 14: 624–630, 2012. – reference: 12) Makela JP, Kirveskari E, Seppa M, et al: Three-dimensional integration of brain anatomy and function to facilitate intraoperative navigation around the sensorimotor strip. Hum Brain Mapp 12: 180–192, 2001. – reference: 1) Wood CC, Cohen D, Cuffin BN, et al: Electrical sources in human somatosensory cortex: identification by combined magnetic and potential recordings. Science 227: 1051–1053, 1985. – reference: 18) Simos PG, Breier JI, Fletcher JM, et al: Brain activation profiles in dyslexic children during non-word reading: a magnetic source imaging study. Neurosci Lett 290: 61–65, 2000. – reference: 20) Aoyama H, Kamada K, Shirato H, et al: Integration of functional brain information into stereotactic irradiation treatment planning using magnetoencephalography and magnetic resonance axonography. Int J Radiat Oncol Biol Phys 58: 1177–1183, 2004. – reference: 3) Kamada K, Oshiro O, Takeuchi F, et al: Identification of central sulcus by using somatosensory evoked magnetic fields and brain surface MR images: three dimensional projection analysis. J Neurol Sci 116: 29–33, 1993. – reference: 5) Papanicolaou AC, Simos PG, Breier JI, et al: Magnetoencephalographic mapping of the language-specific cortex. J Neurosurg 90: 85–93, 1999. – reference: 2) Gallen CC, Sobel DF, Waltz T, et al: Noninvasive presurgical neuromagnetic mapping of somatosensory cortex. Neurosurgery 33: 260–268; discussion 68, 1993. – reference: 17) Papanicolaou AC, Pataraia E, Billingsley-Marshall R, et al: Toward the substitution of invasive electroencephalography in epilepsy surgery. J Clin Neurophysiol 22: 231–237, 2005. – reference: 13) Roberts TP, Ferrari P, Perry D, et al: Presurgical mapping with magnetic source imaging: comparisons with intraoperative findings. Brain Tumor Pathol 17: 57–64, 2000. – reference: 6) Kamada K, Takeuchi F, Kuriki S, et al: Functional neurosurgical simulation with brain surface magnetic resonance images and magnetoencephalography. Neurosurgery 33: 269–272; discussion 72-3, 1993. – reference: 22) Ota T, Kamada K, Kawai K, et al: Refined analysis of complex language representations by non-invasive neuroimaging techniques. Br J Neurosurg 25: 197–202, 2011. – reference: 14) Gaetz W, Cheyne D, Rutka JT, et al: Presurgical localization of primary motor cortex in pediatric patients with brain lesions by the use of spatially filtered magnetoencephalography. Neurosurgery 64: ons177–185; discussion ons86, 2009. – reference: 26) Guggisberg AG, Honma SM, Findlay AM, et al: Mapping functional connectivity in patients with brain lesions. Ann Neurol 63: 193–203, 2008. – reference: 7) Ganslandt O, Fahlbusch R, Nimsky C, et al: Functional neuronavigation with magnetoencephalography: outcome in 50 patients with lesions around the motor cortex. J Neurosurg 91: 73–79, 1999. |
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| Title | 脳磁図の臨床応用に関する文献レビュー (第5報) : 脳腫瘍 |
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