Usefulness of Three-dimensional Stereoscopic Images for Cerebral Endovascular Treatment
Purpose: Reconstructed three-dimensional (3-D) images are essential for cerebral endovascular treatment. Conventional reconstructed 3-D images are no more than planar images projected onto a monitor. In this study, we prepared 3-D stereoscopic images before cerebral endovascular treatment, and condu...
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| Published in | Journal of Neuroendovascular Therapy Vol. 10; no. 5; pp. 291 - 296 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
The Japanese Society for Neuroendovascular Therapy
2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1882-4072 2186-2494 |
| DOI | 10.5797/jnet.tn.2016-0040 |
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| Abstract | Purpose: Reconstructed three-dimensional (3-D) images are essential for cerebral endovascular treatment. Conventional reconstructed 3-D images are no more than planar images projected onto a monitor. In this study, we prepared 3-D stereoscopic images before cerebral endovascular treatment, and conducted preoperative simulation to examine their usefulness (the subjects were six cases with cerebral aneurysms and eight with arteriovenous shunts).Case Presentations: Case 6: The patient was a 60-year-old male with an unruptured paraclinoid aneurysm. Case 8: The patient was a 64-year-old male with a spinal dural arteriovenous fistula. To prepare 3-D stereoscopic images, 3-D stereoscopic image-converting Work Station/a 3-D monitor was used. The first surgeon performed a preoperative simulation using 3-D stereoscopic images. Subsequently, usual cerebral endovascular treatment was conducted, and the usefulness of 3-D stereoscopic images was evaluated with free comments after surgery.Conclusion: The application of 3-D stereoscopic images for cerebral endovascular treatment was useful for recognition of spatial orientation. In particular, it was highly assessed in arteriovenous shunt disease patients with a complex vascular structure. Therefore, 3-D stereoscopic images may be appropriate for training for non-skilled specialists in cerebral endovascular treatment and student education. |
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| AbstractList | Purpose: Reconstructed three-dimensional (3-D) images are essential for cerebral endovascular treatment. Conventional reconstructed 3-D images are no more than planar images projected onto a monitor. In this study, we prepared 3-D stereoscopic images before cerebral endovascular treatment, and conducted preoperative simulation to examine their usefulness (the subjects were six cases with cerebral aneurysms and eight with arteriovenous shunts).Case Presentations: Case 6: The patient was a 60-year-old male with an unruptured paraclinoid aneurysm. Case 8: The patient was a 64-year-old male with a spinal dural arteriovenous fistula. To prepare 3-D stereoscopic images, 3-D stereoscopic image-converting Work Station/a 3-D monitor was used. The first surgeon performed a preoperative simulation using 3-D stereoscopic images. Subsequently, usual cerebral endovascular treatment was conducted, and the usefulness of 3-D stereoscopic images was evaluated with free comments after surgery.Conclusion: The application of 3-D stereoscopic images for cerebral endovascular treatment was useful for recognition of spatial orientation. In particular, it was highly assessed in arteriovenous shunt disease patients with a complex vascular structure. Therefore, 3-D stereoscopic images may be appropriate for training for non-skilled specialists in cerebral endovascular treatment and student education. |
| Author | Miyachi, Shigeru Kuroiwa, Toshihiko Yagi, Ryokichi Ohnishi, Hiroyuki Kawabata, Shinji Hiramatsu, Ryo |
| Author_xml | – sequence: 1 fullname: Yagi, Ryokichi organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan – sequence: 1 fullname: Kawabata, Shinji organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan – sequence: 1 fullname: Ohnishi, Hiroyuki organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan – sequence: 1 fullname: Kuroiwa, Toshihiko organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan – sequence: 1 fullname: Miyachi, Shigeru organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan – sequence: 1 fullname: Hiramatsu, Ryo organization: Department of Neurosurgery and Endovascular Therapy, Osaka Medical College, Takatsuki, Osaka, Japan |
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| Cites_doi | 10.3109/00016925509170799 10.1007/s00464-009-0740-8 10.2214/ajr.126.6.1211 10.3109/00016925609170836 10.1148/124.2.395 10.1055/s-0033-1345100 10.1007/s10143-007-0076-6 10.1089/end.2007.0241 10.1007/s11701-015-0533-0 10.1177/1553350611411491 10.1227/NEU.0b013e3182739aae 10.1227/01.NEU.0000255373.57346.EC 10.1227/01.neu.0000279232.43202.82 10.1073/pnas.19.8.773 10.1111/iju.12735 10.1097/00000658-193203000-00006 |
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| References | 11) Kockro RA, Reisch R, Serra L, et al: Image-guided neurosurgery with 3-dimensional multimodal imaging data on a stereoscopic monitor. Neurosurgery 2013; 72: 78–88. 5) Yoshida S, Fukui N, Saito K, et al: Novel image monitoring system using a head-mounted display for assistants in da Vinci surgery. Int J Urol 2015; 22: 520–521. 6) Fujiwara K, Fukuhara T, Niimi K, et al: Load evaluation of the da Vinci surgical system for transoral robotic surgery. J Robot Surg 2015; 9: 315–319. 2) Silvestri M, Simi M, Cavallotti C, et al: Autostereoscopic three-dimensional viewer evaluation through comparison with conventional interfaces in laparoscopic surgery. Surg Innov 2011; 18: 223–230. 3) LaGrange CA, Clark CJ, Gerber EW, et al: Evaluation of three laparoscopic modalities: robotics versus three-dimensional vision laparoscopy versus standard laparoscopy. J Endourol 2008; 22: 511–516. 17) Mokrohisky JF, Murtagh F, Paul RE, et al: Biplane stereoscopic cerebral angiography. Acta Radiol 1956; 46: 262–272. 20) Doi K, Rossmann K, Duda EE: Application of longitudinal magnification effect to magnification stereoscopic angiography: a new method of cerebral angiography. Radiology 1977; 124: 395–401. 16) Vogelsang H, Dietz K: Stereoscopic magnification in spinal angiography. AJNR Am J Neuroradiol 1983; 4: 588–589. 19) Tobe T, Saito S, Toda N, et al: Simultaneous stereoroentogenography. Gunma J Med Sci 1966; 15: 23–31. 15) Takahashi M, Tamakawa Y, Goto K, et al: Serial cerebral angiography in stereoscopic magnification. AJR Am J Roentgenol 1976; 126: 1211–1218. 12) Ohta T, Nagata S, Deguchi J, et al: Three-dimensional image atlas of the cranium/brain/blood vessels. Kinpodo. Kyoto, 1995. 18) Fernstrom I, Lindblom K: Simultaneous stereoangiography. Acta Radiol 1955; 44: 230–232. 9) Unsgaard G, Ommedal S, Rygh OM, et al: Operation of arteriovenous malformations assisted by stereoscopic navigation-controlled display of preoperative magnetic resonance angiography and intraoperative ultrasound angiography. Neurosurgery 2007; 61: 407–415; discussion 415–416. 4) Ito M, Asano Y, Shimizu T, et al: Comparison of standard laparoscopic distal pancreatectomy with minimally invasive distal pancreatectomy using the da Vinci S system. Hepatogastroenterology 2014; 61: 493–496. 1) Kong SH, Oh BM, Yoon H, et al: Comparison of two-and three-dimensional camera systems in laparoscopic performance: a novel 3D system with one camera. Surg Endosc 2010; 24: 1132–1143. 14) Fray WW, Warren SL: Stereoscopic Röntgenography of the Breasts: An Aid in Establishing the Diagnosis of Mastitis and Carcinoma. Ann Surg 1932; 95: 425–432. 8) Rohde V, Hans FJ, Mayfrank L, et al: How useful is the 3-dimensional, surgeon’s perspective-adjusted visualisation of the vessel anatomy during aneurysm surgery? A prospective clinical trial. Neurosurg Rev 2007; 30: 209–217. 13) Washburn MF: Retinal rivalry as a neglected factor in stereoscopic vision. Proc Natl Acad Sci USA 1933; 19: 773–777. 10) Mathiesen T, Peredo I, Edner G, et al: Neuronavigation for arteriovenous malformation surgery by intraoperative three-dimensional ultrasound angiography. Neurosurgery 2007; 60: 345–350; discussion 350–351. 7) Inoue D, Yoshimoto K, Uemura M, et al: Three-dimensional high-definition neuroendoscopic surgery: a controlled comparative laboratory study with two-dimensional endoscopy and clinical application. J Neurol Surg A Cent Eur Neurosurg 2013; 74: 357–365. 11 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 20 10 |
| References_xml | – reference: 15) Takahashi M, Tamakawa Y, Goto K, et al: Serial cerebral angiography in stereoscopic magnification. AJR Am J Roentgenol 1976; 126: 1211–1218. – reference: 9) Unsgaard G, Ommedal S, Rygh OM, et al: Operation of arteriovenous malformations assisted by stereoscopic navigation-controlled display of preoperative magnetic resonance angiography and intraoperative ultrasound angiography. Neurosurgery 2007; 61: 407–415; discussion 415–416. – reference: 12) Ohta T, Nagata S, Deguchi J, et al: Three-dimensional image atlas of the cranium/brain/blood vessels. Kinpodo. Kyoto, 1995. – reference: 18) Fernstrom I, Lindblom K: Simultaneous stereoangiography. Acta Radiol 1955; 44: 230–232. – reference: 1) Kong SH, Oh BM, Yoon H, et al: Comparison of two-and three-dimensional camera systems in laparoscopic performance: a novel 3D system with one camera. Surg Endosc 2010; 24: 1132–1143. – reference: 3) LaGrange CA, Clark CJ, Gerber EW, et al: Evaluation of three laparoscopic modalities: robotics versus three-dimensional vision laparoscopy versus standard laparoscopy. J Endourol 2008; 22: 511–516. – reference: 16) Vogelsang H, Dietz K: Stereoscopic magnification in spinal angiography. AJNR Am J Neuroradiol 1983; 4: 588–589. – reference: 5) Yoshida S, Fukui N, Saito K, et al: Novel image monitoring system using a head-mounted display for assistants in da Vinci surgery. Int J Urol 2015; 22: 520–521. – reference: 2) Silvestri M, Simi M, Cavallotti C, et al: Autostereoscopic three-dimensional viewer evaluation through comparison with conventional interfaces in laparoscopic surgery. Surg Innov 2011; 18: 223–230. – reference: 10) Mathiesen T, Peredo I, Edner G, et al: Neuronavigation for arteriovenous malformation surgery by intraoperative three-dimensional ultrasound angiography. Neurosurgery 2007; 60: 345–350; discussion 350–351. – reference: 19) Tobe T, Saito S, Toda N, et al: Simultaneous stereoroentogenography. Gunma J Med Sci 1966; 15: 23–31. – reference: 13) Washburn MF: Retinal rivalry as a neglected factor in stereoscopic vision. Proc Natl Acad Sci USA 1933; 19: 773–777. – reference: 14) Fray WW, Warren SL: Stereoscopic Röntgenography of the Breasts: An Aid in Establishing the Diagnosis of Mastitis and Carcinoma. Ann Surg 1932; 95: 425–432. – reference: 6) Fujiwara K, Fukuhara T, Niimi K, et al: Load evaluation of the da Vinci surgical system for transoral robotic surgery. J Robot Surg 2015; 9: 315–319. – reference: 20) Doi K, Rossmann K, Duda EE: Application of longitudinal magnification effect to magnification stereoscopic angiography: a new method of cerebral angiography. Radiology 1977; 124: 395–401. – reference: 17) Mokrohisky JF, Murtagh F, Paul RE, et al: Biplane stereoscopic cerebral angiography. Acta Radiol 1956; 46: 262–272. – reference: 4) Ito M, Asano Y, Shimizu T, et al: Comparison of standard laparoscopic distal pancreatectomy with minimally invasive distal pancreatectomy using the da Vinci S system. Hepatogastroenterology 2014; 61: 493–496. – reference: 11) Kockro RA, Reisch R, Serra L, et al: Image-guided neurosurgery with 3-dimensional multimodal imaging data on a stereoscopic monitor. Neurosurgery 2013; 72: 78–88. – reference: 7) Inoue D, Yoshimoto K, Uemura M, et al: Three-dimensional high-definition neuroendoscopic surgery: a controlled comparative laboratory study with two-dimensional endoscopy and clinical application. J Neurol Surg A Cent Eur Neurosurg 2013; 74: 357–365. – reference: 8) Rohde V, Hans FJ, Mayfrank L, et al: How useful is the 3-dimensional, surgeon’s perspective-adjusted visualisation of the vessel anatomy during aneurysm surgery? A prospective clinical trial. Neurosurg Rev 2007; 30: 209–217. – ident: 18 doi: 10.3109/00016925509170799 – ident: 1 doi: 10.1007/s00464-009-0740-8 – ident: 4 – ident: 12 – ident: 15 doi: 10.2214/ajr.126.6.1211 – ident: 17 doi: 10.3109/00016925609170836 – ident: 19 – ident: 16 – ident: 20 doi: 10.1148/124.2.395 – ident: 7 doi: 10.1055/s-0033-1345100 – ident: 8 doi: 10.1007/s10143-007-0076-6 – ident: 3 doi: 10.1089/end.2007.0241 – ident: 6 doi: 10.1007/s11701-015-0533-0 – ident: 2 doi: 10.1177/1553350611411491 – ident: 11 doi: 10.1227/NEU.0b013e3182739aae – ident: 10 doi: 10.1227/01.NEU.0000255373.57346.EC – ident: 9 doi: 10.1227/01.neu.0000279232.43202.82 – ident: 13 doi: 10.1073/pnas.19.8.773 – ident: 5 doi: 10.1111/iju.12735 – ident: 14 doi: 10.1097/00000658-193203000-00006 |
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| Title | Usefulness of Three-dimensional Stereoscopic Images for Cerebral Endovascular Treatment |
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