Your search keyword '"Balloon test occlusion"' showing total 5 results

1. Virtual test occlusion for assessing ischemic tolerance using computational fluid dynamics.

Author

Tomoyoshi Kuribara, Takeshi Mikami, Satoshi Iihoshi, Toru Hirano, Daisuke Sasamori, Tadashi Nonaka, and Nobuhiro Mikuni

Subjects

COMPUTATIONAL fluid dynamics, COMPUTED tomography, ARTERIAL occlusions, REFERENCE values, INTRACRANIAL aneurysms

Abstract

Background: Ischemic tolerance has been evaluated by the balloon test occlusion (BTO) for cerebral aneurysms and tumors that might require parent artery occlusion during surgery. However, because of its invasiveness, a non-invasive evaluation method is needed. In this study, we assessed the possibility of virtual test occlusion using computational fluid dynamics (CFD) as a non-invasive alternative to BTO for evaluating ischemic tolerance. Methods: Twenty-one patients who underwent BTO were included in the study. Virtual test occlusion was performed using CFD analysis, and the flow rate (FR) and wall shear stress (WSS) of the middle cerebral artery on the occlusion side were calculated. The correlations between these parameters and examination data including the parameters of computed tomography perfusion during BTO were assessed and the cutoff value of CFD parameters for detecting the good collateral group was calculated. Results: The FR was strongly correlated with mean transit time (MTT) during BTO and moderately correlated with collateral flow grade based on angiographic appearance. The WSS was moderately correlated with collateral flow grade, mean stump pressure (MSP), and MTT. Furthermore, the FR and WSS were strongly correlated with the total FR and the diameters of the inlet vessels. The cutoff value of FR for detecting the good collateral group was 126.2 mL/min, while that of the WSS was 4.54 Pa. Conclusion: The parameters obtained through CFD analysis were correlated with collateral flow grade and MSP in addition to MTT. CFD analysis may be useful to evaluate ischemic tolerance as a non-invasive alternative to BTO. [ABSTRACT FROM AUTHOR]

Published

2021

2. Virtual test occlusion for assessing ischemic tolerance using computational fluid dynamics

Author

Takeshi Mikami, Satoshi Iihoshi, Tadashi Nonaka, Tomoyoshi Kuribara, Nobuhiro Mikuni, Daisuke Sasamori, and Toru Hirano

Subjects

Balloon test occlusion, Computed tomography perfusion, business.industry, Wall share stress, Computational fluid dynamics, Flow rate, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine.artery, Middle cerebral artery, Occlusion, Evaluation methods, medicine, Virtual test, Cutoff, Original Article, Surgery, Neurology (clinical), business, Nuclear medicine, 030217 neurology & neurosurgery

Abstract

Background: Ischemic tolerance has been evaluated by the balloon test occlusion (BTO) for cerebral aneurysms and tumors that might require parent artery occlusion during surgery. However, because of its invasiveness, a non-invasive evaluation method is needed. In this study, we assessed the possibility of virtual test occlusion using computational fluid dynamics (CFD) as a non-invasive alternative to BTO for evaluating ischemic tolerance. Methods: Twenty-one patients who underwent BTO were included in the study. Virtual test occlusion was performed using CFD analysis, and the flow rate (FR) and wall shear stress (WSS) of the middle cerebral artery on the occlusion side were calculated. The correlations between these parameters and examination data including the parameters of computed tomography perfusion during BTO were assessed and the cutoff value of CFD parameters for detecting the good collateral group was calculated. Results: The FR was strongly correlated with mean transit time (MTT) during BTO and moderately correlated with collateral flow grade based on angiographic appearance. The WSS was moderately correlated with collateral flow grade, mean stump pressure (MSP), and MTT. Furthermore, the FR and WSS were strongly correlated with the total FR and the diameters of the inlet vessels. The cutoff value of FR for detecting the good collateral group was 126.2 mL/min, while that of the WSS was 4.54 Pa. Conclusion: The parameters obtained through CFD analysis were correlated with collateral flow grade and MSP in addition to MTT. CFD analysis may be useful to evaluate ischemic tolerance as a non-invasive alternative to BTO.

Published

2021

3. Virtual test occlusion for assessing ischemic tolerance using computational fluid dynamics.

Author

Kuribara T, Mikami T, Iihoshi S, Hirano T, Sasamori D, Nonaka T, and Mikuni N

Abstract

Background: Ischemic tolerance has been evaluated by the balloon test occlusion (BTO) for cerebral aneurysms and tumors that might require parent artery occlusion during surgery. However, because of its invasiveness, a non-invasive evaluation method is needed. In this study, we assessed the possibility of virtual test occlusion using computational fluid dynamics (CFD) as a non-invasive alternative to BTO for evaluating ischemic tolerance., Methods: Twenty-one patients who underwent BTO were included in the study. Virtual test occlusion was performed using CFD analysis, and the flow rate (FR) and wall shear stress (WSS) of the middle cerebral artery on the occlusion side were calculated. The correlations between these parameters and examination data including the parameters of computed tomography perfusion during BTO were assessed and the cutoff value of CFD parameters for detecting the good collateral group was calculated., Results: The FR was strongly correlated with mean transit time (MTT) during BTO and moderately correlated with collateral flow grade based on angiographic appearance. The WSS was moderately correlated with collateral flow grade, mean stump pressure (MSP), and MTT. Furthermore, the FR and WSS were strongly correlated with the total FR and the diameters of the inlet vessels. The cutoff value of FR for detecting the good collateral group was 126.2 mL/min, while that of the WSS was 4.54 Pa., Conclusion: The parameters obtained through CFD analysis were correlated with collateral flow grade and MSP in addition to MTT. CFD analysis may be useful to evaluate ischemic tolerance as a non-invasive alternative to BTO., Competing Interests: There are no conflicts of interest., (Copyright: © 2021 Surgical Neurology International.)

Published

2021

4. Endovascular management of fusiform aneurysm of anterior temporal artery: Technical report

Author

Maximillian K Kole, Aqueel H. Pabaney, Paul Mazaris, and Kevin A. Reinard

Subjects

medicine.medical_specialty, business.industry, Anterior temporal artery, Fusiform Aneurysm, computer.software_genre, coil occlusion, Text mining, Balloon test occlusion, balloon test occlusion, Technical Note, cardiovascular system, Coil occlusion, Medicine, fusiform aneurysm, Surgery, cardiovascular diseases, Neurology (clinical), Radiology, Data mining, business, computer

Abstract

Background: The treatment of a rare, nontraumatic, fusiform aneurysm of the anterior temporal artery (ATA) via endovascular techniques is presented, and procedural nuances are highlighted. Methods: We performed a retrospective chart review and collected demographic and clinical data on the patient presented here; procedural details were extracted from operative notes. Results: Following successful balloon test occlusion (BTO) of the ATA, complete coil embolization of the ATA, and its associated fusiform aneurysm was performed. Postprocedurally, the patient did not suffer any adverse neurological sequelae. Conclusion: Selective BTO of intracranial branch vessels is safe, technically feasible, and could serve as a useful technical tool in the treatment of complex, fusiform intracranial aneurysms.

Published

2015

5. Endovascular management of fusiform aneurysm of anterior temporal artery: Technical report.

Author

Pabaney AH, Mazaris PA, Kole MK, and Reinard KA

Abstract

Background: The treatment of a rare, nontraumatic, fusiform aneurysm of the anterior temporal artery (ATA) via endovascular techniques is presented, and procedural nuances are highlighted., Methods: We performed a retrospective chart review and collected demographic and clinical data on the patient presented here; procedural details were extracted from operative notes., Results: Following successful balloon test occlusion (BTO) of the ATA, complete coil embolization of the ATA, and its associated fusiform aneurysm was performed. Postprocedurally, the patient did not suffer any adverse neurological sequelae., Conclusion: Selective BTO of intracranial branch vessels is safe, technically feasible, and could serve as a useful technical tool in the treatment of complex, fusiform intracranial aneurysms.

Published

2015