Manufacturing Patient-Specific Phantoms to Treat Aneurysms Using Rotational Angiography and 3-D Modeling

被引:0
|
作者
O'Hara, Ryan P. [1 ]
Iacobucci, Gary [1 ]
Russ, Megan [1 ]
Ionita, Ciprian [1 ]
机构
[1] SUNY Buffalo, Clin Translat Res Ctr, Dept Biomed Engn, Buffalo, NY 14260 USA
来源
PROCEEDINGS OF THE ASME INTERNATIONAL DESIGN ENGINEERING TECHNICAL CONFERENCES AND COMPUTERS AND INFORMATION IN ENGINEERING CONFERENCE, 2014, VOL 3 | 2014年
关键词
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The purpose of this study is to manufacture a patient-specific phantom containing multiple aneurysms that can be observed and tested to determine the need for interventional treatment. The vasculatures for the phantoms are taken from unhealthy individuals using rotational angiography as part of a stroke study. Different neurovascular sections exhibiting aneurysms from five patients were combined into a single Circle of Willis with 3D modeling software. Physicians and investigators can use this phantom to test treatment options, such as catheter interventions involving stents and coils.
引用
收藏
页数:2
相关论文
共 50 条
  • [1] Patient-specific computational modeling of cerebral aneurysms with multiple avenues of flow from 3D rotational angiography images
    Castro, Marcelo A.
    Putman, Christopher M.
    Cebral, Juan R.
    ACADEMIC RADIOLOGY, 2006, 13 (07) : 811 - 821
  • [2] Patient-Specific Computational Hemodynamics of Intracranial Aneurysms from 3D Rotational Angiography and CT Angiography: An In Vivo Reproducibility Study
    Geers, A. J.
    Larrabide, I.
    Radaelli, A. G.
    Bogunovic, H.
    Kim, M.
    van Andel, H. A. F. Gratama
    Majoie, C. B.
    VanBavel, E.
    Frangi, A. F.
    AMERICAN JOURNAL OF NEURORADIOLOGY, 2011, 32 (03) : 581 - 586
  • [3] Patient-specific hemodynamics modeling of carotid artery stenosis in a swine model based on 3D rotational angiography
    Yao, Qinghe
    Zhu, Hongkun
    Wang, Weizhu
    Shen, Yongting
    Liu, Zhong
    Wang, Jinshan
    Shi, Zhongsong
    BIOMEDICAL SIGNAL PROCESSING AND CONTROL, 2021, 70
  • [4] Patient-specific reconstruction with 3D modeling and DMLS additive manufacturing
    Salmi, Mika
    Tuomi, Jukka
    Paloheimo, Kaija-Stiina
    Bjorkstrand, Roy
    Paloheimo, Markku
    Salo, Jari
    Kontio, Risto
    Mesimaki, Karri
    Makitie, Antti A.
    RAPID PROTOTYPING JOURNAL, 2012, 18 (03) : 209 - 214
  • [5] Modelling and manufacturing of 3D-printed, patient-specific, and anthropomorphic gastric phantoms: a pilot study
    Kwon, Jinhee
    Choi, Joonmyeong
    Lee, Sangwook
    Kim, Minkyeong
    Park, Yoon Kyung
    Park, Do Hyun
    Kim, Namkug
    SCIENTIFIC REPORTS, 2020, 10 (01)
  • [6] Modelling and manufacturing of 3D-printed, patient-specific, and anthropomorphic gastric phantoms: a pilot study
    Jinhee Kwon
    Joonmyeong Choi
    Sangwook Lee
    Minkyeong Kim
    Yoon Kyung Park
    Do Hyun Park
    Namkug Kim
    Scientific Reports, 10
  • [7] Development of patient-specific molecular imaging phantoms using a 3D printer
    Gear, J. I.
    Long, C.
    Rushforth, D.
    Chittenden, S. J.
    Cummings, C.
    Flux, G. D.
    MEDICAL PHYSICS, 2014, 41 (08) : 525 - 527
  • [8] Development of patient-specific phantoms for verification of SBRT planning using 3D printer
    Hong, C. S.
    Oh, D.
    Ju, S. G.
    Kim, M.
    Koo, B. Y.
    Park, H. C.
    Choi, D. H.
    Pyo, H.
    RADIOTHERAPY AND ONCOLOGY, 2017, 123 : S399 - S400
  • [9] PATIENT-SPECIFIC 3-D LUNG MODELING: THE FUTURE OF PRECISION LUNG CANCER SURGERY?
    Baig, Mirza Zain
    Muslim, Zaid
    Bhora, Faiz
    CHEST, 2020, 158 (04) : 1441A - 1441A
  • [10] Evaluation of 3D Filaments for Creating Patient-Specific Radiotherapeutic Phantoms
    Adamovics, J.
    Li, F.
    Dona, O.
    Wang, Y.
    Adamovics, A.
    Wuu, C.
    MEDICAL PHYSICS, 2021, 48 (06)
12345