Modeling and biomechanical analysis of craniosynostosis correction with the use of finite element method

被引:22
|
作者
Wolanski, Wojciech [1 ]
Larysz, Dawid [2 ]
Gzik, Marek [1 ]
Kawlewska, Edyta [1 ]
机构
[1] Silesian Tech Univ, Dept Biomechatron, Gliwice, Poland
[2] Med Univ Silesia, Dept Neurosurg, Katowice, Poland
来源
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN BIOMEDICAL ENGINEERING | 2013年 / 29卷 / 09期
关键词
craniosynostosis; biomechanics; preoperative planning; modeling; skull; MANAGEMENT; SUTURE; SKULL;
D O I
10.1002/cnm.2506
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Craniosynostosis is a skull malformation because of premature fusing of one or more cranial sutures. The most common types of craniosynostosis are scaphocephaly (with the sagittal suture fused) and trigonocephaly (with the metopic suture fused). In this paper we describe and discuss how finite element analysis and three-dimensional modeling can be used for preoperative planning of the correction of craniosynostosis and for the postoperative evaluation of the treatment results. We used the engineering software MIMICS MATERIALISE to obtain three-dimensional geometry from computed tomography scans, and applied finite element method for the sake of biomechanical analysis. These simulations help to improve the surgical treatment, making it more accurate, safer, and faster. Copyright (c) 2012 John Wiley & Sons, Ltd.
引用
收藏
页码:916 / 925
页数:10
相关论文
共 50 条
  • [41] Biomechanical finite element analysis of the developing craniocervical junction
    Brockmeyer, Douglas L.
    Ellis, Ben
    Phuntsok, Rinchen
    JOURNAL OF NEUROSURGERY, 2018, 128 (04) : 29 - 29
  • [42] Biomechanical analysis for five fixation techniques of Pauwels-III fracture by finite element modeling
    Peng, Matthew Jian-Qiao
    Xu, HongWen
    Chen, Hai-Yan
    Lin, Ze
    Li, XinXu
    Shen, ChuLong
    Lau, YongQiang
    He, ErXing
    Guo, YueMing
    COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE, 2020, 193
  • [43] Three-dimensional finite element analysis of the pelvic organ prolapse: A parametric biomechanical modeling
    Babayi, Masumeh
    Azghani, Mahmood-Reza
    Hajebrahimi, Sakineh
    Berghmans, Bary
    NEUROUROLOGY AND URODYNAMICS, 2019, 38 (02) : 591 - 598
  • [44] Use of finite element method for deeper analysis of rotary piercing
    Kawalla, R
    Höfer, E
    Lehmann, G
    Lehnert, W
    METAL FORMING 2000, 2000, : 229 - 235
  • [45] Biomechanical simulation of the Falx cerebri using the finite element method
    Schill, M
    Schinkman, M
    Bender, HJ
    Manner, R
    PROCEEDINGS OF THE 18TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOL 18, PTS 1-5, 1997, 18 : 163 - 164
  • [46] Automated surgical planning in spring-assisted sagittal craniosynostosis correction using finite element analysis and machine learning
    Jacob, Jenson
    Bozkurt, Selim
    PLOS ONE, 2023, 18 (11):
  • [47] Biomechanical research on operations of Hangmann fracture with finite element method
    Yang Guo-biao
    Ding Zhu-quan
    Wu Kui
    Wang Dongfang
    Experimental Mechanics in Nano and Biotechnology, Pts 1 and 2, 2006, 326-328 : 803 - 806
  • [48] Biomechanical effects of different loads and constraints on finite element modeling of the humerus
    Islam, Sabrina
    Gide, Kunal
    Schemitsch, Emil H.
    Bougherara, Habiba
    Zdero, Radovan
    Bagheri, Z. Shaghayegh
    COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING, 2023,
  • [49] Finite element approach applied to human digital model for biomechanical modeling
    Chamoret, D.
    Peyraut, F.
    Gomes, S.
    Feng, Z. -Q.
    INTERNATIONAL JOURNAL OF INTERACTIVE DESIGN AND MANUFACTURING - IJIDEM, 2010, 4 (01): : 75 - 82
  • [50] Biomechanical properties of the rat sclera obtained with inverse finite element modeling
    Schwaner, Stephen A.
    Hannon, Bailey G.
    Feola, Andrew J.
    Ethier, C. Ross
    BIOMECHANICS AND MODELING IN MECHANOBIOLOGY, 2020, 19 (06) : 2195 - 2212
12345