Finite Element Analysis

"Finite Element Analysis" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

A computer based method of simulating or analyzing the behavior of structures or components.

Descriptor ID	D020342
MeSH Number(s)	E05.355
Concept/Terms	Finite Element Analysis Finite Element Analysis Analysis, Finite Element Analyses, Finite Element Element Analyses, Finite Element Analysis, Finite Finite Element Analyses

Below are MeSH descriptors whose meaning is more general than "Finite Element Analysis".

Analytical, Diagnostic and Therapeutic Techniques and Equipment [E]
Investigative Techniques [E05]
Finite Element Analysis [E05.355]

Below are MeSH descriptors whose meaning is related to "Finite Element Analysis".

Below are MeSH descriptors whose meaning is more specific than "Finite Element Analysis".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Finite Element Analysis" by people in this website by year, and whether "Finite Element Analysis" was a major or minor topic of these publications.

Bar chart showing 8 publications over 8 distinct years, with a maximum of 1 publications in 2003 and 2007 and 2013 and 2014 and 2015 and 2016 and 2017 and 2018

To see the data from this visualization as text, click here.

Year	Major Topic	Minor Topic	Total
2003	0	1	1
2007	0	1	1
2013	0	1	1
2014	0	1	1
2015	0	1	1
2016	1	0	1
2017	0	1	1
2018	0	1	1

Below are the most recent publications written about "Finite Element Analysis" by people in Profiles.

Chiu WK, Vien BS, Russ M, Fitzgerald M. Towards a Non-Invasive Technique for Healing Assessment of Internally Fixated Femur. Sensors (Basel). 2019 Feb 19; 19(4).

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Zhu L, Cui Q, Xiao H, Liao X, Chen X. Gating and inactivation of mechanosensitive channels of small conductance: A continuum mechanics study. J Mech Behav Biomed Mater. 2019 02; 90:502-514.

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Mourdoukoutas AP, Truong DQ, Adair DK, Simon BJ, Bikson M. High-Resolution Multi-Scale Computational Model for Non-Invasive Cervical Vagus Nerve Stimulation. Neuromodulation. 2018 Apr; 21(3):261-268.

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Atefi SR, Seoane F, Kamalian S, Rosenthal ES, Lev MH, Bonmassar G. Intracranial hemorrhage alters scalp potential distribution in bioimpedance cerebral monitoring: Preliminary results from FEM simulation on a realistic head model and human subjects. Med Phys. 2016 Feb; 43(2):675-86.

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Iannaccone F, De Beule M, De Bock S, Van der Bom IM, Gounis MJ, Wakhloo AK, Boone M, Verhegghe B, Segers P. A Finite Element Method to Predict Adverse Events in Intracranial Stenting Using Microstents: In Vitro Verification and Patient Specific Case Study. Ann Biomed Eng. 2016 Feb; 44(2):442-52.

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Wu LP, Huang YQ, Manas D, Chen YY, Fan JH, Mo HG. Real-time monitoring of stresses and displacements in cervical nuclei pulposi during cervical spine manipulation: a finite element model analysis. J Manipulative Physiol Ther. 2014 Oct; 37(8):561-8.

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Rudnicki MS, Cirka HA, Aghvami M, Sander EA, Wen Q, Billiar KL. Nonlinear strain stiffening is not sufficient to explain how far cells can feel on fibrous protein gels. Biophys J. 2013 Jul 02; 105(1):11-20.

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Szikora I, Paal G, Ugron A, Nasztanovics F, Marosfoi M, Berentei Z, Kulcsar Z, Lee W, Bojtar I, Nyary I. Impact of aneurysmal geometry on intraaneurysmal flow: a computerized flow simulation study. Neuroradiology. 2008 May; 50(5):411-21.

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Cha KS, Balaras E, Lieber BB, Sadasivan C, Wakhloo AK. Modeling the interaction of coils with the local blood flow after coil embolization of intracranial aneurysms. J Biomech Eng. 2007 Dec; 129(6):873-79.

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King OD, Masel J. The evolution of bet-hedging adaptations to rare scenarios. Theor Popul Biol. 2007 Dec; 72(4):560-75.

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