Florian Hellmeier
Overview
Explore the profile of Florian Hellmeier including associated specialties, affiliations and a list of published articles.
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Articles
10
Citations
67
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0
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Recent Articles
1.
Hellmeier F, Bruning J, Berg P, Saalfeld S, Spuler A, Sandalcioglu I, et al.
BMJ Open
. 2022 Nov;
12(11):e063051.
PMID: 36351732
Objectives: Assessing the risk associated with unruptured intracranial aneurysms (IAs) is essential in clinical decision making. Several geometric risk parameters have been proposed for this purpose. However, performance of these...
2.
Hellmeier F, Bruning J, Sundermann S, Jarmatz L, Schafstedde M, Goubergrits L, et al.
Front Cardiovasc Med
. 2021 Feb;
7:593709.
PMID: 33634167
Prediction of aortic hemodynamics after aortic valve replacement (AVR) could help optimize treatment planning and improve outcomes. This study aims to demonstrate an approach to predict postoperative maximum velocity, maximum...
3.
Yevtushenko P, Hellmeier F, Bruening J, Nordmeyer S, Falk V, Knosalla C, et al.
Biophys J
. 2019 Aug;
117(12):2324-2336.
PMID: 31427066
Aortic valve replacement (AVR) does not usually restore physiological flow profiles. Complex flow profiles are associated with aorta dilatation, ventricle remodeling, aneurysms, and development of atherosclerosis. All these affect long-term...
4.
Nordmeyer S, Hellmeier F, Yevtushenko P, Kelm M, Lee C, Lehmann D, et al.
Eur J Cardiothorac Surg
. 2019 May;
57(1):133-141.
PMID: 31131388
Objectives: Complex blood flow profiles in the aorta are known to contribute to vessel dilatation. We studied flow profiles in the aorta in patients with aortic valve disease before and...
5.
Goubergrits L, Hellmeier F, Bruening J, Spuler A, Hege H, Voss S, et al.
Biomed Eng Online
. 2019 Mar;
18(1):35.
PMID: 30909934
Background: Geometric parameters have been proposed for prediction of cerebral aneurysm rupture risk. Predicting the rupture risk for incidentally detected unruptured aneurysms could help clinicians in their treatment decision. However,...
6.
Goubergrits L, Hellmeier F, Neumann D, Mihalef V, Gulsun M, Chinali M, et al.
J Magn Reson Imaging
. 2018 Nov;
49(1):81-89.
PMID: 30390353
Background: Invasive peak-to-peak pressure gradients are the current clinical reference standard for assessing aortic coarctation. To obtain them, patients need to undergo arterial heart catheterization. Unless an intervention is performed,...
7.
Bruning J, Hellmeier F, Yevtushenko P, Kuhne T, Goubergrits L
Cardiovasc Eng Technol
. 2018 Oct;
9(4):582-596.
PMID: 30284186
Purpose: Numerical assessment of the pressure drop across an aortic coarctation using CFD is a promising approach to replace invasive catheter-based measurements. The aim of this study was to investigate...
8.
Fernandes J, Alves R, Ferreira da Silva T, Nordmeyer S, Hellmeier F, Goubergrits L, et al.
JACC Cardiovasc Imaging
. 2018 May;
11(11):1725-1727.
PMID: 29778860
No abstract available.
9.
Hellmeier F, Nordmeyer S, Yevtushenko P, Bruening J, Berger F, Kuehne T, et al.
Artif Organs
. 2017 Aug;
42(1):49-57.
PMID: 28853220
Modeling different treatment options before a procedure is performed is a promising approach for surgical decision making and patient care in heart valve disease. This study investigated the hemodynamic impact...
10.
Fernandes J, Goubergrits L, Bruning J, Hellmeier F, Nordmeyer S, Ferreira da Silva T, et al.
PLoS One
. 2017 Jan;
12(1):e0168487.
PMID: 28081162
Background: In aortic coarctation, current guidelines recommend reducing pressure gradients that exceed given thresholds. From a physiological standpoint this should ideally improve the energy expenditure of the heart and thus...