Fiete Boehning
Overview
Explore the profile of Fiete Boehning including associated specialties, affiliations and a list of published articles.
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11
Citations
49
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Recent Articles
1.
Wu P, Gross-Hardt S, Boehning F, Hsu P
Biomech Model Mechanobiol
. 2019 Oct;
19(2):591-602.
PMID: 31612342
Hemolysis is a major concern in blood-circulating devices, which arises due to non-physiological stresses on red blood cells from ambient flow environment or moving mechanical structures. Computational fluid dynamics (CFD)...
2.
Gross-Hardt S, Sonntag S, Boehning F, Steinseifer U, Schmitz-Rode T, Kaufmann T
ASAIO J
. 2019 Jun;
65(8):864-873.
PMID: 31192838
The suitability of computational fluid dynamics (CFD) as a regulatory tool for safety assessment of medical devices is still limited: A lack of standardized validation and evaluation methods impairs the...
3.
Gross-Hardt S, Boehning F, Steinseifer U, Schmitz-Rode T, Kaufmann T
J Biomech Eng
. 2018 Nov;
141(2).
PMID: 30458464
The reduction of excessive, nonphysiologic shear stresses leading to blood trauma can be the key to overcome many of the associated complications in blood recirculating devices. In that regard, computational...
4.
Wu P, Boehning F, Gross-Hardt S, Hsu P
Artif Organs
. 2018 Oct;
42(10):E290-E303.
PMID: 30375677
Hemolysis is one of the most challenging issues faced by blood contacting devices. Empirical hemolysis models often relate hemolysis to shear stress and exposure time. These models were generally derived...
5.
Hsu P, McIntyre M, Boehning F, Dang W, Parker J, Autschbach R, et al.
Artif Organs
. 2015 Oct;
40(6):561-7.
PMID: 26511211
Right heart failure (RHF) is a serious health issue with increasing incidence and high mortality. Right ventricular assist devices (RVADs) have been used to support the end-stage failing right ventricle...
6.
Hsu P, Graefe R, Boehning F, Wu C, Parker J, Autschbach R, et al.
Int J Artif Organs
. 2014 Sep;
37(9):697-705.
PMID: 25262631
Right ventricular assistance is still in the early phase of development compared to left ventricular assist device (LVAD) technology. In order to provide flexible pulmonary support and potentially reduce the...
7.
Boehning F, Mejia T, Schmitz-Rode T, Steinseifer U
Artif Organs
. 2014 May;
38(9):761-5.
PMID: 24867102
Reducing hemolysis has been one of the major goals of rotary blood pump development and in the investigational phase, the capability of hemolysis estimation for areas of elevated shear stresses...
8.
Boehning F, Timms D, Hsu P, Schmitz-Rode T, Steinseifer U
Artif Organs
. 2013 May;
37(10):913-20.
PMID: 23634963
Rotary blood pumps (RBPs) have demonstrated considerable promise while treating heart failure patients, such that they are being placed at an earlier stage of the disease. These devices may therefore...
9.
Boehning F, Timms D, Amaral F, Oliveira L, Graefe R, Hsu P, et al.
Artif Organs
. 2011 Aug;
35(8):818-25.
PMID: 21843297
In many state-of-the-art rotary blood pumps for long-term ventricular assistance, the impeller is suspended within the casing by magnetic or hydrodynamic means. For the design of such suspension systems, profound...
10.
Artzi N, Zeiger A, Boehning F, Bon Ramos A, Vliet K, Edelman E
Acta Biomater
. 2010 Jul;
7(1):67-74.
PMID: 20624496
Soft tissue adhesives are employed to repair and seal many different organs, which range in both tissue surface chemistry and mechanical challenges during organ function. This complexity motivates the development...