W Kerkhoffs scite author profile

W Kerkhoffs

5Publications

55Citation Statements Received

28Citation Statements Given

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Affiliations

Colgate-Palmolive (United States), Helmholtz Institute Mainz

Publications

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Investigation of the Washout Effect in a Magnetically Driven Axial Blood Pump

Triep

Brücker

Kerkhoffs³

et al. 2008

Artificial Organs

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For a long‐term implementation of the magnetically driven CircuLite blood pump system, it is extremely important to be able to ensure a minimum washout flow in order to avoid dangerous stagnation regions in the gap between the impeller and the motor casing as well as near the pivot–axle area at the holes in the impeller's hub. In general, stagnation zones are prone to thrombus formation. Here, the optimal impeller/motor gap width will be determined and the washout flow for different working conditions will be quantitatively calculated. The driving force for this secondary flow is mainly the strong pressure difference between both ends of the gap. Computational fluid dynamics (CFD) and digital particle image velocimetry (DPIV) will be used for this analysis.

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Collected Nondimensional Performance of Rotary Dynamic Blood Pumps

Smith

Allaire²,

Antaki³

et al. 2004

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"Nonpulsatile" or "continuous flow" blood pumps are a relatively new application of the rotary dynamic blood pumping principle. They fall outside the normal envelop of pumps, considering their small size, viscosity of the fluid pumped, need for particularly good internal flow patterns, and desire for high efficiency. This article establishes the state of the art in the field of blood pump performance. Trends in efficiency, shut off pressure coefficient, and nondimensional power behavior as a function of nondimensional flow are identified. Blood pumps show agreement with the published effects of low Reynolds numbers in conventional pumps.

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Design, Development, and First In Vivo Results of an Implantable Ventricular Assist Device, MicroVad

Kerkhoffs¹,

Schumacher²,

Meyns

et al. 2004

Artificial Organs

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The design concept and first in vitro and in vivo results of a long-term implantable ventricular assist device system based on a microaxial blood pump are presented. The blood-immersed parts of the pump consist of a single-stage impeller and a proximally integrated microelectric motor. Both parts are surrounded by a pump housing currently made of polycarbonate to allow visible access to the blood-exposed parts. A titanium inflow cage attached to the tip of the housing is directly implanted into the left ventricular apex. The outflow of the pump is connected to the descending aorta by means of an e-PTFE graft. The overall dimensions of the device are 12 mm in outer diameter and about 50 mm in length. The calculated lifetime of the device is up to 2 years. The system underwent long-term durability tests, hydraulic performance tests, dynamic stability tests, and in vitro hemolysis and thrombogenicity tests. Furthermore, animal tests have been performed in adult Dorset sheep. In a first series, the pump has been placed extracorporeally; in a second series, the pump was completely implanted. Mean duration of the animal experiments of the second series was 31 days (range 8-110 days, n=14); no anticoagulation was administered over the whole test period. Blood data revealed no significant changes in blood cell counts, ionogram, or any other value. No end-organ dysfunction induced by long-term support could be observed, nor did the pathology reveal any evidence of thromboembolic complications.

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Investigation of Materials for Blood‐Immersed Bearings in a Microaxial Blood Pump

Mahmood¹,

Kerkhoffs²,

Schumacher³

et al. 2003

Artificial Organs

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Rotary blood pumps are gaining popularity among cardiothoracic surgeons. This article presents an in vitro investigation for choosing a suitable mechanical bearing system in a medium-long term microaxial pump. Different metallic, polymeric, and ceramic components are introduced. Polymers displayed mechanical insufficiency for the application, whereas certain ceramics displayed an inconsistent pattern of failure. We are in search of a compromise in properties that would favor a durable material combination.

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Intravascular Micropump for Augmented Liver Perfusion: First In Vivo Experience

et al. 2001

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The aim of this study was to assess the in vivo performance of a new microaxial rotary blood pump developed for long-term intraportal implantation. The pump, measuring 7 mm in diameter, has a single stage impeller and is powered by a microelectric motor. The pump was implanted into the portal vein in 13 large white pigs under general anesthesia. All animals recovered after the portal pump implantation, and they were observed until the pump failed. The 2 longest running pumps performed for 40 and 36 h, respectively. Either thrombus formation or technical problems, especially in the bearings, were the main causes of pump failure during the experiment. No local or systemic adverse effects were observed during the portal pumping period. Full recovery of the animals following intraportal pump implantation was achieved. However, further technical improvements to the pump are required to maintain a longer performance in vivo.

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W Kerkhoffs

Investigation of the Washout Effect in a Magnetically Driven Axial Blood Pump

Collected Nondimensional Performance of Rotary Dynamic Blood Pumps

Design, Development, and First In Vivo Results of an Implantable Ventricular Assist Device, MicroVad

Investigation of Materials for Blood‐Immersed Bearings in a Microaxial Blood Pump

Intravascular Micropump for Augmented Liver Perfusion: First In Vivo Experience

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