167 research outputs found
Finite Element Analysis of Hepatic Radiofrequency Ablation Probes using Temperature-Dependent Electrical Conductivity
BACKGROUND: Few finite element models (FEM) have been developed to describe the electric field, specific absorption rate (SAR), and the temperature distribution surrounding hepatic radiofrequency ablation probes. To date, a coupled finite element model that accounts for the temperature-dependent electrical conductivity changes has not been developed for ablation type devices. While it is widely acknowledged that accounting for temperature dependent phenomena may affect the outcome of these models, the effect has not been assessed. METHODS: The results of four finite element models are compared: constant electrical conductivity without tissue perfusion, temperature-dependent conductivity without tissue perfusion, constant electrical conductivity with tissue perfusion, and temperature-dependent conductivity with tissue perfusion. RESULTS: The data demonstrate that significant errors are generated when constant electrical conductivity is assumed in coupled electrical-heat transfer problems that operate at high temperatures. These errors appear to be closely related to the temperature at which the ablation device operates and not to the amount of power applied by the device or the state of tissue perfusion. CONCLUSION: Accounting for temperature-dependent phenomena may be critically important in the safe operation of radiofrequency ablation device that operate near 100°C
Direct cooling of the catheter tip increases safety for CMR-guided electrophysiological procedures
<p>Abstract</p> <p>Background</p> <p>One of the safety concerns when performing electrophysiological (EP) procedures under magnetic resonance (MR) guidance is the risk of passive tissue heating due to the EP catheter being exposed to the radiofrequency (RF) field of the RF transmitting body coil. Ablation procedures that use catheters with irrigated tips are well established therapeutic options for the treatment of cardiac arrhythmias and when used in a modified mode might offer an additional system for suppressing passive catheter heating.</p> <p>Methods</p> <p>A two-step approach was chosen. Firstly, tests on passive catheter heating were performed in a 1.5 T Avanto system (Siemens Healthcare Sector, Erlangen, Germany) using a ASTM Phantom in order to determine a possible maximum temperature rise. Secondly, a phantom was designed for simulation of the interface between blood and the vascular wall. The MR-RF induced temperature rise was simulated by catheter tip heating via a standard ablation generator. Power levels from 1 to 6 W were selected. Ablation duration was 120 s with no tip irrigation during the first 60 s and irrigation at rates from 2 ml/min to 35 ml/min for the remaining 60 s (Biotronik Qiona Pump, Berlin, Germany). The temperature was measured with fluoroscopic sensors (Luxtron, Santa Barbara, CA, USA) at a distance of 0 mm, 2 mm, 4 mm, and 6 mm from the catheter tip.</p> <p>Results</p> <p>A maximum temperature rise of 22.4°C at the catheter tip was documented in the MR scanner. This temperature rise is equivalent to the heating effect of an ablator's power output of 6 W at a contact force of the weight of 90 g (0.883 N). The catheter tip irrigation was able to limit the temperature rise to less than 2°C for the majority of examined power levels, and for all examined power levels the residual temperature rise was less than 8°C.</p> <p>Conclusion</p> <p>Up to a maximum of 22.4°C, the temperature rise at the tissue surface can be entirely suppressed by using the catheter's own irrigation system. The irrigated tip system can be used to increase MR safety of EP catheters by suppressing the effects of unwanted passive catheter heating due to RF exposure from the MR scanner.</p
Broadband Dielectric Spectroscopy on Human Blood
Dielectric spectra of human blood reveal a rich variety of dynamic processes.
Achieving a better characterization and understanding of these processes not
only is of academic interest but also of high relevance for medical
applications as, e.g., the determination of absorption rates of electromagnetic
radiation by the human body. The dielectric properties of human blood are
studied using broadband dielectric spectroscopy, systematically investigating
the dependence on temperature and hematocrit value. By covering a frequency
range from 1 Hz to 40 GHz, information on all the typical dispersion regions of
biological matter is obtained. We find no evidence for a low-frequency
relaxation (alpha-relaxation) caused, e.g., by counterion diffusion effects as
reported for some types of biological matter. The analysis of a strong
Maxwell-Wagner relaxation arising from the polarization of the cell membranes
in the 1-100 MHz region (beta-relaxation) allows for the test of model
predictions and the determination of various intrinsic cell properties. In the
microwave region beyond 1 GHz, the reorientational motion of water molecules in
the blood plasma leads to another relaxation feature (gamma-relaxation).
Between beta- and gamma-relaxation, significant dispersion is observed, which,
however, can be explained by a superposition of these relaxation processes and
is not due to an additional delta-relaxation often found in biological matter.
Our measurements provide dielectric data on human blood of so far unsurpassed
precision for a broad parameter range. All data are provided in electronic form
to serve as basis for the calculation of the absorption rate of electromagnetic
radiation and other medical purposes. Moreover, by investigating an
exceptionally broad frequency range, valuable new information on the dynamic
processes in blood is obtained.Comment: 17 pages, 9 figure
Valuing the carbon exposure of European utilities. The role of fuel mix, permit allocation and replacement investments
This paper assesses the carbon exposure of European electric utilities covered by the EU Emissions Trading System (EU ETS). First, we rely on an asset pricing model to empirically determine the effect of carbon price risks on firm-specific cost of capital for a sample of 20 European utility stocks during the period 2005-2010. Second, we employ a discounted cash flow framework to simulate carbon-adjusted equity values for three selected utilities and their investment strategies from 2009 to 2020. We show that company-specific carbon risks are asymmetrically distributed to a few utility firms: While for the great majority of power producers carbon price movements are not a relevant risk factor, we find that utilities with an extremely high-emitting fuel mix bear significant risk premiums for carbon which translate to higher cost of capital and a loss of equity value. In contrast, we find no evidence that low-emitting utilities benefit from reduced capital costs. We further reveal that, in addition to the firm's fuel mix, permit allocation rules and replacement investment decisions in terms of fuel technology choice are the driving forces behind the carbon exposure of the utilities. The carbon-related loss of equity value is substantially reduced by implementing an investment strategy directed towards a carbon-free generation mix. The derogations from full permit auctioning in Eastern European member states provide insurance against carbon risks of utilities. (C) 2012 Elsevier B.V. All rights reserved
The Success of the Activist Investor Guy Wyser-Pratte in Continental Europe
This paper analyses the investments of US activist investor Guy Wyser-Pratte in listed companies in Germany, France, Austria and Switzerland between the years 2001 and 2011. Wyser-Pratte is the best known single activist investor in Continental Europe whose investments have typically been followed intensively by the press. For the first time, this study examines the investment activities of a single activist investor with key focus on Continental Europe and complements the few existing studies on single activist investors and their focus on Anglo-Saxon jurisdictions. The results show that he approaches poor performing companies and that his investment activities increase the short- and long-term shareholder value. Key differentiator to existing research is the focus of Wyser-Pratte on improving the profitability of his target companies. This new insight can be interpreted as an indicator that value generation by shareholder activism works different in the institutional setting of Continental Europe
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