Your search keyword '"Horvath, David P."' showing total 31 results

1. Characterization and Development of Universal Ventricular Assist Device: Computational Fluid Dynamics Analysis of Advanced Design

Author

Goodin, Mark S., Showalter, Michael S., Horvath, David J., Kuban, Barry D., Flick, Christine R., Polakowski, Anthony R., Fukamachi, Kiyotaka, and Karimov, Jamshid H.

Abstract

We are developing a universal, advanced ventricular assist device (AVAD) with automatic pressure regulation suitable for both left and right ventricular support. The primary goal of this computational fluid dynamics (CFD) study was to analyze the biventricular performance of the AVAD across its wide range of operating conditions.An AVAD CFD model was created and validated using in vitrohydraulic performance measurements taken over conditions spanning both left ventricular assist device (LVAD) and right ventricular assist device (RVAD) operation. Static pressure taps, placed throughout the pump, were used to validate the CFD results. The CFD model was then used to assess the change in hydraulic performance with varying rotor axial positions and identify potential design improvements. The hydraulic performance was simulated and measured at rotor speeds from 2,300 to 3,600 revolutions/min and flow rates from 2.0 to 8.0 L/min. The CFD-predicted hydraulic pressure rise agreed well with the in vitromeasured data, within 6.5% at 2300 rpm and within 3.5% for the higher rotor speeds. The CFD successfully predicted wall static pressures, matching experimental values within 7%. High degree of similarity and circumferential uniformity in the pump’s flow fields were observed over the pump operation as an LVAD and an RVAD. A secondary impeller axial clearance reduction resulted in a 10% decrease in peak flow residence time and lower static pressures on the secondary impeller. These lower static pressures suggest a reduction in the upwards rotor forces from the secondary impeller and a desired increase in the pressure sensitivity of the pump.The CFD analyses supported the feasibility of the proposed AVAD’s use as an LVAD or an RVAD, over a wide range of operating conditions. The CFD results demonstrated the operability of the pump in providing the desired circumferential flow similarity over the intended range of flow/speed conditions and the intended functionality of the AVAD’s automated pressure regulation.

Published

2022

2. Computational Fluid Dynamics Model of Continuous-Flow Total Artificial Heart: Right Pump Impeller Design Changes to Improve Biocompatibility

Author

Goodin, Mark S., Horvath, David J., Kuban, Barry D., Polakowski, Anthony R., Fukamachi, Kiyotaka, Flick, Christine R., and Karimov, Jamshid H.

Abstract

Cleveland Clinic is developing a continuous-flow total artificial heart (CFTAH). This novel design operates without valves and is suspended both axially and radially through the balancing of the magnetic and hydrodynamic forces. A series of long-term animal studies with no anticoagulation demonstrated good biocompatibility, without any thromboemboli or infarctions in the organs. However, we observed varying degrees of thrombus attached to the right impeller blades following device explant. No thrombus was found attached to the left impeller blades. The goals for this study were: (1) to use computational fluid dynamics (CFD) to gain insight into the differences in the flow fields surrounding both impellers, and (2) to leverage that knowledge in identifying an improved next-generation right impeller design that could reduce the potential for thrombus formation. Transient CFD simulations of the CFTAH at a blood flow rate and impeller rotational speed mimicking in vivoconditions revealed significant blade tip-induced flow separation and clustered regions of low wall shear stress near the right impeller that were not present for the left impeller. Numerous right impeller design variations were modeled, including changes to the impeller cone angle, number of blades, blade pattern, blade shape, and inlet housing design. The preferred, next-generation right impeller design incorporated a steeper cone angle, a primary/splitter blade design similar to the left impeller, and an increased blade curvature to better align the incoming flow with the impeller blade tips. The next-generation impeller design reduced both the extent of low shear regions near the right impeller surface and flow separation from the blade leading edges, while maintaining the desired hydraulic performance of the original CFTAH design.

Published

2022

3. Total Artificial Heart Computational Fluid Dynamics: Modeling of Stator Bore Design Effects on Journal-Bearing Performance

Author

Khelghatibana, Maryam, Goodin, Mark S., Yaksh, Michael, Horvath, David J., Kuban, Barry D., Fukamachi, Kiyotaka, and Karimov, Jamshid H.

Abstract

Cleveland Clinic’s continuous-flow total artificial heart (CFTAH) is a double-ended centrifugal blood pump that has a single rotating assembly with an embedded magnet, which is axially and radially suspended by a balance of magnetic and hydrodynamic forces. The key to the radial suspension is a radial offset between the stator bearing bore and the magnet’s steel laminations. This offset applies a radial magnetic force, which is balanced by a hydrodynamic force as the rotating assembly moves to a “force-balanced” radial position. The journal-bearing blood passage is a narrow flow path between the left and right impellers. The intent of this study was to determine the impact of the stator-bearing bore radius on the journal-bearing hydraulic performance while satisfying the geometric design constraints imposed by the pump and motor configuration. Electromagnetic forces on the journal bearing were calculated using the ANSYS EMAG program, Version 18 (ANSYS, Canonsburg, PA). ANSYS CFX Version 19.2 was then used to model the journal-bearing flow paths of the most recent design of the CFTAH. A transient, moving mesh approach was used to locate the steady state, force-balanced position of the rotating assembly. The blood was modeled as a non-Newtonian fluid. The computational fluid dynamics simulations showed that by increasing stator bore radius, rotor power, stator wall average shear stress, and blood residence time in journal-bearing decrease, while blood net flow rate through the bearing increases. The results were used to select a new bearing design that provides an improved performance compared with the baseline design. The performance of the new CFTAH-bearing design will be confirmed through upcoming in vitroand in vivotesting.

Published

2022

4. Left atrial assist device function at various heart rates using a mock circulation loop

Author

Kado, Yuichiro, Polakowski, Anthony R, Kuban, Barry D, Horvath, David J, Miyamoto, Takuma, Karimov, Jamshid H, Starling, Randall C, and Fukamachi, Kiyotaka

Abstract

We are developing a new left atrial assist device (LAAD) for patients who have heart failure with preserved ejection fraction (HFpEF). This study aimed to assess the hemodynamic effects of the LAAD under both normal heart conditions and various diastolic heart failure (DHF) conditions using a mock circulatory loop. A continuous-flow pump that simulates LAAD, was placed between the left atrial (LA) reservoir and a pneumatic ventricle that simulated a native left ventricle on a pulsatile mock loop. Normal heart (NH) and mild, moderate, and severe DHF conditions were simulated by adjusting the diastolic drive pressures of the pneumatic ventricle. With the LAAD running at 3200 rpm, data were collected at 60, 80, and 120 bpm of the pneumatic ventricle. Cardiac output (CO), mean aortic pressure (AoP), and mean LA pressure (LAP) were compared to evaluate the LAAD performance. With LAAD support, the CO and AoP rose to a sufficient level at all heart rates and DHF conditions (CO; 3.4–3.8 L/min, AoP; 90–105 mm Hg). Each difference in the CO and the AoP among various heart rates was minuscule compared with non-pump support. The LAP decreased from 21–23 to 17–19 mm Hg in all DHF conditions (difference not significant). Furthermore, hemodynamic parameters improved for all DHF conditions, independent of heart rate. The LAAD can provide adequate flow to maintain the circulation status at various heart rates in an in vitro mock circulatory loop.

Published

2021

5. Use of a Virtual Mock Loop model to evaluate a new left ventricular assist device for transapical insertion

Author

Kado, Yuichiro, Smith, William A, Miyamoto, Takuma, Adams, Joseph, Polakowski, Anthony R, Dessoffy, Raymond, Horvath, David J, Fukamachi, Kiyotaka, and Karimov, Jamshid H

Abstract

We are developing a novel type of miniaturized left ventricular assist device that is configured for transapical insertion. The aim of this study was to assess the performance and function of a new pump by using a Virtual Mock Loop system for device characterization and mapping. The results, such as pressure-flow performance curves, from pump testing in a physical mock circulatory loop were used to analyze its function as a left ventricular assist device. The Virtual Mock Loop system was programmed to mimic the normal heart condition, systolic heart failure, diastolic heart failure, and both systolic and diastolic heart failure, and to provide hemodynamic pressure values before and after the activation of several left ventricular assist device pump speeds (12,000, 14,000, and 16,000 r/min). With pump support, systemic flow and mean aortic pressure increased, and mean left atrial pressure and pulmonary artery pressure decreased for all heart conditions. Regarding high pump-speed support, the systemic flow, aortic pressure, left atrial pressure, and pulmonary artery pressure returned to the level of the normal heart condition. Based on the test results from the Virtual Mock Loop system, the new left ventricular assist device for transapical insertion may be able to ease the symptoms of patients with various types of heart failure. The Virtual Mock Loop system could be helpful to assess pump performance before in vitro bench testing.

Published

2020

6. An advanced universal circulatory assist device for left and right ventricular support: First report of an acute in vivo implant

Author

Miyamoto, Takuma, Kado, Yuichiro, Horvath, David J., Kuban, Barry D., Sale, Shiva, Fukamachi, Kiyotaka, and Karimov, Jamshid H.

Abstract

The Advanced ventricular assist device (Advanced VAD) is designed as a universal pump intended to prevent backflow in the event of pump stoppage, to maintain physiological pulse pressure, and to be used as both a left and right VAD. The purpose of this study was to evaluate the performance of the Advanced VAD as both a left and right VAD in an acute in vivo study in calves.

Published

2020

7. Development of a circulatory mock loop for biventricular device testing with various heart conditions

Author

Kado, Yuichiro, Miyamoto, Takuma, Horvath, David J, Gao, Shengqiang, Fukamachi, Kiyotaka, and Karimov, Jamshid H

Abstract

This study aimed to evaluate a newly designed circulatory mock loop intended to model cardiac and circulatory hemodynamics for mechanical circulatory support device testing. The mock loop was built with dedicated ports suitable for attaching assist devices in various configurations. This biventricular mock loop uses two pneumatic pumps (Abiomed AB5000™, Danvers, MA, USA) driven by a dual-output driver (Thoratec Model 2600, Pleasanton, CA, USA). The drive pressures can be individually modified to simulate a healthy heart and left and/or right heart failure conditions, and variable compliance and fluid volume allow for additional customization. The loop output for a healthy heart was tested at 4.2 L/min with left and right atrial pressures of 1 and 5 mm Hg, respectively; a mean aortic pressure of 93 mm Hg; and pulmonary artery pressure of 17 mm Hg. Under conditions of left heart failure, these values were reduced to 2.1 L/min output, left atrial pressure = 28 mm Hg, right atrial pressure = 3 mm Hg, aortic pressure = 58 mm Hg, and pulmonary artery pressure = 35 mm Hg. Right heart failure resulted in the reverse balance: left atrial pressure = 0 mm Hg, right atrial pressure = 30 mm Hg, aortic pressure = 100 mm Hg, and pulmonary artery pressure = 13 mm Hg with a flow of 3.9 L/min. For biventricular heart failure, flow was decreased to 1.6 L/min, left atrial pressure = 13 mm Hg, right atrial pressure = 13 mm Hg, aortic pressure = 52 mm Hg, and pulmonary artery pressure = 18 mm Hg. This mock loop could become a reliable bench tool to simulate a range of heart failure conditions.

Published

2020

8. Simulated Performance of the Cleveland Clinic Continuous-Flow Total Artificial Heart Using the Virtual Mock Loop

Author

Miyamoto, Takuma, Horvath, David J., Horvath, Dennis W., Karimov, Jamshid H., Byram, Nicole, Kuban, Barry D., and Fukamachi, Kiyotaka

Abstract

Supplemental Digital Content is available in the text.Our new Virtual Mock Loop (VML) is a mathematical model designed to simulate the human cardiovascular system and gauge performance of mechanical circulatory support devices. We aimed to mimic the hemodynamic performance of Cleveland Clinic’s self-regulating continuous-flow total artificial heart (CFTAH) viaVML and evaluate VML’s accuracy versusbench data from our standard mock circulatory loop. The VML reproduced 23 hemodynamic conditions. Systemic/pulmonary vascular resistances and pump rotational speed were set for VML from bench test data. We compared outputs (pump flow, left/right pump pressure rise, normalized pump performance, and atrial pressure difference) of the two methods. Data from pump flow and left pump pressure rise were similar, but right pump pressure rise slightly differed. Left pump normalized pump performance curves were similar. Right pump VML results were within the same performance range indicated by bench tests. The plots of atrial pressure differences of VML versusbench-test data were similar, but slightly differed in the midrange of systemic/pulmonary gradients. Virtual Mock Loop successfully reproduced results from our mock circulatory loop of CFTAH test conditions. The CFTAH’s self-regulation feature of right pump performance was also calculated effectively. We foresee using versions of the VML for training, simulating physiologic cardiac conditions, and patient monitoring.

Published

2019

9. Review-Electrochemical Measurements in Molten Salt Systems: A Guide and Perspective

Author

Fredrickson, Guy L., Cao, Guoping, Tripathy, Prabhat K., Shaltry, Michael R., Herrmann, Steven D., Yoo, Sic, Karlsson, Toni Y., Horvath, David C., Gakhar, Ruchi, Williams, Ammon N., Hoover, Robert O., Phillips, William C., and Marsden, Ken C.

Abstract

Practical information is provided on electrochemical measurements in molten salt systems. The emphasis is on chloride and fluoride systems, but the principles are applicable to any high-temperature molten salt or molten oxide electrolyte system. Considerations are given to topics such as the functionality of electrochemical measurement equipment, reference electrodes, materials selection and chemical compatibility, interpretation of electrochemical measurement signals, molten salt properties, and laboratory practices.

Published

2019

10. Reconstructing the past climate at Gale crater, Mars, from hydrological modeling of late‐stage lakes

Author

Horvath, David G. and Andrews‐Hanna, Jeffrey C.

Abstract

The sedimentary deposits in Gale crater may preserve one of the best records of the early Martian climate during the Late Noachian and Early Hesperian. Surface and orbital observations support the presence of two periods of lake stability in Gale crater—prior to the formation of the sedimentary mound during the Late Noachian and after the formation and erosion of the mound to its present state in the Early Hesperian. Here we use hydrological models and late‐stage lake levels at Gale, to reconstruct the climate of Mars after mound formation and erosion to its present state. Using Earth analog climates, we show that the late‐stage lakes require wetter interludes characterized by semiarid climates after the transition to arid conditions in the Hesperian. These climates are much wetter than is thought to characterize much of the Hesperian and are more similar to estimates of the Late Noachian climate. Hydrological modeling and observational constraints at Gale crater are used to reconstruct the past climate of post‐Noachian MarsLate‐stage lake levels in Gale crater require semiarid climatesSubsurface flow may contribute up to half of the water flux into lakes at the dichotomy boundary

Published

2017

11. Methods for Determining the Working Electrode Interfacial Area for Electroanalytical Measurements of Metal Ions in Molten LiCl-KCl

Author

Rappleye, Devin, Horvath, David, Wang, Zhonghang, Zhang, Chao, and Forrest, Michael

Abstract

In this paper, we present an empirical evaluation of methods for determining the interfacial area between a working electrode and molten salt--specifically demonstrated using the eutectic LiCl-KCl system. Approaches studied include dipping a cold electrode into the molten salt, using a vertical translator to adjust the height of the electrode, partially coating the electrodes with an insulating material, and integrating a pre-peak which may represent formation of a monolayer of metal on the electrode. Salt mixtures investigated include LiCl-KCl-UCl3, LiCl-KCl-UCl3-MgCl2, LiCl-KCl-LaCl3-GdCl3, and LiCl-KCl-LaCl3-MgCl2. With accurate determination of the electrode-salt interfacial area, concentration correlations can be developed with error below 2%.

Published

2016

12. Human Fitting Studies of Cleveland Clinic Continuous-Flow Total Artificial Heart

Author

Karimov, Jamshid H., Steffen, Robert J., Byram, Nicole, Sunagawa, Gengo, Horvath, David, Cruz, Vincent, Golding, Leonard A. R., Fukamachi, Kiyotaka, and Moazami, Nader

Abstract

Implantation of mechanical circulatory support devices is challenging, especially in patients with a small chest cavity. We evaluated how well the Cleveland Clinic continuous-flow total artificial heart (CFTAH) fit the anatomy of patients about to receive a heart transplant. A mock pump model of the CFTAH was rapid-prototyped using biocompatible materials. The model was brought to the operative table, and the direction, length, and angulation of the inflowoutflow ports and outflow conduits were evaluated after the recipient’s ventricles had been resected. Thoracic cavity measurements were based on preoperative computed tomographic data. The CFTAH fit well in all five patients (height, 170 ± 9 cm; weight, 75 ± 24 kg). Body surface area was 1.9 ± 0.3 m2(range, 1.6–2.1 m2). The required inflow and outflow port orientation of both the left and right housings appeared consistent with the current version of the CFTAH implanted in calves. The left outflow conduit remained straight, but the right outflow direction necessitated a 73 ± 22 degree angulation to prevent potential kinking when crossing over the connected left outflow. These data support the fact that our design achieves the proper anatomical relationship of the CFTAH to a patient’s native vessels.

Published

2015

13. Does the conversion of grasslands to row crop production in semi-arid areas threaten global food supplies?

Author

Clay, David E., Clay, Sharon A., Reitsma, Kurtis D., Dunn, Barry H., Smart, Alexander J., Carlson, Gregg G., Horvath, David, and Stone, James J.

Abstract

In the world's semi-arid regions, high crop demands have produced short term economic incentives to convert food production on native grasslands to dryland row crop food production, while genetic enhancements and equipment have reduced the risk of crop failure. The objectives of this paper were to discuss (1) the importance of considering the long-term sustainability of changing land use in semi-arid regions; (2) the impact of extreme climatic events on ecosystem functioning; and (3) factors contributing to higher crop yields in semi-arid regions. Semi-arid regions contain fragile areas where extreme climate events may be a tipping point that converts an apparent sustainable system to a non-sustainable ecosystem. However, semi-arid regions also contain zones where “better” management practices have reduced the agricultural impacts on the environment, increased soil carbon levels, and stimulated economic development. Research suggests that food production can be increased by enhancing the productivity of existing cropped land. However, this statement does not infer that crop production on all existing cropped lands in semi-arid regions is sustainable. Worldwide, targeted research should be conducted to clearly identify local barriers to conservation practice adoption and identify the long-term ramifications of extreme climatic events and land-use changes on semi-arid ecosystem functioning.

Published

2014

14. Speed Modulation of the Continuous-Flow Total Artificial Heart to Simulate a Physiologic Arterial Pressure Waveform

Author

Shiose, Akira, Nowak, Kathleen, Horvath, David J., Massiello, Alex L., Golding, Leonard A. R., and Fukamachi, Kiyotaka

Abstract

This study demonstrated the concept of using speed modulation in a continuous-flow total artificial heart (CFTAH) to shape arterial pressure waveforms and to adjust pressure pulsatility. A programmable function generator was used to determine the optimum pulsatile speed profile. Three speed profiles sinusoidal, rectangular, and optimized (a profile optimized for generation of a physiologic arterial pressure waveform) were evaluated using the CFTAH mock circulatory loop. Hemodynamic parameters were recorded at average pump speeds of 2,700 rpm and a modulation cycle of 60 beats per minute. The effects of varying physiologically relevant vascular resistance and lumped compliance on the hemodynamics were assessed. The feasibility of using speed modulation to manipulate systemic arterial pressure waveforms, including a physiologic pressure waveform, was demonstrated in vitro. The additional pump power consumption needed to generate a physiologic pulsatile pressure was 16.2% of the power consumption in nonpulsatile continuous-flow mode. The induced pressure waveforms and pulse pressure were shown to be very responsive to changes in both systemic vascular resistance and arterial compliance. This system also allowed pulsatile pulmonary arterial waveform. Speed modulation in the CFTAH could enable physicians to obtain desired pressure waveforms by simple manual adjustment of speed control input waveforms.

Published

2010

15. Genomics for Weed Science

Author

Horvath, David

Abstract

Numerous genomic-based studies have provided insight to the physiological and evolutionary processes involved in developmental and environmental processes of model plants such as arabidopsis and rice. However, far fewer efforts have been attempted to use genomic resources to study physiological and evolutionary processes of weedy plants. Genomics-based tools such as extensive EST databases and microarrays have been developed for a limited number of weedy species, although application of information and resources developed for model plants and crops are possible and have been exploited. These tools have just begun to provide insights into the response of these weeds to herbivore and pathogen attack, survival of extreme environmental conditions, and interaction with crops. The potential of these tools to illuminate mechanisms controlling the traits that allow weeds to invade novel habitats, survive extreme environments, and that make weeds difficult to eradicate have potential for both improving crops and developing novel methods to control weeds.

Published

2010

16. Development of DexAide Right Ventricular Assist Device Update II

Author

Fukamachi, Kiyotaka, Saeed, Diyar, Massiello, Alex L., Horvath, David J., Fumoto, Hideyuki, Horai, Tetsuya, Zahr, Roula, Shalli, Shanaz, Anzai, Tomohiro, Dessoffy, Raymond, Catanese, Jacquelyn, Chen, Ji-Feng, Zhou, Qun, Benefit, Stephen, Alfini, Sue, and Golding, Leonard A. R.

Abstract

The DexAide right ventricular assist device (RVAD) is a magnetically and hydrodynamically levitated implantable centrifugal pump. Recent progress includes 1) redesign of the inflow/outflow conduits, which yielded two successful 3-month experiments, 2) development of alternative journal bearing materials, and 3) completion of an 18-month duration of in vitroendurance testing. Verification testing of the RVAD electronics has been completed, and a prototype biventricular assist device (BVAD) system has been tested. Acute DexAide/CorAide BVAD implantations viamedian sternotomy in two calves documented BVAD control algorithms and anatomical fit. A drug-induced chronic calf heart failure model, currently under development in our laboratory, resulted in a successful BVAD implantation in a calf with heart failure. Our future plans are to complete in vitroand in vivovalidation of alternative bearing materials, perform preclinical DexAide in vivoand in vitroreliability studies, and obtain Food and Drug Administration (FDA) approval for an Investigational Device Exemption to conduct a clinical pilot study. In conclusion, two successful 3 month in vivoexperiments and an 18-month in vitroendurance test were completed. After final bearing material selection, the DexAide design will be “frozen” so that preclinical systems can be manufactured. BVAD experiments using a chronic heart failure model are in progress.

Published

2008

17. Progress in the Development of the DexAide Right Ventricular Assist Device

Author

Fukamachi, Kiyotaka, Ootaki, Yoshio, Horvath, David J., Massiello, Alex L., Kamohara, Keiji, Akiyama, Masatoshi, Cingoz, Faruk, Ootaki, Chiyo, Kopcak, Michael W., Dessoffy, Raymond, Liu, Jenny, Chen, Ji-Feng, Zhou, Qun, Benefit, Stephen, Golding, Leonard A.R., Alfini, Sue, and Rowe, David T.

Abstract

The DexAide right ventricular assist device (RVAD) is an implantable centrifugal pump modified from the CorAide left ventricular assist device. As previously published, in vitroperformance testing of the DexAide RVAD has met design criteria, and the nominal operating condition of 4 l/min and 20 mm Hg pressure rise was achieved at 2,000 rpm, with a power consumption of 1.9 watts. In vivostudies in 14 calves have demonstrated acceptable hemodynamic characteristics. The calf inflow cannula design is still evolving to minimize depositions on the cannula observed in most experiments. Fitting studies were performed in 5 cadavers and 2 patients to reconfigure the cannulae for use in humans. The design and development of external electronics have been completed for the stand-alone RVAD system, and verification tests are under way in preparation for preclinical tests. Work on the external electronics design for the biventricular assist system is ongoing.

Published

2006

18. Subtractive cDNA Libraries Identify Differentially Expressed Genes in Dormant and Growing Buds of Leafy Spurge ( Euphorbia esula )

Author

Jia, Ying, Anderson, James, Horvath, David, Gu, Yong-Qiang, Lym, Rodney, and Chao, Wun

Abstract

Abstract: Two subtractive cDNA libraries were developed to study genes associated with bud dormancy (reverse library) and initiation of shoot growth (forward library) in leafy spurge. To identify unique sequences represented in each library, 15744 clones were screened to reduce the level of redundancy within both libraries. A total of 516 unique sequences were obtained from 2304 minimally redundant clones. Radioactive probes developed from RNAs extracted from crown buds of either intact (para-dormant control) or a series of growth-induced (2 h, 2, and 4 d after decapitation) plants were used to identify differentially expressed genes by macroarray analysis. Semi-quantitative RT-PCR was used to confirm results obtained by macroarray analysis and to determine the expression profiles for other transcripts identified within the subtractive libraries. Selected clones were also used to examine gene expression in crown buds after growth induction and/or during normal seasonal growth. In this study, four distinct patterns of gene expression were observed during the transition from para-dormancy to growth-induction. Many of the differentially regulated genes identified have unknown or hypothetical functions while others are known to play important roles in molecular functions. Gene ontology analysis identified a greater proportion of genes involved with catalytic activity in the forward library while the reverse library had a greater proportion of genes involved in DNA/RNA binding.

Published

2006

19. An EST resource for cassava and other species of Euphorbiaceae

Author

Anderson, James V., Delseny, Michel, Fregene, Martin A., Jorge, Veronique, Mba, Chikelu, Lopez, Camilo, Restrepo, Silvia, Soto, Mauricio, Piegu, Benoit, Verdier, Valerie, Cooke, Richard, Tohme, Joe, and Horvath, David P.

Abstract

Abstract Cassava (Manihot esculenta) is a major food staple for nearly 600 million people in Africa, Asia, and Latin America. Major losses in yield result from biotic and abiotic stresses that include diseases such as Cassava Mosaic Disease (CMD) and Cassava Bacterial Blight (CBB), drought, and acid soils. Additional losses also occur from deterioration during the post-harvest storage of roots. To help cassava breeders overcome these obstacles, the scientific community has turned to modern genomics approaches to identify key genetic characteristics associated with resistance to these yield-limiting factors. One approach for developing a genomics program requires the development of ESTs (expressed sequence tags). To date, nearly 23000 ESTs have been developed from various cassava tissues, and genotypes. Preliminary analysis indicates existing EST resources contain at least 6000–7000 unigenes. Data presented in this report indicate that the cassava ESTs will be a valuable resource for the study of genetic diversity, stress resistance, and growth and development, not only in cassava, but also other members of the Euphorbiaceae family.

Published

2005

20. Updated Aging Assessment Approach and Use with Electric Cable Insulation

Author

Horvath, David A. and Colaianni, R. Paul

Abstract

AbstractThe service life of nuclear power plant equipment may include operation beyond the original design or qualified life. A technical basis is necessary to demonstrate that critical equipment is capable of continued safe operation for any life extension and renewed license term. Such a technical basis is also useful in addressing initial license term aging degradation, age-related failures, and maintenance issues. Early approaches for addressing aging effects developed for environmental qualification programs in the 1980s were incorporated into the Institute of Electrical and Electronic Engineers’ (IEEE) IEEE Std. 1205-1993. However, subsequently, a number of events (including promulgation of the Maintenance Renewal Rule, the new License Renewal Rule, and initial plant owner submittals of License Renewal applications) have resulted in improved aging management approaches, which focus on addressing aging effects rather than attempting to identify and mitigate every possible aging mechanism.An example of a major issue facing nuclear power plants as they mature is the general health of the plant electrical cables. This issue came to the forefront as plants began preparing for license renewal, which requires an evaluation of cables to demonstrate that they will perform their function 20 yr beyond the original 40-yr license period. When the two lead plants started preparing for license renewal, there was no generally accepted approach to the bulk evaluation of plant cables, and there were many who thought it not possible to perform a complete plant cable evaluation. The approaches that emerged from the lead plant reviews demonstrated that an assessment of the general health of plant cables could be performed.IEEE’s Nuclear Power Engineering Committee recognized the need to capture these improved approaches. A 2½-yr effort of the IEEE Subcommittee-3 Working Group 3.4 culminating in IEEE Std. 1205-2000 is the consensus of representatives from the two lead license renewal plants (Calvert Cliffs and Oconee), the Nuclear Regulatory Commission, a national laboratory, other utilities, and multiple engineering/consulting firms. This revision, now complete, updated the Guide to incorporate the aging assessment methods used by the two lead license renewal plants and the experience gained by the industry and the regulator and, in addition, added an example annex applying the guidance to electrical cable, and both are summarized in this paper.

Published

2003

21. Microscopic Void Detection for Predicting Remaining Life in Electric Cable Insulation

Author

Horvath, David A. and Avila, Steven M.

Abstract

AbstractA reliable method of testing for remaining life in electric cable insulation has continued to elude the nuclear industry as it seeks to extend the life and license of its nuclear stations. Until recently, a trendable, measurable electrical property has not been found, and unexpected cable failures continue to be reported. Most reliable approaches to date rely on monitoring mechanical properties, which are assumed to degrade faster than the insulation’s electrical properties. This paper introduces a promising technique based on void characterization, which is dependent on an electrical property related to dielectric strength. A relationship between insulation void characteristics (size and density) and the onset of partial discharge is known to exist. A similar relationship can be shown between void characteristics and unacceptable leakage currents (another typical cable failure criterion). For low-voltage cables, it is believed void content can be correlated to mechanical property degradation.This paper will report on an approach for using void information, research results showing the existence of trendable void characteristics in commonly used electric insulation materials, and techniques for detecting the voids (both laboratory- and field-based techniques). Acoustical microscopy was found to be potentially more suitable than conventional ultrasound for nondestructive in situ detection and monitoring of void characteristics in jacketed multiconductor insulation while ignoring the jacket. Also, optical and scanning electron microscope techniques will play an essential role in establishing the database necessary for continued development and implementation of this promising technique.

Published

2003

22. Molecular analysis of signals controlling dormancy and growth in underground adventitious buds of leafy spurge.

Author

Horvath, David P, Chao, Wun S, and Anderson, James V

Abstract

Dormancy and subsequent regrowth of adventitious buds is a critical physiological process for many perennial plants. We have used the expression of hormone and cell cycle-responsive genes as markers to follow this process in leafy spurge (Euphorbia esula). In conjunction with earlier studies, we show that loss of mature leaves results in decreased sugar levels and increased gibberellin perception in underground adventitious buds. Gibberellin is sufficient for induction of S phase-specific but not M phase-specific gene expression. Loss of both apical and axillary buds or inhibition of polar auxin transport did not result in induction of S phase- or M phase-specific gene expression. Loss of polar auxin transport was necessary for continuation of the cell cycle and further bud development if the S phase was previously initiated.

Published

2002

23. Serials management: integration and enhancement through reorganization

Author

Goldberg, Tyler, Horvath, David, and Neagle, Eric

Abstract

AbstractIt is broadly acknowledged that effective serials management supports and requires a close link between the staff in technical and public services. More recently, new technological opportunities combined with changes in library organization and administration have greatly facilitated this linkage. The nature and structure of a library’s organization can aid in and benefit from this connectedness. Departments in the University of Louisville’s public and technical services areas began a cooperative effort to maintain serials records in the online catalog in the early 1990s. With reorganization in the late 1990s, a new team structure emerged which further facilitated this effort. In return, this cooperation and the tools that it has created support the teams in a new user-centered approach to serials management.

Published

2001

24. Sensorless Suction Recognition in the Self-Regulating Cleveland Clinic Continuous-Flow Total Artificial Heart

Author

Horvath, David, Karimov, Jamshid H., Byram, Nicole, Kuban, Barry, Golding, Leonard A.R., Moazami, Nader, and Fukamachi, Kiyotaka

Abstract

The Cleveland Clinic continuous-flow total artificial heart passively regulates itself in regard to the relative performance of systemic and pulmonary pumps. The system incorporates real-time monitoring to detect any indication of incipient left or right suction as input for automatic controller response. To recognize suction, the external controller compares the waveforms of modulating speed input and power feedback. Deviations in periodic waveforms indicate sudden changes to flow impedance, which are characteristic of suction events as the pump speed is modulating. Incipient suction is indicated within 3 seconds of being detected in the power wave form, allowing timely controller response before mean flow is affected. This article describes the results obtained from subjecting the system to severe hemodynamic manipulation during an acute study in a calf.

Published

2015

25. A timing circuit for air track experiments

Author

Cohen, Harold and Horvath, David

Published

1988

26. The human photoreceptor rim protein gene (ABCR): genomic structure and primer set information for mutation analysis

Author

Azarian, Sassan M., Megarity, Christine F., Weng, Jian, Horvath, David H., and Travis, G. H.

Abstract

Rim protein (RmP) is an integral membrane glycoprotein localized to the rims of photoreceptor outer-segment discs. It belongs to the ABC transporter superfamily, but its function in the retina has not been determined. The gene for human RmP (ABCR) is affected in several recessively inherited human retinal degenerations, including Stargardt’s macular dystrophy, retinitis pigmentosa, and cone-rod dystrophy. The complete structure of ABCRhas not been determined. Here, we report the cloning of the human ABCRgene and present its complete intron-exon structure. The gene contains 50 exons that range in size from 33 to 406 bp. Almost all of the splice junctions follow the AG/GT rule. We have identified the site of transcription initiation by 5′ RACE. The first several hundred bases upstream of the transcription unit are relatively conserved between mouse and human and contain several predicted cis-regulatory elements including a TATA-like box at –27 bp, and two Ret-4-like elements that reportedly confer photoreceptor-specific gene expression. We also present a complete set of tested oligonucleotide primers for the amplification and analysis of exons 1–50 by the polymerase chain reaction. These data should help with the identification of new disease-causing mutations in ABCR.

Published

1998

27. A Co‐Dominant PCR‐Based Marker for Assisted Selection of Durable Stem Rust Resistance in Barley

Author

Horvath, David P., Dahleen, Lynn S., Stebbing, Jo‐Ann, and Penner, Greg

Abstract

Screening individual barley plants for resistance to stem rust is difficult and time consuming. The objective of this work was to develop PCR‐based markers for assisted selection of stem rust resistance in barley. Near isogenic barley lines (backcrossed 29 times) differing at the Rpg1locus (where the gene that confers resistance to the stem rust pathogen Puccinia graminist. sp. triticiis located) were screened for random amplified polymorphic DNAs (RAPDs) with 10 base primers. A total of 540 different primers were screened, and one was identified which amplified a DNA fragment closely linked to Rpg1. The DNA fragment was cloned, mapped, and sequenced. Specifically amplifying primers (SAPs) were designed to amplify related polymorphic DNA in other barley cultivars. The SAPs act as a co‐dominant marker suitable for marker assisted selection of the Rpg1gene. Three different amplification patterns were observed in the various cultivars tested. Surprisingly, no specific banding pattern is diagnostic for the presence or absence of Rpg1, despite the demonstrated linkage. Of the three amplification patterns, only one (the 500‐bp banding pattern) was present in recently developed resistant cultivars. A similar amplification pattern is also found in many of the susceptible lines that have the cultivar Betzes in their pedigree. RFLP analysis can be used to differentiate the resistant and susceptible cultivars with this amplification pattern.

Published

1995

28. Cloning and characterization of cold-regulated glycine-rich RNA-binding protein genes from leafy spurge (Euphorbia esula L.) and comparison to heterologous genomic clones

Author

Horvath, David and Olson, Prudence

Abstract

Leafy spurge (Euphorbia esula) is a perennial weed which is capable of acclimating to sub-freezing temperatures. We have used the differential display technique to identify and clone a cDNA for a cold-regulated gene (cor20) which hybridizes to mRNAs that accumulate specifically during the cold acclamation process. The cor20 cDNA was used to isolate two different genomic clones. Both clones were similar but not identical to each other and the cDNA. Sequence analysis of the genomic clones indicated that they share considerable homology to a group of glycine-rich RNA-binding protein genes. Comparison of the promoter region from the three clones (Ccr1 from Arabidopsis, BnGRP1O from Brassica napus, and GRRBP2 from Euphorbia esula) have identified at least two conserved motifs. CAGC is most likely involved in cold regulation and AACCCYAGTTA, is conserved but has no known function. RNAs which hybridize to cor20 reach maximal expression in less than 2 days after exposure of the plant to temperatures of 5 °C , and remains at high levels in the plant for at least 30 days so long as the plant is left in the cold. These RNAs drop to control levels within 24 h when the plant is returned to normal growing temperatures. Transcripts which hybridize to cor20 do not accumulate under conditions of drought or heat stress. These transcripts are induced in response to low temperatures in roots, stems and leaves, but are expressed constitutively in tissue culture at control temperatures.

Published

1998

29. Abstract 14324: Cross Comparison of Continuous Flow Total Artificial Heart: Adult, Pediatric and Infant Device Assessment in Virtual Model

Author

Karimov, Jamshid H, Horvath, David J, Polakowski, Anthony R, Horvath, Dennis W, Miyamoto, Takuma, Kado, Yuichiro, Kuban, Barry D, Najm, Hani, Saarel, Elizabeth V, and Fukamachi, Kiyotaka

Abstract

Introduction:Mechanical circulatory support (MCS) is an alternative or bridge to heart transplant but size and functional range of current devices limits utility. We performed in silicoanalysis of adult (CFTAH), pediatric (P-CFTAH) and infant (I-CFTAH) continuous-flow total artificial heart using virtual mock loop (VML).Methods:Blood flows, pressures, and volumes as they surge through a MCS-supported heart failure cardiovascular system were input to the VML. Hemodynamics were simulated using a lumped-parameters, systemic/pulmonary circulation, values for impedances, systolic and diastolic LV compliance, beat rate, blood volume and cardiac chambers. Pump support at 4.0 L/min condition was used for the 46 kg (BSA 1.4 ~13-y patient) and 1.5 L/min for the 10.5 kg (BSA .5 m2~ 1-y patient) models.Results:Simulations of CFTAH, P-CFTAH and I-CFTAH were compared (Fig. 1). For the 4.0 and 1.5 L/min conditions, residence time (RT) and hemolysis decreased, but pulse pressure also decreased. At 1.5 L/min, the P-CFTAH had 3.6 (1/.65 scale factor3) times the RT of the I-CFTAH. At 4.0 L/min, the CFTAH had 2.9 (1/.7 scale factor3) times the RT of the P-CFTAH. P-CFTAH pump would have ~50% the flow range of the larger CFTAH pump.Conclusions:This simulation successfully enabled cross-over analysis of different size CFTAH configurations. The larger pump demonstrated better pulse pressure, with increased RT, and thus blood recirculation per patient size. In a smaller device, shear stress is increased, but RT is also reduced. When choosing a device for an individual patient the potential pros and cons of each specific size pump should be considered.

Published

2019

30. Review—Electrochemical Measurements in Molten Salt Systems: A Guide and Perspective

Author

Fredrickson, Guy L., Cao, Guoping, Tripathy, Prabhat K., Shaltry, Michael R., Herrmann, Steven D., Yoo, Tae-Sic, Karlsson, Toni Y., Horvath, David C., Gakhar, Ruchi, Williams, Ammon N., Hoover, Robert O., Phillips, William C., and Marsden, Ken C.

Abstract

Practical information is provided on electrochemical measurements in molten salt systems. The emphasis is on chloride and fluoride systems, but the principles are applicable to any high-temperature molten salt or molten oxide electrolyte system. Considerations are given to topics such as the functionality of electrochemical measurement equipment, reference electrodes, materials selection and chemical compatibility, interpretation of electrochemical measurement signals, molten salt properties, and laboratory practices.

Published

2019

31. Methods for Determining the Working Electrode Interfacial Area for Electroanalytical Measurements of Metal Ions in Molten LiCl-KCl

Author

Rappleye, Devin, Horvath, David, Wang, Zhonghang, Zhang, Chao, and Simpson, Michael Forrest

Abstract

In this paper, we present an empirical evaluation of methods for determining the interfacial area between a working electrode and molten salt—specifically demonstrated using the eutectic LiCl-KCl system. Approaches studied include dipping a cold electrode into the molten salt, using a vertical translator to adjust the height of the electrode, partially coating the electrodes with an insulating material, and integrating a pre-peak which may represent formation of a monolayer of metal on the electrode. Salt mixtures investigated include LiCl-KCl-UCl3, LiCl-KCl-UCl3-MgCl2, LiCl-KCl-LaCl3-GdCl3, and LiCl-KCl-LaCl3-MgCl2. With accurate determination of the electrode-salt interfacial area, concentration correlations can be developed with error below 2%.

Published

2016