Your search keyword '"Dasse, Kurt A."' showing total 11 results

1. Design and Computational Evaluation of a Pediatric MagLev Rotary Blood Pump

Author

Tompkins, Landon H., Gellman, Barry N., Morello, Gino F., Prina, Steven R., Roussel, Thomas J., Kopechek, Jonathan A., Petit, Priscilla C., Slaughter, Mark S., Koenig, Steven C., and Dasse, Kurt A.

Abstract

Supplemental Digital Content is available in the text.Pediatric heart failure (HF) patients have been a historically underserved population for mechanical circulatory support (MCS) therapy. To address this clinical need, we are developing a low cost, universal magnetically levitated extracorporeal system with interchangeable pump heads for pediatric support. Two impeller and pump designs (pump V1 and V2) for the pediatric pump were developed using dimensional analysis techniques and classic pump theory based on defined performance criteria (generated flow, pressure, and impeller diameter). The designs were virtually constructed using computer-aided design (CAD) software and 3D flow and pressure features were analyzed using computational fluid dynamics (CFD) analysis. Simulated pump designs (V1, V2) were operated at higher rotational speeds (~5,000 revolutions per minute [RPM]) than initially estimated (4,255 RPM) to achieve the desired operational point (3.5 L/min flow at 150 mm Hg). Pump V2 outperformed V1 by generating approximately 30% higher pressures at all simulated rotational speeds and at 5% lower priming volume. Simulated hydrodynamic performance (achieved flow and pressure, hydraulic efficiency) of our pediatric pump design, featuring reduced impeller size and priming volume, compares favorably to current commercially available MCS devices.

Published

2021

2. P107: In Vitro, Benchtop Testing Indicates Improved Hemocompatibility with a New Magnetically Levitated VAD

Author

Coghill, Phillip, Long, James W., Dasse, Kurt, Lin, Frank, and Chen, Chen

Published

2023

3. The Pathophysiology of Nitrogen Dioxide During Inhaled Nitric Oxide Therapy

Author

Petit, Priscilla C., Fine, David H., Vásquez, Gregory B., Gamero, Lucas, Slaughter, Mark S., and Dasse, Kurt A.

Abstract

Administration of inhaled nitric oxide (NO) with the existing compressed gas delivery systems is associated with unavoidable codelivery of nitrogen dioxide (NO2), an unwanted toxic contaminant that forms when mixed with oxygen. The NO2is generated when NO is diluted with O2-enriched air before delivery to the patient. When NO2is inhaled by the patient, it oxidizes protective antioxidants within the epithelial lining fluid (ELF) and triggers extracellular damage in the airways. The reaction of NO2within the ELF triggers oxidative stress (OS), possibly leading to edema, bronchoconstriction, and a reduced forced expiratory volume in 1 second. Nitrogen dioxide has been shown to have deleterious effects on the airways of high-risk patients including neonates, patients with respiratory and heart failure, and the elderly. Minimizing co-delivery of NO2for the next generation delivery systems will be a necessity to fully optimize the pulmonary perfusion of NO because of vasodilation, whereas minimizing the negative ventilatory and histopathological effects of NO2exposure during inhaled NO therapy.

Published

2017

4. Platelet Activation After Implantation of the Levitronix PediVAS in the Ovine Model

Author

Johnson, Carl A., Shankarraman, Venkat, Wearden, Peter D., Kocyildirim, Ergin, Maul, Timothy M., Marks, John D., Richardson, J. Scott, Gellman, Barry N., Borovetz, Harvey S., Dasse, Kurt A., and Wagner, William R.

Abstract

The Levitronix PediVAS is an extracorporeal magnetically levitated pediatric ventricular assist system with an optimal flow rate range of 0.3–1.5 L/min. The system is being tested in preclinical studies to assess hemodynamic performance and biocompatibility. The PediVAS was implanted in nine ovines for 30 days using either commercially available cannulae (n 3) or customized Levitronix cannulae (n 6). Blood biocompatibility in terms of circulating activated platelets was measured by flow cytometric assays to detect P-selectin. Platelet activation was further examined after exogenous agonist stimulation. Platelet activation increased after surgery and eventually returned to baseline in animal studies where minimal kidney infarcts were observed. Platelet activation remained elevated for the duration of the study in animals where a moderate number of kidney infarcts with or without thrombotic deposition in the cannulae were observed. When platelet activation did return to baseline, platelets appropriately responded to agonist stimulation, signifying conserved platelet function after PediVAS implant. Platelet activation returned to baseline in the majority of studies, representing a promising biocompatibility result for the Levitronix PediVAS.

Published

2011

5. A Hemodynamic Evaluation of the Levitronix Pedivas Centrifugal Pump and Jostra Hl-20 Roller Pump Under Pulsatile and Nonpulsatile Perfusion in an Infant CPB Model

Author

Ressler, Noel, Rider, Alan R., Kunselman, Allen R., Richardson, J Scott, Dasse, Kurt A., Wang, Shigang, and Ündar, Akif

Abstract

The hemodynamic comparison of the Jostra HL-20 and the Levitronix PediVAS blood pumps is the focus this study, where pressure-flow waveforms and hemodynamic energy values are analyzed in the confines of a pediatric cardiopulmonary bypass circuit.

Published

2009

6. Assessment of Hydraulic Performance and Biocompatibility of a MagLev Centrifugal Pump System Designed for Pediatric Cardiac or Cardiopulmonary Support

Author

Dasse, Kurt A., Gellman, Barry, Kameneva, Marina V., Woolley, Joshua R., Johnson, Carl A., Gempp, Thomas, Marks, John D., Kent, Stella, Koert, Andrew, Richardson, J Scott, Franklin, Steve, Snyder, Trevor A., Wearden, Peter, Wagner, William R., Gilbert, Richard J., and Borovetz, Harvey S.

Abstract

The treatment of children with life-threatening cardiac and cardiopulmonary failure is a large and underappreciated public health concern. We have previously shown that the CentriMag is a magnetically levitated centrifugal pump system, having the utility for treating adults and large children (1,500 utilized worldwide). We present here the PediVAS, a pump system whose design was modified from the CentriMag to meet the physiological requirements of young pediatric and neonatal patients. The PediVAS is comprised of a single-use centrifugal blood pump, reusable motor, and console, and is suitable for right ventricular assist device (RVAD), left ventricular assist device (LVAD), biventricular assist device (BVAD), or extracorporeal membrane oxygenator (ECMO) applications. It is designed to operate without bearings, seals and valves, and without regions of blood stasis, friction, or wear. The PediVAS pump is compatible with the CentriMag hardware, although the priming volume was reduced from 31 to 14 ml, and the port size reduced from 3/8 to ¼ in. For the expected range of pediatric flow (0.3–3.0 L/min), the PediVAS exhibited superior hydraulic efficiency compared with the CentriMag. The PediVAS was evaluated in 14 pediatric animals for up to 30 days, demonstrating acceptable hydraulic function and hemocompatibility. The current results substantiate the performance and biocompatibility of the PediVAS cardiac assist system and are likely to support initiation of a US clinical trial in the future.

Published

2007

7. Photolytically Driven Generation of Dissolved Oxygen and Increased Oxyhemoglobin in Whole Blood

Author

Monzyk, Bruce F., Burckle, Eric C., Carleton, Linda M., Busch, James, Dasse, Kurt A., Martin, Peter M., and Gilbert, Richard J.

Abstract

The severely debilitating nature of chronic lung disease has long provided the impetus for the development of technologies to supplement the respiratory capacity of the human lung. Although conventional artificial lung technologies function by delivering pressurized oxygen to the blood through a system of hollow fibers or tubes, our approach uses photolytic energy to generate dissolved oxygen (DO) from the water already present in blood, thus eliminating the need for gas delivery. We have previously demonstrated that it is feasible to generate dissolved oxygen from water based on UVA illumination of a highly absorbent TiO2thin film. In the current study, we extend this work by using photolytic energy to generate DO from whole blood, thus resulting in an increase of oxyhemoglobin as a function of back side TiO2surface film illumination. Initial experiments, performed with Locke's Ringer solution, demonstrated effective film thickness and material selection for the conductive layer. The application of a small bias voltage was used to conduct photogenerated electrons from the aqueous phase to minimize electron recombination with the DO.

Published

2006

8. Multicenter clinical evaluation of the HeartMate vented electric left ventricular assist system in patients awaiting heart transplantation

Author

Frazier, O.H., Rose, Eric A., Oz, Mehmet C., Dembitsky, Walter, McCarthy, Patrick, Radovancevic, Branislav, Poirier, Victor L., and Dasse, Kurt A.

Abstract

Background:Despite advances in heart transplantation and mechanical circulatory support, mortality among transplant candidates remains high. Better ways are needed to ensure the survival of transplant candidates both inside and outside the hospital. Methods:In a prospective, multicenter clinical trial conducted at 24 centers in the United States, 280 transplant candidates (232 men, 48 women; median age, 55 years; range, 11-72 years) unresponsive to inotropic drugs, intra-aortic balloon counterpulsation, or both, were treated with the HeartMate Vented Electric Left Ventricular Assist System (VE LVAS). A cohort of 48 patients (40 men, 8 women; median age, 50 years; range, 21-67 years) not supported with an LVAS served as a historical control group. Outcomes were measured in terms of laboratory data (hemodynamic, hematologic, and biochemical), adverse events, New York Heart Association functional class, and survival. Results:The VE LVAS–treated and non–VE LVAS–treated (control) groups were similar in terms of age, sex, and distribution of patients by diagnosis (ischemic cardiomyopathy, idiopathic cardiomyopathy, and subacute myocardial infarction). VE LVAS support lasted an average of 112 days (range, < 1-691 days), with 54 patients supported for > 180 days. Mean VE LVAS flow (expressed as pump index) throughout support was 2.8 L · min–1· m–2. Median total bilirubin values decreased from 1.2 mg/dL at baseline to 0.7 mg/dL (P=.0001); median creatinine values decreased from 1.5 mg/dL at baseline to 1.1 mg/dL (P=.0001). VE LVAS–related adverse events included bleeding in 31 patients (11%), infection in 113 (40%), neurologic dysfunction in 14 (5%), and thromboembolic events in 17 (6%). A total of 160 (58%) patients were enrolled in a hospital release program. Twenty-nine percent of the VE LVAS-treated patients (82/280) died before receiving a transplant, compared with 67% of controls (32/48) (P<.001). Conversely, 71% of the VE LVAS–treated patients (198/280) survived: 67% (188/280) ultimately received a heart transplant, and 4% (10/280) had the device removed electively. One-year post-transplant survival of VE LVAS–treated patients was significantly better than that of controls (84% [158/188] vs 63% [10/16]; log rank analysis P=.0197). Conclusion:The HeartMate VE LVAS provides adequate hemodynamic support, has an acceptably low incidence of adverse effects, and improves survival in heart transplant candidates both inside and outside the hospital. The studies of the HeartMate LVAS (both pneumatic and electric) for Food and Drug Administration approval are the only studies with a valid control group to show a survival benefit for cardiac transplantation.

Published

2001

9. Transition From Cardiopulmonary Bypass to the HeartMate Left Ventricular Assist Device 11Victor Poirer is President, CEO, and Director of Thermo Cardiosystems Inc. He receives financial compensation and stock options from Thermo Cardiosystems Inc. Doctor Dasse is Vice President, Medical Technologies of Thermo Biomedical Group within Thermo Electron Corporation. He does not receive financial compensation from Thermo Cardiosystems Inc but has received stock options from Thermo Cardiosystems Inc.

Author

Tector, Alfred J, Kress, David C, Downey, Francis X, Schmahl, Terence M, Dasse, Kurt A, and Poirier, Victor L

Abstract

Background. Safe transition from cardiopulmonary bypass to the HeartMate left ventricular assist device without periods of low output, air emboli, or injury to the right ventricle is vital to its successful implantation. A right atrial-to-left ventricular shunt has been developed to purge quickly and completely all air from the system and prevent its reentry, as well as to assist the right ventricle during the transition from cardiopulmonary bypass to the HeartMate.

Published

1998

10. Mechanical Cardiac Assistance and Replacement

Author

Macoviak, John A., Dasse, Kurt A., and Poirier, Victor L.

Abstract

This article aims not to review the limited and difficult to compare clinical results with mechanical cardiac assist devices. Instead, a practical classification and analysis of these devices is presented, which will afford the clinician insights about when, how, and why to use specific mechanical support.

Published

1990

11. Repositioning of fast and slow skeletal muscle

Author

Dasse, Kurt A., Chase, Dorothy, Burke, David, Goldberg, Alan, and Ullrick, William C.

Abstract

The origins of the rat fast plantaris and slow soleus muscles were surgically reversed and their fibre types and contractile properties examinedin vitro up to 12 weeks post surgery. Muscles in which the origins had been severed and then immediately sutured back in place served as one control group. Unoperated animals served as a second control group. As compared to these groups, no significant differences in the histochemical or mechanical properties of the repositioned muscles were detected. Under the conditions of the experiments, no evidence was obtained to indicate that the intrinsic properties of a muscle could be altered by changing its site of origin and thus its functional environment.

Published

1981