J. R. Ybarra scite author profile

Cardiopulmonary bypass surgical techniques that allow a surgeon to operate on the infant's heart use an extracorporeal circuit consisting of a pump, oxygenator, arterial and venous reservoirs, cannulae, an arterial filter, and tubing. The extracorporeal technique currently used in infants and neonates is sometimes associated with neurologic damage. We are developing a modified cardiopulmonary bypass system for neonates that has been tested in vitro and in one animal in vivo. Unlike other extracorporeal circuits which use steady flow, this system utilizes pulsatile flow, a low prime volume (500 ml) and a closed circuit. During in vitro experiments, the pseudo patient's mean arterial pressure was kept constant at 40 mmHg and the extracorporeal circuit pressure did not exceed a mean pressure of 200 mmHg. In our single in vivo experiment, the primary objective was to determine whether physiologic pulsatility with a 10 F (3.3 mm) aortic cannula could be achieved. The results suggest that this is possible.

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Comparison of Flow Differences among Venous Cannulas

Bennett

Fewel

Ybarra

et al. 1983

The Annals of Thoracic Surgery

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Testing neonate-infant membrane oxygenators with the University of Texas neonatal pulsatile cardiopulmonary bypass system in vitro

et al. 1998

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Neurologic complications are already well documented after cardiopulmonary bypass (CPB) procedures in neonates and infants. Physiologic pulsatile flow CPB systems may be the alternative to the currently used steady-flow CPB circuits. In addition to the pulsatile pump, a membrane oxygenator should be chosen carefully, because only a few membrane oxygenators are suitable for physiologic pulsatile flow. We have tested four different types of neonate-infant membrane oxygenators for physiologic pulsatility with The University of Texas neonate-infant pulsatile CPB system in vitro. Evaluation criteria were based on mean ejection time, extracorporeal circuit (ECC) pressure, and upstroke of dp/dt. The results suggested that the Capiox 308 hollow-fibre membrane oxygenator produced the best physiologic pulsatile waveform according to the ejection time, ECC pressure, and the upstroke of dp/dt. The Minimax Plus and Masterflo Infant hollow-fibre membrane oxygenators also produced adequate pulsatile flow. Only the Variable Prime Cobe Membrane Lung (VPCML) Plus flat-sheet membrane oxygenator failed to reach the criteria for physiologic pulsatility. Depending on the oxygenator used, the lowest priming volume of the infant CPB circuit was 415 ml and the highest 520 ml.

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Enhancement of Brain p0₂During Cardiopulmonary Bypass using a Hyperosmolar Oxygen Carrying Solution

Runge

McGinity

Frisbee

et al. 1997

Artificial Cells, Blood Substitutes, and Biotechnology

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During the past decade a new syndrome has been recognized: cerebral hypoxia secondary to cardiopulmonary bypass, resulting in impairment of cognitive memory. The incidence of the syndrome appears to be no less that 30% in patients over 65 years of age undergoing cardiac surgery. There are several factors contributing to hypoxia produced by cardiopulmonary bypass. One of these factors is crystalloid pump prime and replacement solutions devoid of (1) oxygen carrying capacity and (2) devoid of protein and its colloid osmotic pressure. This shortcoming of cardiopulmonary crystalloid solutions is partially responsible for two of the three major pathologic effects of cardiopulmonary bypass: (1) hypoxia (2) interstitial fluid accumulation (anasarca, water-logging, edema). This report describes an oxygen carrying hyperosmolar solution which enhances brain p0(2) and diminishes interstitial fluid accumulation. This blood substitute consists of perfluorcarbons and saccharides, but could consist of a hemoglobin variant plus hyperosmolar ingredients other than saccharides. The advantage of a perfluorochemical is its ability to access small channels and to be centrifuged off the patient post-operatively with a cell saver. The advantage of saccharides is that they can be metabolized by the patient for energy, and they produce a moderate diuresis coming off bypass.

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J. R. Ybarra

Schwann cell response on polypyrrole substrates upon electrical stimulation

Design of a Physiologic Pulsatile Flow Cardiopulmonary Bypass System for Neonates and Infants

Comparison of Flow Differences among Venous Cannulas

Testing neonate-infant membrane oxygenators with the University of Texas neonatal pulsatile cardiopulmonary bypass system in vitro

Enhancement of Brain p0₂During Cardiopulmonary Bypass using a Hyperosmolar Oxygen Carrying Solution

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J. R. Ybarra

Schwann cell response on polypyrrole substrates upon electrical stimulation

Design of a Physiologic Pulsatile Flow Cardiopulmonary Bypass System for Neonates and Infants

Comparison of Flow Differences among Venous Cannulas

Testing neonate-infant membrane oxygenators with the University of Texas neonatal pulsatile cardiopulmonary bypass system in vitro

Enhancement of Brain p02During Cardiopulmonary Bypass using a Hyperosmolar Oxygen Carrying Solution

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Enhancement of Brain p0₂During Cardiopulmonary Bypass using a Hyperosmolar Oxygen Carrying Solution