Jonathan Talor scite author profile

Perfusion quality is an important issue in extracorporeal life support (ECLS); without adequate perfusion of the brain and other vital organs, multiorgan dysfunction and other deficits can result. The authors tested three different pediatric oxygenators (Medos Hilite 800 LT, Medtronic Minimax Plus, and Capiox Baby RX) to determine which gives the highest quality of perfusion at flow rates of 400, 600, and 800 mL/min using human blood (36 degrees C, 40% hematocrit) under both nonpulsatile and pulsatile flow conditions. Clinically identical equipment and a pseudo-patient were used to mimic operating conditions during neonatal ECLS. Traditionally, the postoxygenator surplus hemodynamic energy value (SHE(post), extra energy obtained through pulsatile flow) is the one relied upon to give a qualitative determination of the amount of perfusion in the patient; the authors also examined SHE retention through the membrane, as well as the contribution of SHE(post) to the postoxygenator total hemodynamic energy (THE(post)). At each experimental condition, pulsatile flow outperformed nonpulsatile flow for all factors contributing to perfusion quality: the SHE(post) values for pulsatile flow were 4.6-7.6 times greater than for nonpulsatile flow, while the THE(post) remained nearly constant for pulsatile versus nonpulsatile flow. For both pulsatile and nonpulsatile flow, the Capiox Baby RX oxygenator was found to deliver the highest quality of perfusion, while the Minimax Plus oxygenator delivered the least perfusion. It is the authors' recommendation that the Baby RX oxygenator running under pulsatile flow conditions be used for pediatric ECLS, but further studies need to be done in order to establish its effectiveness beyond the FDA-approved time span.

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Translational Research in Pediatric Extracorporeal Life Support Systems and Cardiopulmonary Bypass Procedures: 2011 Update

Qiu

Talor

Zahn

et al. 2011

World J Pediatr Congenit Heart Surg

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Over the past 6 years at Penn State Hershey, we have established the pediatric cardiovascular research center with a multidisciplinary research team with the goal to improve the outcomes for children undergoing cardiac surgery with cardiopulmonary bypass (CPB) and extracorporeal life support (ECLS). Due to the variety of commercially available pediatric CPB and ECLS devices, both in vitro and in vivo translational research have been conducted to achieve the optimal choice for our patients. By now, every component being used in our clinical settings in Penn State Hershey has been selected based on the results of our translational research. The objective of this review is to summarize our translational research in Penn State Hershey Pediatric Cardiovascular Research Center and to share the latest results with all the interested centers.

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The Multiplier Method for Prediction of Adult Height

Paley¹,

Talor²,

Levin³

et al. 2004

Journal of Pediatric Orthopaedics

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The authors propose the "height multiplier method," a new, simple, universal method to predict adult height. The authors calculated age- and gender-specific height multiplier values and validated their use for height prediction. Average height multiplier values (M) for boys and girls were calculated by dividing height at skeletal maturity (Htm) by present height (Ht) for each age, gender, and height percentile (M=Htm/Ht) using data published by the Centers for Disease Control and Prevention (CDC). The accuracy of the multiplier method was compared with the CDC growth charts using longitudinal growth data from 52 normal children. No significant differences were noted between predictions made using the CDC growth charts versus the multiplier method. The authors also compared the CDC-derived multiplier values with other growth databases from around the world and from different eras. Height multipliers were independent of height percentile, race, and generation, indicating that the multiplier method is universal.

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Benefits of pulsatile flow in pediatric cardiopulmonary bypass procedures: from conception to conduction

et al. 2011

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This review on the benefits of pulsatile flow includes not only experimental and clinical data, but also attempts to further illuminate the major factors as to why this debate has continued during the past 55 years. Every single component of the cardiopulmonary bypass (CPB) circuitry is equally important for generating adequate quality of pulsatility, not only the pump. Therefore, translational research is a necessity to select the best components for the circuit. Generation of pulsatile flow depends on an energy gradient; precise quantification in terms of hemodynamic energy levels is, therefore, a necessity, not an option. Comparisons between perfusion modes should be done after these basic steps have been taken. We have also included experimental and clinical data for direct comparisons between the perfusion modes. In addition, we included several suggestions for future clinical trials for other interested investigators.

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The Multiplier Method for Prediction of Adult Height

Paley

Talor

Levin

et al. 2004

Journal of Pediatric Orthopaedics

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Jonathan Talor

Comparison of Perfusion Quality in Hollow‐Fiber Membrane Oxygenators for Neonatal Extracorporeal Life Support

Translational Research in Pediatric Extracorporeal Life Support Systems and Cardiopulmonary Bypass Procedures: 2011 Update

The Multiplier Method for Prediction of Adult Height

Benefits of pulsatile flow in pediatric cardiopulmonary bypass procedures: from conception to conduction

The Multiplier Method for Prediction of Adult Height

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