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53. An ex vivo comparison of partial thromboplastin time and activated clotting time for heparin anticoagulation in an ovine model.

Author

Berk, Zachary B. K., Shah, Aakash, Sun, Wenji, Griffith, Bartley P., and Wu, Zhongjun J.

Subjects
PARTIAL thromboplastin time, HEPARIN, ARTIFICIAL blood circulation, EXTRACORPOREAL membrane oxygenation, ANTICOAGULANTS
Abstract

Background: Sheep are a primary model of mechanical circulatory support (MCS) with heparin anticoagulation therapy frequently being monitored by activated clotting time (ACT) due to ease and cost. In patients undergoing long‐term heparin therapy, other anticoagulation monitoring strategies, such as activated partial thromboplastin time (aPTT), have proven to be more reliable indicators for the adequacy of anticoagulation, frequently determined by heparin concentration. As there is a paucity of similar studies in sheep, we sought to investigate the correlation between heparin concentration and ACT and aPTT using whole sheep blood in an ex vivo model. Methods: Fresh whole blood was serially drawn from an adult female Dorset‐hybrid sheep and aliquots were placed into tubes containing heparin saline solutions with concentrations ranging from 0 to 7.81 U heparin per mL of whole blood. ACT and aPTT values were measured on each of the samples. The experiment was performed four times with the same animal. A simple linear regression was performed to determine correlation, and subgroup analysis was performed on low versus high heparin concentrations typically seen in human patients on long‐term MCS, such as extracorporeal membrane oxygenation (ECMO), versus cardiopulmonary bypass, respectively. Results: aPTT measurements versus the heparin concentration had an R2 = 0.7295. ACT measurements versus the heparin concentration had a R2 = 0.4628. aPTT measurements versus the ACT measurements had a R2 = 0.2974. The strength of the correlation between aPTT and heparin concentration increased at low heparin concentrations (R2 = 0.8392). Conclusion: aPTT had a more reliable correlation to heparin concentration and thus anticoagulation level than ACT. This was particularly true at lower heparin concentrations, similar to ranges seen for patients on ECMO. The correlation between aPTT and ACT values was poor. Further in vivo studies should be performed to confirm our results. [ABSTRACT FROM AUTHOR]

Published
2022
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67. Neutrophil dysfunction due to continuous mechanical shear exposure in mechanically assisted circulation in vitro.

Author

Sun, Wenji, Zhang, Jiafeng, Shah, Aakash, Arias, Katherin, Berk, Zachary, Griffith, Bartley P., and Wu, Zhongjun J.

Subjects
NEUTROPHILS, REACTIVE oxygen species, PHENOTYPIC plasticity, IMMUNE system
Abstract

Objective: Leukocytes play an important role in the body's immune system. The aim of this study was to assess alterations in neutrophil phenotype and function in pump‐assisted circulation in vitro. Methods: Human blood was circulated for four hours in three circulatory flow loops with a CentriMag blood pump operated at a flow of 4.5 L/min at three rotational speeds (2100, 2800, and 4000 rpm), against three pressure heads (75, 150, and 350 mm Hg), respectively. Blood samples were collected hourly for analyses of neutrophil activation state (Mac‐1, CD62L, CD162), neutrophil reactive oxygen species (ROS) production, apoptosis, and neutrophil phagocytosis. Results: Activated neutrophils indicated by both Mac‐1 expression and decreased surface expression of CD62L and CD162 receptors increased with time in three loops. The highest level of neutrophil activation was observed in the loop with the highest rotational speed. Platelet‐neutrophil aggregates (PNAs) progressively increased in two loops with lower rotational speeds. PNAs peaked at one hour after circulation and decreased subsequently in the loop with the highest rotational speed. Neutrophil ROS production dramatically increased at one hour after circulation and decreased subsequently in all three loops with similar levels and trends. Apoptotic neutrophils increased with time in all three loops. Neutrophil phagocytosis capacity in three loops initially elevated at one hour after circulation and decreased subsequently. Apoptosis and altered phagocytosis were dependent on rotational speed. Conclusions: Our study revealed that the pump‐assisted circulation induced neutrophil activation, apoptosis, and functional impairment. The alterations were strongly associated with pump operating condition and duration. [ABSTRACT FROM AUTHOR]

Published
2022
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71. Neutrophil injury and function alterations induced by high mechanical shear stress with short exposure time.

Author

Sun, Wenji, Wang, Shigang, Zhang, Jiafeng, Arias, Katherin, Griffith, Bartley P., and Wu, Zhongjun J.

Subjects
STRAINS & stresses (Mechanics), SHEARING force, HEART assist devices, PHAGOCYTIC function tests, BLOOD cells, NEUTROPHILS, VIRAL shedding
Abstract

High mechanical shear stresses (HMSS) can cause damage to blood, which manifests as morphologic changes, shortened life span, biochemical alterations, and complete rupture of blood cells and proteins, leading to the alterations of normal blood function. The aim of this study is to determine the state of neutrophil activation and function alterations caused by HMSS with short exposure time relevant to ventricular assist devices. Blood from healthy donors was exposed to three levels of HMSS (75Pa, 125Pa, and 175Pa) for a short exposure time (0.5 s) using our Couette‐type blood‐shearing device. Neutrophil activation (Mac‐1, platelet‐neutrophil aggregates) and surface expression levels of two key functional receptors (CD62L and CD162) on neutrophils were evaluated by flow cytometry. Neutrophil phagocytosis and transmigration were also examined with functional assays. Results showed that the expression of Mac‐1 on neutrophils and platelet‐neutrophil aggregates increased significantly while the level of CD62L expression on neutrophils decreased significantly after the exposure to HMSS. The Mac‐1 expression progressively increased while the CD62L expression progressively decreased with the increased level of HMSS. The level of CD162 expression on neutrophils slightly increased after the exposure to HMSS, but the increase was not significant. The phagocytosis assay data revealed that the ability of neutrophils to phagocytose latex beads coated with fluorescently labeled rabbit IgG increased significantly with the increased level of HMSS. The transmigration ability of neutrophils slightly increased after the exposure to HMSS, but did not reach a significant level. In summary, HMSS with a short exposure time of 0.5 seconds could induce neutrophil activation, platelet‐neutrophil aggregation, shedding of CD62L receptor, and increased phagocytic ability. However, the exposure to the three levels of HMSS did not cause a significant change in neutrophil transmigration capacity and shedding of CD162 receptor on neutrophils. [ABSTRACT FROM AUTHOR]

Published
2021
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79. Extracorporeal Membrane Oxygenation (ECMO) for Long-Term Support: Recent Advances

Author

Gregory Conway, R., Tran, Douglas, Griffith, Bartley P., Wu, Zhongjun J., Gregory Conway, R., Tran, Douglas, Griffith, Bartley P., and Wu, Zhongjun J.

Abstract

Considerable progress has been made in component technology, circuitry, and clinical practice related to extracorporeal membrane oxygenation (ECMO). These advances allow prolonged support with fewer complications when compared to the past eras. Long-term support cases were frequently reported with indications including respiratory failure, cardiac failure, bridge to transplantation, extracorporeal cardiopulmonary resuscitation (ECPR), and even ambulatory extracorporeal membrane oxygenation (ECMO) support. The common complications associated with ECMO, including thrombosis, hemorrhage, nosocomial infection, neurological injury, vessel injury, multiple organ failure and mechanical failure, and the disease process of patients remain limiting factors. In spite of the complications, ECMO remains the only possible option in treatments for patients requiring long-term respiratory or cardiopulmonary support. In this chapter, the recent advances in long-term ECMO support are reviewed. Clinical etiology of patients placed on long-term ECMO support, the various circuit configurations, clinical and technical issues, management aspects, and clinical outcomes are discussed.

Published
2018
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80. The impact of shear stress on device‐induced platelet hemostatic dysfunction relevant to thrombosis and bleeding in mechanically assisted circulation.

Author

Chen, Zengsheng, Zhang, Jiafeng, Li, Tieluo, Tran, Douglas, Griffith, Bartley P., and Wu, Zhongjun J.

Subjects
SHEARING force, BLOOD platelets, COMPUTATIONAL fluid dynamics, VON Willebrand factor, BLOOD platelet activation
Abstract

The aim of this study was to examine the impact of the nonphysiological shear stress (NPSS) on platelet hemostatic function relevant to thrombosis and bleeding in mechanically assisted circulation. Fresh human blood was circulated for four hours in in vitro circulatory flow loops with a CentriMag blood pump operated under a flow rate of 4.5 L/min against three pressure heads (70 mm Hg, 150 mm Hg, and 350 mm Hg) at 2100, 2800, and 4000 rpm, respectively. Hourly blood samples from the CentriMag pump‐assisted circulation loops were collected and analyzed for glycoprotein (GP) IIb/IIIa activation and receptor shedding of GPVI and GPIbα on the platelet surface with flow cytometry. Adhesion of platelets to fibrinogen, collagen, and von Willebrand factor (VWF) of the collected blood samples was quantified with fluorescent microscopy. In parallel, mechanical shear stress fields within the CentriMag pump operated under the three conditions were assessed by computational fluid dynamics (CFD) analysis. The experimental results showed that levels of platelet GPIIb/IIIa activation and platelet receptor shedding (GPVI and GPIbα) in the blood increased with increasing the circulation time. The levels of platelet activation and loss of platelet receptors GPVI and GPIbα were consistently higher with higher pressure heads at each increasing hour in the CentriMag pump‐assisted circulation. The platelet adhesion on fibrinogen increased with increasing the circulation time for all three CentriMag operating conditions and was correlated well with the level of platelet activation. In contrast, the platelet adhesion on collagen and VWF decreased with increasing the circulation time under all the three conditions and was correlated well with the loss of the receptors GPVI and GPIbα on the platelet surface, respectively. The CFD results showed that levels of shear stresses inside the CentriMag pump under all three operating conditions exceeded the maximum level of shear stress in the normal physiological circulation and were strongly dependent on the pump operating condition. The level of platelet activation and loss of key platelet adhesion receptors (GPVI and GPIbα) were correlated with the level of NPSS generated by the CentriMag pump, respectively. In summary, the level of NPSS associated with pump operating condition is a critical determinant of platelet dysfunction in mechanically assisted circulation. [ABSTRACT FROM AUTHOR]

Published
2020
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81. High-efficiency, high-flux in-line hemofiltration using a high blood flow extracorporeal circuit.

Author

Grazioli, Alison, Shah, Sanjeev R, Rabin, Joseph, Shah, Rashmikant, Madathil, Ronson J, King, Joshua D, DiChiacchio, Laura, Rector, Raymond P, Deatrick, Kristopher B, Wu, Zhongjun J, and Herr, Daniel L

Subjects
BLOOD circulation, BLOOD filtration, CREATININE, ELECTROLYTES, EXTRACORPOREAL membrane oxygenation, HEMODIALYSIS, HEMODYNAMICS
Abstract

The ability of current renal replacement therapy modalities to achieve rapid solute removal is limited by membrane surface area and blood flow rate. Extracorporeal membrane oxygenation offers high blood flow and hemodynamic support that may be harnessed to overcome limitations in traditional renal replacement therapy. Using an extracorporeal membrane oxygenation circuit, we describe a high blood flow, high-efficiency hemofiltration technique using in-line hemofilters (hemoconcentrators) and standard replacement fluid to enhance solute clearance. Using this approach and a total of 5 L of replacement volume per treatment, creatinine (Cr) clearances of 8.3 L/hour and 11.2 L/hour using one and two hemoconcentrators, respectively, were achieved. With use of a high blood flow rate of up to 5 L/min, this hemofiltration technique can potentially offer clearance of 30 times that of continuous renal replacement therapy and of 6 times that of hemodialysis which may expand the ability to remove substances traditionally not considered removable via existing extracorporeal therapies. [ABSTRACT FROM AUTHOR]

Published
2020
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82. Association of Oxidative Stress and Platelet Receptor Glycoprotein GPIbα and GPVI Shedding During Nonsurgical Bleeding in Heart Failure Patients With Continuous-Flow Left Ventricular Assist Device Support

Author

Mondal, Nandan K., primary, Chen, Zengsheng, additional, Trivedi, Jaimin R., additional, Sorensen, Erik N., additional, Pham, Si M., additional, Slaughter, Mark S., additional, Griffith, Bartley P., additional, and Wu, Zhongjun J., additional

Published
2018
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84. Extracorporeal Respiratory Support with a Miniature Integrated Pediatric Pump-Lung device (PediPL) in an Acute Ovine Respiratory Failure Model

Author

Wei, Xufeng, Sanchez, Pablo G, Liu, Yang, Watkins, A Claire, Li, Tieluo, Griffith, Bartley P, and Wu, Zhongjun J

Subjects
Sheep, Acute Lung Injury, Hemodynamics, Carbon Dioxide, Heart-Lung Machine, Pulmonary Artery, Respiration, Artificial, Article, Hypercapnia, Oxygen, Disease Models, Animal, Extracorporeal Membrane Oxygenation, Animals, Humans, Heart Atria, Child, Respiratory Insufficiency
Abstract

Respiratory failure is one of the major causes of mortality and morbidity all over the world. Therapeutic options to treat respiratory failure remain limited. The objective of this study was to evaluate the gas transfer performance of a newly developed miniature portable integrated pediatric pump-lung device (PediPL) with small membrane surface for respiratory support in an acute ovine respiratory failure model. The respiratory failure was created in six adult sheep using intravenous anesthesia and reduced mechanical ventilation at 2 breaths/min. The PediPL device was surgically implanted and evaluated for respiratory support in a venovenous configuration between the right atrium and pulmonary artery. The hemodynamics and respiratory status of the animals during support with the device gas transfer performance of the PediPL were studied for 4 h. The animals exhibited respiratory failure 30 min after mechanical ventilation was reduced to 2 breaths/min, indicated by low oxygen partial pressure, low oxygen saturation, and elevated carbon dioxide in arterial blood. The failure was reversed by establishing respiratory support with the PediPL after 30 min. The rates of O

Published
2016

86. Oxidative stress induced modulation of platelet integrin α2bβ3 expression and shedding may predict the risk of major bleeding in heart failure patients supported by continuous flow left ventricular assist devices

Author

Mondal, Nandan K., primary, Chen, Zengsheng, additional, Trivedi, Jaimin R., additional, Sorensen, Erik N., additional, Pham, Si M., additional, Slaughter, Mark S., additional, Griffith, Bartley P., additional, and Wu, Zhongjun J., additional

Published
2017
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87. Erratum to: Mechanistic insight of platelet apoptosis leading to non-surgical bleeding among heart failure patients supported by continuous-flow left ventricular assist devices

Author

Mondal, Nandan K., primary, Li, Tieluo, additional, Chen, Zengsheng, additional, Chen, Hegang H., additional, Sorensen, Erik N., additional, Pham, Si M., additional, Sobieski, Michael A., additional, Koenig, Steven C., additional, Slaughter, Mark S., additional, Griffith, Bartley P., additional, and Wu, Zhongjun J., additional

Published
2017
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88. Continuous-Flow Left Ventricular Assist Device Support Improves Myocardial Supply:Demand in Chronic Heart Failure

Author

Soucy, Kevin G., primary, Bartoli, Carlo R., additional, Phillips, Dustin, additional, Giridharan, Guruprasad A., additional, Sobieski, Michael A., additional, Wead, William B., additional, Dowling, Robert D., additional, Wu, Zhongjun J., additional, Prabhu, Sumanth D., additional, Slaughter, Mark S., additional, and Koenig, Steven C., additional

Published
2017
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90. Effects of Cardiopulmonary Support with a Novel Pediatric Pump-Lung (PediPL) in a Thirty-Day Ovine Animal Model

Author

Liu, Yang, Sanchez, Pablo G, Wei, Xufeng, Watkins, Amelia C, Niu, Shuqiong, Wu, Zhongjun J, and Griffith, Bartley P

Subjects
Sheep, Time Factors, L-Lactate Dehydrogenase, Heparin, Anticoagulants, Biocompatible Materials, Thrombosis, Equipment Design, Heart-Lung Machine, Platelet Activation, Article, Oxygen, Hemoglobins, Models, Animal, Animals, Equipment Failure, Blood Coagulation, Biomarkers
Abstract

The scarcity of donor organs has led to the development of devices that provide optimal long-term respiratory or cardiopulmonary support to bridge recipients as they wait for lung and/or heart transplantation. This study was designed to evaluate the 30-day in vivo performance of the newly developed pediatric pump-lung (PediPL) for cardiopulmonary support using a juvenile sheep model. The PediPL device was placed surgically between the right atrium and descending aorta in eight sheep (25.4-31.2 kg) and evaluated for 30 days. Anticoagulation was maintained with continuous heparin infusion (activated clotting time 150-200 s). The flow rate was measured continually, and gas transfer was measured daily. Plasma free hemoglobin, platelet activation, hematologic data, and blood biochemistry were assessed twice a week. Sheep were euthanized after 30 days. The explanted devices were examined for gross thrombosis. Six sheep survived for 30-32 days. During the study, the oxygen transfer rate of the devices was 54.9 ± 13.2 mL/min at a mean flow rate of 1.14 ± 0.46 L/min with blood oxygen saturation of 95.4% ± 1.7%. Plasma free hemoglobin was 8.2 ± 3.7 mg/dL. Platelet activation was 5.35 ± 2.65%. The animals had normal organ chemistries except for surgery-related transient alterations in kidney and liver function. Although we found some scattered thrombi on the membrane surfaces of some explanted devices during the necropsy, the device function and performance did not degrade. The PediPL device was capable of providing cardiopulmonary support with long-term reliability and good biocompatibility over the 30-day duration and offers the potential option for bridging pediatric patients with end-stage heart or lung disease to heart and/or lung transplantation.

Published
2015

91. High shear induces platelet dysfunction leading to enhanced thrombotic propensity and diminished hemostatic capacity.

Author

Chen, Zengsheng, Griffith, Bartley P., Wu, Zhongjun J., Mondal, Nandan K., Zheng, Shirong, Slaughter, Mark S., and Koenig, Steven C.

Subjects
BLOOD platelet aggregation, SHEARING force
Abstract

Thrombosis and bleeding are devastating adverse events in patients supported with blood-contacting medical devices (BCMDs). In this study, we delineated that high non-physiological shear stress (NPSS) caused platelet dysfunction that may contribute to both thrombosis and bleeding. Human blood was subjected to NPSS with short exposure time. Levels of platelet surface GPIbα and GPVI receptors as well as activation level of GPIIb/IIIa in NPSS-sheared blood were examined with flow cytometry. Adhesion of sheared platelets on fibrinogen, von Willibrand factor (VWF), and collagen was quantified with fluorescent microscopy. Ristocetin- and collagen-induced platelet aggregation was characterized by aggregometry. NPSS activated platelets in a shear and exposure time-dependent manner. The number of activated platelets increased with increasing levels of NPSS and exposure time, which corresponded well with increased adhesion of sheared platelets on fibrinogen. Concurrently, NPSS caused shedding of GPIbα and GPVI in a manner dependent on shear and exposure time. The loss of intact GPIbα and GPVI increased with increasing levels of NPSS and exposure time. The number of platelets adhered on VWF and collagen decreased with increasing levels of NPSS and exposure time, respectively. The decrease in the number of platelets adhered on VWF and collagen corresponded well with the loss in GPIbα and GPVI on platelet surface. Both ristocetin- and collagen-induced platelet aggregation in sheared blood decreased with increasing levels of NPSS and exposure time. The study clearly demonstrated that high NPSS causes simultaneous platelet activation and receptor shedding, resulting in a paradoxical effect on platelet function via two distinct mechanisms. The results from the study suggested that the NPSS could induce the concurrent propensity for both thrombosis and bleeding in patients. [ABSTRACT FROM AUTHOR]

Published
2019
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95. Flow features and device‐induced blood trauma in CF‐VADs under a pulsatile blood flow condition: A CFD comparative study.

Author

Chen, Zengsheng, Jena, Sofen K., Giridharan, Guruprasad A., Koenig, Steven C., Slaughter, Mark S., Griffith, Bartley P., and Wu, Zhongjun J.

Subjects
BLOOD flow, FLUID dynamics, SHEARING force, HEART assist devices, HEMOLYSIS & hemolysins
Abstract

Abstract: In this study, the flow features and device‐associated blood trauma in 4 clinical ventricular assist devices (VADs; 2 implantable axial VADs, 1 implantable centrifugal VAD, and 1 extracorporeal VAD) were computationally analyzed under clinically relevant pulsatile flow conditions. The 4 VADs were operated at fixed pump speed at a mean rate of 4.5 L/min. Mean pressure difference, wall shear stress, volume distribution of scalar shear stress (SSS), and shear‐induced hemolysis index (HI) were derived from the flow field of each VAD and were compared. The computationally predicted mean pressure difference across the 3 implantable VADs was ~70 mmHg, and the extracorporeal VAD was ~345 mmHg, which matched well with their reported pressure‐flow curves. The axial VADs had higher mean wall shear stress and SSS compared with the centrifugal VADs. However, the residence time of the centrifugal VADs was much longer compared with the axial VADs because of the large volume of the centrifugal VADs. The highest SSS was observed in one axial VAD, and the longest exposure time was observed in 1 centrifugal VAD. These 2 VADs generated the highest HI. The shear‐induced HI varied as a function of flow rate within each cardiac cycle. At fixed pump speed, the HI was greatest at low flow rate due to longer exposure time to shear stress compared with at high flow rate. Subsequently, we hypothesize that to reduce the risk of blood trauma during VAD support, shear stress magnitude and exposure time need to be minimized. [ABSTRACT FROM AUTHOR]

Published
2018
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97. Oxidative Stress Induced Modulation of Platelet Integrin αIIbβ3 Expression and Shedding During Major Bleeding in Heart Failure Patients Supported By Continuous Flow Left Ventricular Assist Devices

Author

Mondal, Nandan K., primary, Chen, Zengsheng, additional, Ding, Jun, additional, Sobieski, Mike, additional, Pham, Si, additional, Koenig, Steven, additional, Griffith, Bartley P., additional, Slaughter, Mark S., additional, and Wu, Zhongjun J., additional

Published
2015
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