LF Wong scite author profile

LF Wong

4Publications

25Citation Statements Received

12Citation Statements Given

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Etobicoke General Hospital

Publications

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Systemic Hemodynamic and Hepatic Microvascular Responses to A 33% Blood Volume Exchange with Whole Blood, Stroma-Free Hemoglobin, and Oxypolyhemoglobin Solutions

Sherman¹,

Dlugosz²,

Perelman³

et al. 1993

Biomaterials, Artificial Cells and Immobilization Biotechnology

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Little is known about the microvascular effects of blood replacement solutions. This study was undertaken to develop an animal model suitable for studies of the microcirculatory effects of such solutions and to investigate microvascular responses to isovolemic transfusion with stroma-free hemoglobin (SFH), whole donor blood, or a new potential blood substitute solution containing oxypolyhemoglobin (OPH) as an oxygen carrier. Hamster livers were exposed and the microcirculation studied using intravital epifluorescent video microscopy. 33% blood volume replacement with SFH elevated systemic blood pressure by 25 Torr. Accompanying this increase in pressure was a 36% decrease in sinusoidal blood flow velocity and a 10% decrease in terminal hepatic venular diameters. Terminal portal venular diameters did not change. Decrease in liver sinusoidal perfusion was not due to neutrophil mediated injury, as myeloperoxidase activity in jejunum, liver, kidney, and lung remained unchanged. The reduction in perfusion was likely due to systemic vasoconstriction produced by SFH. In contrast, transfusion with whole blood did not change any of the measured parameters showing the excellent stability of the model. OPH transfused animals exhibited only a small 10 Torr transient increase in MAP 15 min post-transfusion. By 30 min MAP returned to the pre-infusion value. No significant changes were observed in either venular diameters or sinusoidal velocities in this group of animals. These results demonstrate suitability of this model for studies of the microcirculatory and hemodynamic effects of blood replacement solutions. Furthermore, OPH solution produced only minor transient disturbances in microvascular and systemic parameters.

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Hemolink™-Induced Effects on Intestinal Motor Function and Attenuation of These Effects by Selected Agents

Wong

Ning

et al. 1998

Artificial Cells, Blood Substitutes, and Biotechnology

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Hemolink, an oxidized, ring-opened raffinose-crosslinked hemoglobin-based oxygen carrier produced by Hemosol Inc., stimulates esophageal peristalsis, possibly by interference with neural NO-mediated effects. The effects of Hemolink on jejunal tone and contractions, arterial pressure and heart rate were measured in anesthetized rats, and the effect of selected agents in attenuating or reversing these effects was studied. Infusion of L-NAME was used to validate the study model; it caused an immediate increase in tone and initiated phasic contractions indicating that the model was responsive to NO-mediated effects. Hemolink administration caused effects on intestinal motor function similar to those caused by L-NAME, including increases in basal tone and contraction amplitude. Rat whole blood caused none of these changes. The Hemolink-induced effects were less immediate in some animals compared to those observed after L-NAME. As well there was greater inter-animal variability on the effects. Hemolink administration also caused a mild increase in arterial blood pressure and a reciprocal decrease in heart rate in some animals. Co-administration of morphine, a common analgesic that has been reported to influence the motility of the GI tract; L-arginine, a substrate for NO synthesis; and glycopyrrolate, an anti-cholinergic agent, did not significantly modulate the Hemolink effects, whereas nitroglycerin, an NO donor; and nifedipine, a slow calcium-channel blocker, attenuated or reversed these effects.

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in vivo Oxygenation of Deoxy-Hemolink™ Following Exchange Transfusions of 50% or 90% the Blood Volume in Rats

Ning¹,

Er²,

Wong³

1998

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Molecular Weight Dewterminations of o-Raffinose-Polymerized Human Hemoglobin

Moore

Fishman

Ledford

et al. 1992

Biomaterials, Artificial Cells and Immobilization Biotechnology

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LF Wong

Systemic Hemodynamic and Hepatic Microvascular Responses to A 33% Blood Volume Exchange with Whole Blood, Stroma-Free Hemoglobin, and Oxypolyhemoglobin Solutions

Hemolink™-Induced Effects on Intestinal Motor Function and Attenuation of These Effects by Selected Agents

in vivo Oxygenation of Deoxy-Hemolink™ Following Exchange Transfusions of 50% or 90% the Blood Volume in Rats

Molecular Weight Dewterminations of o-Raffinose-Polymerized Human Hemoglobin

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