Development of a Perfluorochemical Emulsion as a Blood Gas Carrier

Mitsuno, Takao; Ohyanagi, Harumasa; Yokoyama, Kazumasa

doi:10.1111/j.1525-1594.1984.tb04240.x

Cited by 42 publications

(18 citation statements)

References 6 publications

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“…4 Several studies have proven that total and partial liquid ventilation effectively support pulmonary gas exchange and improve lung function in animals with acute respiratory failure. [11][12][13] However, Tütüncü et al 14 reported that perfluorocarbon decreased pulmonary gas exchange in healthy animals, suggesting that perfluorocarbon had an adverse effect on ventilation in healthy lungs.…”

Section: Discussionmentioning

confidence: 99%

“…Perfluorocarbon is inert, colorless, has high density (1.78 g/ml), has low surface tension (15 dyne/cm), and is immiscible with aqueous solutions. 4 The benefit of PLV is a significant decrease in the release of reactive oxygen species with potent stimuli 5 and decreased activation of neutrophils and their adhesion on endothelial cells. 6 The purpose of this study was to investigate the physiologic and pathologic influence of PLV on non-heartbeating rabbit lungs using a hypotensive and cardiac arrest model.…”

mentioning

confidence: 99%

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The Efficacy of Partial Liquid Ventilation in Lung Protection During Hypotension and Cardiac Arrest: Preliminary Study of Lung Transplantation Using Non–heart–beating Donors

Yoshida¹,

Sekine²,

Shinozuka³

et al. 2005

The Journal of Heart and Lung Transplantation

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

The Efficacy of Partial Liquid Ventilation in Lung Protection During Hypotension and Cardiac Arrest: Preliminary Study of Lung Transplantation Using Non–heart–beating Donors

Yoshida¹,

Sekine²,

Shinozuka³

et al. 2005

The Journal of Heart and Lung Transplantation

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“…The latter improves the stability of the FDC, which would otherwise form largcr emulsion particles which result in increased toxicity. 16 Okamoto et ~1 . '~ showed that FDC was almost completely excreted from mice after 6 wccks.…”

Section: Eliniination and Tovicitymentioning

confidence: 99%

Fluorocarbons

Ns¹

1987

Anaesthesia

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SummaryThi.s article presents injormation on medical upplications of jluorocarhons. These inert chemicals have a high .solubility for the respiratory guse. 7 and, in emulstjiedform, are present Keg wordsPharmucology; fluorocarbons.The dcvclopmcnt of blood substitutes capable of carrying and delivering substantial amounts of oxygcn. has proceeded along two different lines. Stroma-free haemoglobin solutions suffer from a short half-life in the circulation (approximately 20 minutes) and a P s 0 Iowcr than normal blood. The latter will deereasc oxygen availability in the tissues, while the high osmotic pressure of haemoglobin solutions limits both the concentration that can be used and the total oxygen flux. These problems are being overcome in various ways. such as micro-encapsulation with synthetic cell membranes or polymerisation of the haemoglobin molecule.2The other approach to the production of oxygen-transporting plasma substitutes involves the use of fluorocarbons. These substances are often known as perfluorocarbons or. more correctly, perfluorochemicals (PFCs): this paper briefly describes thcir properties and possible clinical applications. Fluorocarbon-containing blood substitutesThe physiological availability of oxygen dissolved in PFCs was dramatically demonstrated by Clark and G~l l a n .~ who were able to show survival o f mice completely immersed in these liquids for extended periods of time.Fluorocarbons can dissolve more rhan 50 volumes percent of oxygen arid more than 400 volumes of carbon d i~x i d e ,~ but are immiscible with blood. To avoid cmbolic phcnornena emulsions are used, and the Grccn Cross Cor-

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“…PFC particles are captured by the reticuloendothelial system (RES) and distributed primarily to the liver and spleen, and secondarily to the kidney, bone marrow, and lungs [1]. Maximal hepatic accumulation of the particles occurs in 2 days after PFC administration.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Varying Percentages of Fluosol-Da Hemodilution on Antipyrine Metabolism in the Rat

et al. 1987

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Antipyrine disposition and metabolism in conscious, unrestrained Sprague-Dawley rats after 25% or 50% Fluosol hemodilution is reported. 25% hemodilution depressed antipyrine metabolism for 24 hours by primarily inhibiting cytochrome P-450. However, 50% hemodilution produced significant increases in the cytochrome P-450 activity after 48 hours. 25% hemodilution significantly reduced the antipyrine Vd at 0.5 and 72 hours. After 50% hemodilution, the V alternated between values greater and less than control throughout the 74hour study.

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Development of a Perfluorochemical Emulsion as a Blood Gas Carrier

Cited by 42 publications

References 6 publications

The Efficacy of Partial Liquid Ventilation in Lung Protection During Hypotension and Cardiac Arrest: Preliminary Study of Lung Transplantation Using Non–heart–beating Donors

The Efficacy of Partial Liquid Ventilation in Lung Protection During Hypotension and Cardiac Arrest: Preliminary Study of Lung Transplantation Using Non–heart–beating Donors

Fluorocarbons

The Effect of Varying Percentages of Fluosol-Da Hemodilution on Antipyrine Metabolism in the Rat

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