Robert L. Albright scite author profile

Background/Aims: We sought to characterize a novel adsorbent polymer in terms of cytokine removal. Methods: We challenged 50 rats with lipopolysaccharide to obtain cytokine-rich blood and circulated this through cartridges containing polymer. In separate experiments, cell-free supernatants were passed through cartridges containing polymer. We measured tumor necrosis factor alpha, interleukin 10 and interleukin 6 concentrations under a variety of conditions to evaluate adsorption kinetics. Results: All three cytokines were rapidly removed from the blood with less than 50% of the initial concentrations present after 1 h of circulation through the cartridge. There was no significant difference in the effect across a range of blood flows and Ca²⁺ concentrations. Adsorption was decreased somewhat by extremely low temperature (4°C). Conclusion: The adsorbent polymer removes cytokines with high efficiency, and binding is relatively unaffected by a variety of physical conditions.

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Porous polymers as an anchor for catalysis

Albright

1986

Reactive Polymers, Ion Exchangers, Sorbents

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Adsorption of Organic Species by High Surface Area Styrene-Divinylbenzene Copolymers

Gustafson¹,

Albright²,

Heisler³

et al. 1968

I&EC Product Research and Development

102

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Equilibria for the adsorption of antibiotics onto neutral polymeric sorbents: Experimental and modeling studies

Chaubal

Payne

Reynolds

et al. 1995

Biotech & Bioengineering

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The objective of this work was to study the equilibria for adsorption of three antibiotics (penicillin V, tetracycline, and cephalosporin C) from water onto commercially available neutral polymeric sorbents. The pH was observed to be an important factor in adsorption as our results suggest that the neutral forms of penicillin V and cephalosporin C are preferentially adsorbed onto the neutral sorbents. Also, sorbent surface chemistry was observed to be important for adsorption, as the antibiotics adsorbed more favorably (both in terms of affinities and enthalpies) onto the aromatic sorbent as compared to the aliphatic ester sorbent. In addition to these thermodynamic measurements, molecular modeling studies and Monte Carlo simulations suggest that adsorption onto aromatic sorbents may involve specific interactions between the planar regions of the antibiotic molecules and the phenyl rings of the aromatic sorbent. The interaction energies predicted from Monte Carlo simulations were observed to provide qualitative agreement with experimentally determined adsorption affinities. (c) 1995 John Wiley & Sons, Inc.

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