C. E. Kelly scite author profile

In this paper a mathematical model that describes macrophage infiltration into avascular tumours is presented. The qualitative accuracy of the model is assessed by comparing numerical results with independent experimental data that describe the infiltration of macrophages into two types of spheroids: chemoattractant-producing (hepa-1) and chemoattractant-deficient (or C4) spheroids. A combination of analytical and numerical techniques are used to show how the infiltration pattern depends on the motility mechanisms involved (i.e. random motion and chemotaxis) and to explain the observed differences in macrophage infiltration into the hepa-1 and C4 spheroids. Model predictions are generated to show how the spheroid's size and spatial structure and the ability of its constituent cells influence macrophage infiltration. For example, chemoattractant-producing spheroids are shown to recruit larger numbers of macrophages than chemoattractant-deficient spheroids of the same size and spatial structure. The biological implications of these results are also discussed briefly.

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Quantification of in vitro and in vivo energy metabolism of the gastrointestinal tract of fed or fasted sheep

Kelly¹,

Southorn²,

Kelly³

et al. 1993

Can. J. Anim. Sci.

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Effect of E. Coli endotoxin on mammalian cell growth and recombinant protein production

Epstein

Lee

Kelly

et al. 1990

In Vitro Cell Dev Biol

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C. E. Kelly

Differences in Cytotoxicity of Native and Engineered RIPs Can Be Used to Assess Their Ability to Reach the Cytoplasm

Modelling Macrophage Infiltration into Avascular Tumours

Quantification of in vitro and in vivo energy metabolism of the gastrointestinal tract of fed or fasted sheep

Effect of E. Coli endotoxin on mammalian cell growth and recombinant protein production

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