Pa. Simmons et al., The role of Pseudomonas aeruginosa biofilm in the attachment of Acanthamoeba to four types of hydrogel contact lens materials, OPT VIS SCI, 75(12), 1998, pp. 860-866
Purpose. The effect of the previous coating of a contact lens surface with
Pseudomonas biofilm on adsorption of Acanthamoeba onto four types of hydrog
el materials was investigated. Methods. Hydrogel contact lens quarters from
each of the four FDA groups of hydrogel materials were incubated for at le
ast 12 h in a suspension of 10(7)/ml of Pseudomonas aeroginosa (ATCC 27853)
to coat their surfaces with biofilm, After rinsing, the lenses were incuba
ted for 90 min in 5 x 10(5)/ml of Acanthamoeba castellanii trophozoites, Ne
w, uncoated lens quarters were incubated in the Acanthamoeba suspension as
controls. After rinsing, all adsorbed trophozoites on one surface of each l
ens quarter were counted by direct light microscopy, Adsorption was express
ed as numbers of amoebae per square centimeter of lens surface, and nonpara
metric data analysis was performed. Results. Acanthamoeba adsorption to new
, uncoated lenses was greater for ionic materials (groups 3 and 4) than for
the nonionic materials (groups 1 and 2), Pseudomonas biofilm increased ads
orption on all four lens types, Conclusion, Pseudomonas biofilm enhanced ad
sorption of Acanthamoeba on all lens types studied, but the adsorption to n
onionic materials was significantly less, This suggests that all lens weare
rs may be at increased risk for Acanthamoeba infection if lenses are previo
usly contaminated with bacterial biofilm, but this risk may be reduced by t
he use of certain lens types (low water content, nonionic materials).