Introduction/Objective. The most important etiologic factors for both,
capsular contracture (CC) and breast implant associated anaplastic large
cell lymphoma (BIA-ALCL) is subclinical infection, defined as a response of
an organism on presence of biofilm on the implant surface. The aim of this
research was to examine the possibility of biofilm formation of four
different bacteria (Staphylococcus epidermidis, Staphylococcus aureus,
Pseudomonas aeruginosa and Ralstonia picketti) on three differently textured
silicone breast implants (Siltex, Mentor, pore size 70-150 ?m;
MESMO?sensitive, Polytech, pore size 50-900 ?m; and SilkSurface, Motiva
pores 13 ?m) in vitro. Methods. Samples of silicone breast implant capsules
(sized 1 ? 1 cm) were divided into three groups according to texture. After
sterilization, 30 samples in every group were contaminated with 100 ?l of
examined bacterial broth, followed by incubation which led to biofilm
formation. For testing the capability of biofilm formation, modified
technique with microtitar plates described by Stepanovic was used. Results.
All four examined bacteria (S. epidermidis, S. aureus, P. aeruginosa and
Ralstonia pickettii) form more biofilm on implants with pore sizes 50-900 ?m
compared to implants with pore size 70-150 ?m and those with 13 ?m.
Statistical significance was found in biofilm formation on implants with
pores 70-150 ?m compared to implants with pores 13 ?m. The only exception
was P. aeuruginosa which did not show significant difference in biofilm
formation on implants 70-150 ?m and 13 ?m. Conclusion Silicone breast
implants with micro and nanotexture should be chosen in order to prevent
biofilm formation and possible consequent complications.