Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/33965

TitleCell-to-cell aggregation in S. epidermidis and its effect on quantification of total and viable bacteria within biofilms
Author(s)Freitas, Ana Isabel Costa
França, Ângela
Vasconcelos, C.
Vilanova, Manuel
Cerca, Nuno
KeywordsS. epidermidis biofilms
Cell-to-cell aggregation
Total and viable bacterial counts
Issue date14-Sep-2011
CitationFreitas, A. I.; França, Ângela; Vasconcelos, C.; Vilanova, M.; Cerca, Nuno, Cell-to-cell aggregation in S. epidermidis and its effect on quantification of total and viable bacteria within biofilms. BioMicroWorld 2011 - IV International Conference on Environmental, Industrial and Applied Microbiology. Torremolinhos, Spain, 14th -16th September, 643-643, 2011.
Abstract(s)Biofilms forming on the surface of indwelling medical devices by microorganisms such as Staphylococcus epidermidis, act as a source of acute infections. Since colonization of medical devices represents a serious problem in public healthcare-associated infections, bacteria forming biofilms have been an important issue often studied. Proper quantification of viable bacteria within S. epidermidis biofilms can however be challenging. Often, biofilm quantification of S. epidermidis is performed with colorimetric methods but these do not provide information regarding viable bacteria. CFU counting is often used but in the case of S. epidermidis, a bacteria that normally grows in clusters of cells, sonication is always required in order to obtain individual cells. In older biofilms, the number of dormant bacteria is expected to be higher than in young biofilms. Therefore, disrupting a biofilm structure without damage the cells in older biofilms can be a challenge. Here, biofilm samples of Staphylococcus epidermidis 9142 strain grown for 24, 48 or 72H in TSB supplemented with 0,5% glucose were ressuspended 1 mL of physiological saline solution and sonicated at different cycles. Following sonication biofilms were quantified using three different approaches: colorimetric methods, CFU counting, and microscopic evaluation using a Neübauer chamber coupled with staining with fluorescence dye LIVE/DEAD® BacLight ™ Bacterial Viability Kit (Molecular Probes Inc). Cell counting was optimized using Sigma Scan Pro and validated against manual counting of the images. In the conditions used, higher numbers of sonication cycles prevented any clustering of cells but were affecting cell viability. On the other hand, lower numbers of sonication cycles were not effective in completely eliminating cell clusters, especially in 72H-old biofilms. The presence of the cell clusters at the lower sonication cycles resulted in high variability of CFU counting. On the other hand, cell counting with a Neübauer chamber was the best way to proper quantify the total and viable bacteria within the biofilms. By using the automatic counting software and validating the methodology, quantification of biofilms was relatively fast and reliable to perform. Keywords Biofilm; Staphylococcus epidermidis; Sonication, automatic cell counting
TypeAbstract
URIhttp://hdl.handle.net/1822/33965
Publisher versionhttp://www.formatex.org/biomicroworld2011/
Peer-Reviewedyes
AccessOpen access
Appears in Collections:CEB - Resumos em Livros de Atas / Abstracts in Proceedings

Files in This Item:
File Description SizeFormat 
document_6923_1.pdf79,19 kBAdobe PDFView/Open

Partilhe no FacebookPartilhe no TwitterPartilhe no DeliciousPartilhe no LinkedInPartilhe no DiggAdicionar ao Google BookmarksPartilhe no MySpacePartilhe no Orkut
Exporte no formato BibTex mendeley Exporte no formato Endnote Adicione ao seu ORCID