Abstract
Aim
Despite the expanding research focusing on bacterial biofilm formation, specific histochemical biofilm stains have not been developed for light microscopy. Therefore, pathologists are often not aware of the presence of biofilm formation when examining slides for diagnosing bacterial infections, including orthopaedic infections. The aim of the present study was to develop a combined histochemical and immunohistochemical biofilm stain for simultaneous visualization of Staphylococcus aureus bacteria and extracellular matrix in different colours using light microscopy.
Methods
Infected bone tissue was collected from two different porcine models of osteomyelitis inoculated with the biofilm forming S. aureus strain S54F9. The infection time was 5 and 15 days, respectively. First, 25 common histochemical protocols were used in order to find stains that could identify extracellular biofilm matrix. Hereafter, the histochemical protocols for Alcian Blue pH3, Luna and Methyl-pyronin green were combined with an immunohistochemical protocol based on a specific antibody against S. aureus. Finally, the three new combined protocols were applied to infected bone tissue from a child suffering from chronic staphylococcal osteomyelitis for more than a year. For all combined protocols applied on all types of tissue (porcine and human) the number of double stained bacterial aggregates were counted. On the same sections the percentage of extracellular matrix of representative bacterial aggregates was calculated by image analysis.
Results
Simultaneous visualization of bacterial cells and extracellular matrix in different colours was detected in both porcine and human tissue sections with all three combined protocols. The bacterial cells were red to light brown and the extracellular matrix either light blue, blue or orange depending on the histochemical stain i.e. if it was Alcian blue pH3 (colouring polysaccharides), Luna or Methyl green-pyronin (both colouring extracellular DNA), respectively. In the porcine models, 10 percent of the bacterial aggregates in a 10× magnification field revealed both the extracellular matrix and bacteria simultaneously in two different colours. For the human case, this was seen in 90 percent of the bacterial aggregates. The percentage of extracellular matrix of representative bacterial aggregates was 60 and 20 percent in the human and porcine tissues, respectively.
Conclusions
The amount of S. aureus biofilm extracellular matrix increased with infection time. A combination of histochemical and immunohistochemical staining is a practical method for identification and evaluation of S. aureus biofilm in orthopaedic infections.
