Hyperbaric oxygen therapy augments ciprofloxacin effect against Pseudomonas aeruginosa biofilm infected chronic wounds in a mouse model.

Introduction: Chronic wounds have a compromised microcirculation which leads to restricted gas exchange. The majority of these hypoxic wounds is infested with microorganisms congregating in biofilms which further hinders the antibiotic function. We speculate whether this process can be counteracted by hyperbaric oxygen therapy (HBOT). Methodology: Twenty-eight BALB/c mice with third-degree burns were included in the analyses. Pseudomonas aeruginosa embedded in seaweed alginate beads was injected under the eschar to mimic a biofilm infected wound. Challenged mice were randomized to receive either 4 days with 1 x ciprofloxacin combined with 2 × 90 min HBOT at 2.8 standard atmosphere daily, 1 x ciprofloxacin as monotherapy or saline as placebo. The mice were clinically scored, and wound sizes were estimated by planimetry daily. Euthanasia was performed on day 8. Wounds were surgically removed in toto, homogenized and plated for quantitative bacteriology. Homogenate supernatants were used for cytokine analysis. Results: P. aeruginosa was present in all wounds at euthanasia. A significant lower bacterial load was seen in the HBOT group compared to either the monotherapy ciprofloxacin group (p = 0.0008), or the placebo group (p < 0.0001). IL-1ß level was significantly lower in the HBOT group compared to the placebo group (p = 0.0007). Both treatment groups had higher osteopontin levels than the placebo group (p = 0.002 and p = 0.004). The same pattern was seen in the S100A9 analysis (p = 0.01 and p = 0.008), whereas no differences were detected between the S100A8, the VEGF or the MMP8 levels in the three groups. Conclusion: These findings show that HBOT improves the bactericidal activity of ciprofloxacin against P. aeruginosa wound biofilm in vivo. HBOT in addition to ciprofloxacin also modulates the host response to a less inflammatory phenotype.

A novel Borrelia-specific real-time PCR assay is not suitable for diagnosing Lyme neuroborreliosis.

BACKGROUND: Diagnosing Lyme neuroborreliosis (LNB) is complicated by a lack of adequate test systems and by the complex culturing conditions required to grow the causative pathogens in the Borrelia sensu lato complex. Improved testing methods are urgently needed. Here, we evaluate the applicability of a novel commercially available Borrelia-specific real-time PCR assay to diagnose LNB. MATERIALS AND METHODS: The specificity and sensitivity of the novel alphaCube Borrelia real-time PCR assay (Mikrogen) and the well-tested Micro-Dx™ real-time PCR assay (Molzym) were evaluated in cerebrospinal fluid (CSF) spiked with known amounts of Borrelia garinii and CSF from 19 patients with definite or possible LNB. CSF from patients diagnosed with neurosyphilis or enterovirus meningitis served as controls. RESULTS: The alphaCube assay specifically identified Borrelia down to 93 B garinii cells/mL in spiked CSF samples. The Micro-Dx™ real-time PCR assay was able to identify the presence of bacteria down to 9300 cells/mL in spiked samples. In CSF from patients diagnosed with LNB the sensitivity of the alphaCube assay was 0.00 and 0.00 for the Micro-DX. CONCLUSION: Although the alphaCube Borrelia assay was able to identify down to 93 cells/mL in spiked CSF samples, the inability to identify Borrelia in CSF samples from patients with LNB suggests that this type of infection carries a bacterial load in CSF below this detection level. Based on these results, neither the alphaCube Borrelia real-time PCR assay nor the Micro-Dx™ real-time PCR assay can be recommended for routine diagnostics of LNB using CSF samples.

Animal models of chronic and recurrent Pseudomonas aeruginosa lung infection: significance of macrolide treatment.

Animal models of human diseases are invaluable and inevitable elements in identifying and testing novel treatments for serious diseases, including severe infections. Planning and conducting investigator-initiated human trials are generally accepted as being enormously challenging. In contrast, it is often underestimated how much planning, including background and modifying experiments, is needed to establish a relevant infectious disease animal model. However, representative animal infectious models, well designed to test generated hypotheses, are useful to improve our understanding of pathogenesis, virulence factors and host response and to identify novel treatment candidates and therapeutic strategies. Such results can subsequently proceed to clinical testing if suitable. The present review aims at presenting all the pulmonary Pseudomonas aeruginosa infectious models we have knowledge of and the detailed descriptions of established animal models in our laboratory focusing on macrolide therapy are presented.

Lactobacillus rhamnosus strains of oral and vaginal origin show strong antifungal activity in vitro.

Background: Intake of probiotic bacteria may prevent oral Candida infection. Objective: To screen the antifungal activity of 14 Lactobacillus candidate strains of human origin, against six opportunistic C. albicans and non-albicans species. A second aim was to study the acid production of the four strains showing the strongest antifungal activity. Methods: We used an agar overlay growth inhibition assay to the assess the antifungal activity of the lactobacilli. The acid-producing capacity was measured with pH micro-sensors. Results: All 14 Lactobacillus candidates inhibited the growth of the Candida spp. The four best-performing strains were L. rhamnosus DSM 32992 (oral origin), L. rhamnosus DSM 32991 (oral), L. jensenii 22B42 (vaginal), and L. rhamnosus PB01 (vaginal). The difference between L. rhamnosus DSM 32992 and the other three strains was statistically significant (p < 0.001). The Candida spp. differed in susceptibility; C. parapsilosis was highly inhibited, while C. krusei was not or slightly inhibited. The oral L. rhamnosus DSM 32992 and DSM 32991 strains showed the lowest pH-values. Conclusion: Screening of probiotic lactobacilli showed significant strain-dependent variations in their antifungal capacity in a pH-dependent mode. Two strains of oral origin were most effective. A further characterization seems justified to elaborate on their probiotic properties.