Increasing the presence of biofilm and healing delay in a porcine model of MRSA-infected wounds.

Data supporting the concept that microbial biofilms are a major cause of non-healing ulcers remain limited. A porcine model was established where delayed healing resulted from methicillin-resistant Staphylococcus aureus (MRSA) infection in full-thickness wounds. At the end of one study a wound remaining open was sampled and a MRSA strain was isolated. This pig-passaged strain was used as the inoculating strain in several subsequent studies. The resulting MRSA wound infections exhibited a greater, more stable tissue bioburden than seen in studies using the parent strain. Furthermore, wounds infected with the passaged strain experienced a greater delay in healing. To understand whether these changes corresponded to an increased biofilm character of the wound infection, wound biopsy samples from studies using either the parent or passaged MRSA strains were examined microscopically. Evidence of biofilm was observed for both strains, as most samples at a minimum had multiple isolated, dense microcolonies of bacteria. However, the passaged MRSA resulted in bacterial colonies of greater frequency and size that occurred more often in concatenated fashion to generate extended sections of biofilm. These results provide a model case in which increasing biofilm character of a wound infection corresponded with a greater delay in wound healing.

A model for evaluating topical antimicrobial efficacy against methicillin-resistant Staphylococcus aureus biofilms in superficial murine wounds.

A wound biofilm model was created by adapting a superficial infection model. Partial-thickness murine wounds were inoculated with methicillin-resistant Staphylococcus aureus (MRSA). Dense biofilm communities developed at the wound surface after 24 h as demonstrated by microscopy and quantitative microbiology. Common topical antimicrobial agents had reduced efficacy when treatment was initiated 24 h after inoculation compared to 4 h after inoculation. This model provides a rapid in vivo test for new agents to treat wound biofilm infections.

Development of a health care personnel handwash with 6-hour persistence.

BACKGROUND: Health care handwashes/sanitizers help prevent the spread of infection. Many are alcohol-based, providing immediate microbial kill. Few contain persistence factors for residual antimicrobial effects. We conducted multiple studies on Viacydin-Containing Alcohol Sanitizer (VCAS) to evaluate antimicrobial properties and skin friendliness. METHODS: The potential of VCAS to cause use related skin problems was examined by repeated applications over a 3-week period. Excessive handwashing compared effects of VCAS on the skin barrier with that of other handwash products. Antimicrobial range, immediate kill rates, and resistance development were assessed as was the potential for continued antimicrobial activity over an extended period following product use. RESULTS: Our data showed the VCAS formula has broad, rapid antimicrobial efficacy without promoting microbial resistance. VCAS is mild to skin. Antimicrobial persistence testing showed that VCAS remained effective up to 6 hours postapplication. CONCLUSION: VCAS was superior to or at parity with on-market products, exhibited substantial residual effects and persistence up to 6 hours, and was safe and well tolerated. These results provide strong evidence for the value of VCAS to help prevent and eliminate pathogen contamination of the hands.

Anastomotic vessels remain viable after photodynamic therapy in primate models of choroidal neovascularization.

PURPOSE: Anastomotic vessels in exudative age-related macular degeneration (AMD) represent a serious clinical feature that reportedly does not respond well to either photocoagulation or photodynamic therapy (PDT). Anastomoses also occur in various animal models of choroidal neovascularization (CNV). In the present study, anastomotic vessels and their patency were evaluated in two primate CNV laser-trauma models after PDT, by using two novel photosensitizers. METHODS: In cynomolgus (Macaca fascicularis) and squirrel (Saimiri sciureus) monkey eyes (n = 20), matrix placement of laser photocoagulation sites elicited CNV as a component of the development of fibrovascular tissue (FVT). FVT sites received PDT according to specific drug infusion and laser light treatment parameters. FVTs and anastomoses were evaluated by fundus photography, fluorescein angiography, and histologic examination. RESULTS: Anastomoses averaged approximately 48% of FVT sites, with greatest occurrence in the macaque. Although PDT with each photosensitizer effectively produced FVT closure, both retinal vessels and anastomoses remained patent. CONCLUSIONS: Although PDT is effective in closing the choroidal neovascularization in FVT, this technique was ineffective in occluding anastomotic vessels and their associated tributaries within the mid- to proximal retina. Various factors (vascular diameter, composition, blood flow, orientation) may contribute to continued anastomotic patency. By convention, such vessels would typically be defined as chorioretinal anastomoses (CRAs); however, continuing studies suggest the possibility that these neovessels constitute dual-origin hybrids. Regardless of origin, viable anastomoses provide one potential mechanism for revascularization to occur after PDT and may help to explain why CRAs are considered a poor prognostic sign in patients with AMD.

The squirrel monkey: characterization of a new-world primate model of experimental choroidal neovascularization and comparison with the macaque.

PURPOSE: To evaluate and characterize the New-World squirrel monkey as a primate model for experimental choroidal neovascularization (CNV) studies and to compare it with the current Old-World macaque monkey model. METHODS: Fibrovascular tissues (FVT) were elicited in 12 maculae of seven squirrel monkeys by laser photocoagulation using optimized laser parameters (532 nm, 0.05 second, 75 micro m, 650 mW). Follow-up fundus and fluorescein angiography (FA) examinations were conducted on postlaser days 30 and 35, followed by euthanasia and histologic analysis of tissues. For comparative evaluations, FVT development also was induced and analyzed in eight maculae of four macaque monkeys with laser parameters previously used in this species (514 nm, 0.1 second, 50 micro m, 390 and 455 mW). RESULTS: FVT developed in both primate species, consisting of fibrous tissue that contained vessels that ranged from sparse but identifiable capillaries to well-established neovascular networks. Overall, 65% of the photocoagulation sites in the squirrel monkey and 37% of sites in macaque monkey elicited development of FVT. Localized FVT ranged from modest to extensive thickenings of the choriocapillaris layer. Unexpectedly, 76% of the FVT sites in squirrel monkey eyes and 27% of the sites in macaque eyes showed diffuse FVT that expanded beyond the original photocoagulation sites, accompanied by neovascular infiltration of the retina. CONCLUSIONS: Like the macaque, the squirrel monkey can be considered a useful primate model for experimental CNV investigations, while additionally offering certain species-specific advantages. Diffuse FVT permit studies of antiangiogenic therapies in areas distant from laser photocoagulative trauma sites.