Search

Your search keyword '"Rumbaugh, K. P."' showing total 17 results
Start Over Author "Rumbaugh, K. P."
17 results on '"Rumbaugh, K. P."'

1. Biofilm formation - what we can learn from recent developments

Author

Bjarnsholt, T., primary, Buhlin, K., additional, Dufrêne, Y. F., additional, Gomelsky, M., additional, Moroni, A., additional, Ramstedt, M., additional, Rumbaugh, K. P., additional, Schulte, T., additional, Sun, L., additional, Åkerlund, B., additional, and Römling, U., additional

Published
2018
Full Text
View/download PDF

2. Biofilm formation – what we can learn from recent developments

Author

Bjarnsholt, T., Buhlin, K., Dufrêne, Y. F., Gomelsky, M., Moroni, A., Ramstedt, Madeleine, Rumbaugh, K. P., Schulte, T., Sun, L., Åkerlund, B., Römling, U., Bjarnsholt, T., Buhlin, K., Dufrêne, Y. F., Gomelsky, M., Moroni, A., Ramstedt, Madeleine, Rumbaugh, K. P., Schulte, T., Sun, L., Åkerlund, B., and Römling, U.

Abstract

Although biofilms have been observed early in the history of microbial research, their impact has only recently been fully recognized. Biofilm infections, which contribute to up to 80% of human microbial infections, are associated with common human disorders, such as diabetes mellitus and poor dental hygiene, but also with medical implants. The associated chronic infections such as wound infections, dental caries and periodontitis significantly enhance morbidity, affect quality of life and can aid development of follow-up diseases such as cancer. Biofilm infections remain challenging to treat and antibiotic monotherapy is often insufficient, although some rediscovered traditional compounds have shown surprising efficiency. Innovative anti-biofilm strategies include application of anti-biofilm small molecules, intrinsic or external stimulation of production of reactive molecules, utilization of materials with antimicrobial properties and dispersion of biofilms by digestion of the extracellular matrix, also in combination with physical biofilm breakdown. Although basic principles of biofilm formation have been deciphered, the molecular understanding of the formation and structural organization of various types of biofilms has just begun to emerge. Basic studies of biofilm physiology have also resulted in an unexpected discovery of cyclic dinucleotide second messengers that are involved in interkingdom crosstalk via specific mammalian receptors. These findings even open up new venues for exploring novel anti-biofilm strategies.

Published
2018
Full Text
View/download PDF

3. Biofilm formation - what we can learn from recent developments

Author

UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Bjarnsholt, T., Buhlin, K., Dufrêne, Yves, Gomelsky, M., Moroni, A., Ramstedt, M., Rumbaugh, K. P., Schulte, T., Sun, L, Åkerlund, B., Römling, U., UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, Bjarnsholt, T., Buhlin, K., Dufrêne, Yves, Gomelsky, M., Moroni, A., Ramstedt, M., Rumbaugh, K. P., Schulte, T., Sun, L, Åkerlund, B., and Römling, U.

Abstract

Although biofilms have been observed early in the history of microbial research, their impact has only recently been fully recognized. Biofilm infections, which contribute to up to 80% of human microbial infections, are associated with common human disorders, such as diabetes mellitus and poor dental hygiene, but also with medical implants. The associated chronic infections such as wound infections, dental caries and periodontitis significantly enhance morbidity, affect quality of life and can aid development of follow‐up diseases such as cancer. Biofilm infections remain challenging to treat and antibiotic monotherapy is often insufficient, although some rediscovered traditional compounds have shown surprising efficiency. Innovative anti‐biofilm strategies include application of anti‐biofilm small molecules, intrinsic or external stimulation of production of reactive molecules, utilization of materials with antimicrobial properties and dispersion of biofilms by digestion of the extracellular matrix, also in combination with physical biofilm breakdown. Although basic principles of biofilm formation have been deciphered, the molecular understanding of the formation and structural organization of various types of biofilms has just begun to emerge. Basic studies of biofilm physiology have also resulted in an unexpected discovery of cyclic dinucleotide second messengers that are involved in interkingdom crosstalk via specific mammalian receptors. These findings even open up new venues for exploring novel anti‐biofilm strategies.

Published
2018

4. Microbiota is a primary cause of pathogenesis of chronic wounds.

Author

Wolcott, R., Sanford, N., Gabrilska, R., Oates, J. L., Wilkinson, J. E., and Rumbaugh, K. P.

Subjects
BACTERIA classification, ANIMAL experimentation, BIOFILMS, HUMAN microbiota, MICE, POLYMERASE chain reaction, CHRONIC wounds & injuries, DESCRIPTIVE statistics, SEQUENCE analysis, NULL hypothesis
Abstract

Objective: Diverse microorganisms present on the surface of chronic wounds have been established to constitute wound microbiota. The aims of this study were to quantify the viability of wound microbiota, classify dispersal of viable microbes from the wound, and determine if human wound microbiota can produce a chronic wound in an animal model. Method: Wound microbiotas as units (multiple microbial species acting as one infectious agent) were obtained from well-defined human chronic wounds and seeded onto mouse surgical excision wounds to produce chronically infected wounds that closely resembled the chronic wounds observed in the original hosts. Results: We found the wound microbiota harvested from 35 out of 43 (81 %) patients could produce similar chronic wounds (producing slough and exudate) in a murine chronic wound model. The top 30 species present in patient wounds were identified in the mouse wounds by molecular sequencing. Koch's postulates could therefore be applied to establish wound microbiota as the cause of the original human chronic wound infections. Evidence-based medicine criteria such as Hill's criteria for causation can all be satisfied by what is currently known about wound microbiota. Conclusion: This study demonstrates that wound microbiota actively disseminates from the chronic wound by forces and mechanisms intrinsic to the wound. Koch's postulates and Hill's criteria for causation together suggest chronic wound microbiota to be the main cause underlying the pathogenesis of chronic wounds. Declaration of interest: RW has an equity interest in PathoGenius Labs. No funding was received for this study. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

8. The presence of biofilm structures in atherosclerotic plaques of arteries from legs amputated as a complication of diabetic foot ulcers

Author

Snow, D. E., Everett, J., Mayer, G., Cox, S. B., Miller, B., Rumbaugh, K., Wolcott, R. A., and Wolcott, R. D.

Abstract

ObjectiveAtherosclerosis, rather than microcirculatory impairment caused by endothelial cell dysfunction, is the main driver of circulatory compromise in patients with diabetic limbs. The presence of atherosclerotic plaque at the trifurcation is a significant contributor to amputation of diabetic legs. The presence of bacteria and other microorganisms in atherosclerotic plaque has long been known, however, the cause of chronic inflammation and the role of bacteria/viruses in atherosclerosis have not been studied in detail. The objective of this study was to clarify the cause of the chronic inflammation within atherosclerotic plaques, and determine if any bacteria and/or viruses are involved in the inflammatory pathway.MethodThis study uses fluorescence microscopy and fluorescence in-situhybridisation (FISH) to identify components of biofilm in atherosclerotic arteries. These tools are also used to identify individual bacteria, and determine the architectural spatial location within the atherosclerotic plaque where the bacteria can be found.ResultsThe results indicate that the presence of biofilms in grossly involved arteries may be an important factor in chronic inflammatory pathways of atherosclerotic progression, in the amputated limbs of patients with diabetic foot ulcers and vascular disease.ConclusionWhile the presence of bacterial biofilm structures in atherosclerotic plaque does not prove that biofilm is the proximate cause of atherosclerosis, it could contribute to the persistent inflammation associated with it. Second, the synergistic relationship between the atherosclerotic infection and the diabetic foot ulcer may ultimately contribute to higher amputation rates in diabetics.Declaration of interest:RAW and RDW have equity interest in PathoGenius, a clinical laboratory using DNA to identify microbes.

Published
2016
Full Text
View/download PDF

10. Contribution of quorum sensing to the virulence of Pseudomonas aeruginosa in burn wound infections.

Author

Rumbaugh, K P, Griswold, J A, Iglewski, B H, and Hamood, A N

Abstract

The Pseudomonas aeruginosa quorum-sensing systems, las and rhl, control the production of numerous virulence factors. In this study, we have used the burned-mouse model to examine the contribution of quorum-sensing systems to the pathogenesis of P. aeruginosa infections in burn wounds. Different quorum-sensing mutants of P. aeruginosa PAO1 that were defective in the lasR, lasI, or rhlI gene or both the lasI and rhlI genes were utilized. The following parameters of the P. aeruginosa infection were examined: (i) lethality to the burned mouse, (ii) dissemination of the P. aeruginosa strain within the body of the infected mouse (by determining the numbers of CFU of P. aeruginosa within the liver and spleen), and (iii) spread of the P. aeruginosa strain within the burned skin (by determining the numbers of CFU of P. aeruginosa at the inoculation site and at a site about 15 mm from the inoculation site [distant site]). In comparison with that of PAO1, the in vivo virulence of lasI, lasR, and rhlI mutants was significantly reduced. However, the most significant reduction in in vivo virulence was seen with the lasI rhlI mutant. The numbers of CFU that were recovered from the livers, spleens, and skin of mice infected with different mutants were significantly lower than those of PAO1. At 8 and 16 h post burn infection, comparable numbers of CFU of PAO1 and lasI and rhlI mutants were obtained from both the inoculation and distant sites of the burned skin of infected mice. In contrast, CFU of the lasR mutant and the lasI rhlI double mutant were recovered only from the inoculation site of infected mice at 8 and 16 h post burn infection. The ability of a plasmid carrying either the lasI or rhlI gene or the lasI and rhlI genes to complement the defect of the lasI rhlI double mutant was also examined. The presence of any of these plasmids within the lasI rhlI double mutant significantly enhanced its in vivo virulence, as well as its ability to spread within the burned skin. These results suggest that the quorum-sensing systems play an important role in the horizontal spread of P. aeruginosa within burned skin and in the dissemination of P. aeruginosa within the bodies of burned-and-infected mice and contributed to the overall virulence of P. aeruginosa in this animal model.

Published
1999

12. Host Responses to Biofilm.

Author

Watters C, Fleming D, Bishop D, and Rumbaugh KP

Subjects
Animals, Humans, Immune System drug effects, Immune System microbiology, Models, Biological, Probiotics pharmacology, Skin drug effects, Skin immunology, Biofilms drug effects, Host-Pathogen Interactions drug effects
Abstract

From birth to death the human host immune system interacts with bacterial cells. Biofilms are communities of microbes embedded in matrices composed of extracellular polymeric substance (EPS), and have been implicated in both the healthy microbiome and disease states. The immune system recognizes many different bacterial patterns, molecules, and antigens, but these components can be camouflaged in the biofilm mode of growth. Instead, immune cells come into contact with components of the EPS matrix, a diverse, hydrated mixture of extracellular DNA (bacterial and host), proteins, polysaccharides, and lipids. As bacterial cells transition from planktonic to biofilm-associated they produce small molecules, which can increase inflammation, induce cell death, and even cause necrosis. To survive, invading bacteria must overcome the epithelial barrier, host microbiome, complement, and a variety of leukocytes. If bacteria can evade these initial cell populations they have an increased chance at surviving and causing ongoing disease in the host. Planktonic cells are readily cleared, but biofilms reduce the effectiveness of both polymorphonuclear neutrophils and macrophages. In addition, in the presence of these cells, biofilm formation is actively enhanced, and components of host immune cells are assimilated into the EPS matrix. While pathogenic biofilms contribute to states of chronic inflammation, probiotic Lactobacillus biofilms cause a negligible immune response and, in states of inflammation, exhibit robust antiinflammatory properties. These probiotic biofilms colonize and protect the gut and vagina, and have been implicated in improved healing of damaged skin. Overall, biofilms stimulate a unique immune response that we are only beginning to understand., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
Full Text
View/download PDF

13. Biofilm maturity studies indicate sharp debridement opens a time- dependent therapeutic window.

Author

Wolcott RD, Rumbaugh KP, James G, Schultz G, Phillips P, Yang Q, Watters C, Stewart PS, and Dowd SE

Subjects
Administration, Cutaneous, Animals, Anti-Bacterial Agents therapeutic use, Biofilms drug effects, Biopsy, Combined Modality Therapy, Drug Resistance, Bacterial, Mice, Skin Care, Swine, Therapeutic Irrigation, Time Factors, Wound Healing, Biofilms growth & development, Debridement methods, Disease Models, Animal, Pseudomonas Infections microbiology, Pseudomonas Infections therapy, Staphylococcal Infections microbiology, Staphylococcal Infections therapy, Wound Infection microbiology, Wound Infection therapy
Abstract

Objective: To investigate the hypothesis that newly formed wound biofilms (or bioburdens) are more susceptible to antimicrobial treatment., Method: Four separate and distinct models were performed by four separate biofilm research laboratories to evaluate the resistance of biofilms to antimicrobial treatments over time. These included a drip-flow biofilm model along with a hydrodebridement study, a porcine skin punch biopsy ex vivo model, a mouse chronic wound model and clinical longitudinal debridement study., Results: All four models showed that, within the first 24 hours, the biofilm community was more susceptible to the selected antibiotics, and after maturing for up to 48 hours became increasingly tolerant. In each model, there was at least a 24-hour period in which the biofilms were more resistant to antibiotics. Each of the models utilised showed a significant decrease in the resistance of the biofilm/ burden to gentamicin for up to 24 hours with a confidence interval of at least 95%. The resistance increased in each of the models by 48 hours and reached original resistance levels by 72 hours., Conclusion: These data suggest the principles of biofilm-based wound care, along with the use of serial debridement to continually remove mature biofilm, followed by biofilm wound management strategies, including topical antibiotics while the bioburden is still immature and more susceptible, are valid.

Published
2010
Full Text
View/download PDF

14. The effects of infection of thermal injury by Pseudomonas aeruginosa PAO1 on the murine cytokine response.

Author

Rumbaugh KP, Colmer JA, Griswold JA, and Hamood AN

Subjects
Animals, Burns genetics, Female, Gene Expression Profiling, Granulocyte Colony-Stimulating Factor genetics, Interleukin-6 genetics, Interleukins genetics, Liver immunology, Macrophage Colony-Stimulating Factor genetics, Mice, Mice, Inbred C57BL, Pseudomonas Infections genetics, Sepsis etiology, Sepsis genetics, Sepsis immunology, Skin immunology, Transforming Growth Factor beta genetics, Tumor Necrosis Factor-alpha genetics, Up-Regulation, Burns complications, Burns immunology, Cytokines genetics, Pseudomonas Infections etiology, Pseudomonas Infections immunology
Abstract

Pseudomonas aeruginosa infection, one of the major complications of burn wounds, may lead to sepsis and death. Using the Multi-Probe Template/RNase protection assay, we have compared the expression of different cytokine genes within the skin and livers of thermally injured mice infected with P. aeruginosa PAO1. Thermal injury alone enhanced or up-regulated certain cytokines, including macrophage colony-stimulating factor (M-CSF), interleukin 1 (IL-1)RI, IL-1 beta, macrophage inflammatory protein (MIP)-1 beta and MIP-2; while PAO1 challenge alone up-regulated tumour necrosis factor alpha (TNF-alpha) and transforming growth factor beta (TGF-beta) expression. The combination of thermal injury plus PAO1 infection enhanced the expression of several pro-inflammatory and haematopoietic cytokines [stem cell factor (SCF), leukocyte inhibitory factor (LIF), IL-6 and TNF-alpha]; induced the expression of granulocyte-macrophage colony-stimulating factor (GM-CSF) and G-CSF by 5 h and the expression of additional cytokines, including TGF-beta, TNF-beta, lymphotoxin beta (LT-beta), interferon gamma (IFN-gamma), and IFN-beta by 40 h post-burn/infection. While the most intense cytokine expression occurred in the skin, the majority of cytokines tested were also expressed in the liver by 40 h post-burn/infection. These results suggest that in P. aeruginosa infection of burn wounds: (1) up-regulation of the expression of different cytokines, locally and within the livers of burned mice, is an indication of P. aeruginosa -induced sepsis; and (2) IL-6 and G-CSF play an important role in the host response mechanism., (Copyright 2001 Academic Press.)

Published
2001
Full Text
View/download PDF

15. Pseudomonas aeruginosa strains obtained from patients with tracheal, urinary tract and wound infection: variations in virulence factors and virulence genes.

Author

Rumbaugh KP, Griswold JA, and Hamood AN

Subjects
ADP Ribose Transferases genetics, Bacterial Toxins genetics, Exotoxins genetics, Humans, Pancreatic Elastase genetics, Polymorphism, Restriction Fragment Length, Pseudomonas aeruginosa enzymology, Pseudomonas aeruginosa isolation & purification, Urinary Tract Infections microbiology, Virulence genetics, Pseudomonas aeruginosa Exotoxin A, Genes, Bacterial genetics, Pseudomonas Infections microbiology, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa pathogenicity, Tracheal Diseases microbiology, Virulence Factors, Wound Infection microbiology
Abstract

Pseudomonas aeruginosa produces several virulence factors including exotoxin A, exoenzyme S and elastase. In previous reports we have analysed several clinical isolates for the production of these three virulence factors and for possible heterogeneity within the genes that code for these factors (toxA, lasB and the exoS genes). The isolates were obtained from three specific sites (trachea, urinary tract and wounds). Although the isolates produced variable levels of these factors, isolates that were obtained specifically from urinary tract and wound infections produced increased levels of exotoxin A and exoenzyme S. In addition, a prolonged infection with P. aeruginosa appears to enhance exoenzyme S production. Restriction site polymorphism was very limited within the toxA, lasB, and exoS structural genes; however, the upstream region of toxA showed restriction site polymorphisms between the different isolates. The observed polymorphisms did not correlate with any variations in the levels of the virulence factors. In this article, we provide a short review of these studies.

Published
1999
Full Text
View/download PDF

16. Analysis of Pseudomonas aeruginosa clinical isolates for possible variations within the virulence genes exotoxin A and exoenzyme S.

Author

Rumbaugh KP, Hamood AN, and Griswold JA

Subjects
ADP Ribose Transferases biosynthesis, Bacterial Toxins biosynthesis, Base Sequence, DNA Primers genetics, DNA, Bacterial genetics, Exotoxins biosynthesis, Gene Rearrangement, Genetic Variation, Humans, Phenotype, Pseudomonas aeruginosa enzymology, Pseudomonas aeruginosa isolation & purification, Virulence genetics, Pseudomonas aeruginosa Exotoxin A, ADP Ribose Transferases genetics, Bacterial Toxins genetics, Exotoxins genetics, Genes, Bacterial, Pseudomonas aeruginosa genetics, Virulence Factors
Abstract

We have previously characterized several Pseudomonas aeruginosa isolates that were obtained from patients with tracheal, urinary tract, or wound infections (A. H. Hamood, J. A. Griswold, and C. M. Duhan, 1996, J. Surg. Res. 61: 425). Analysis of additional isolates showed that regardless of the isolation site, some isolates produced significantly higher or significantly lower levels of either exotoxin A or exoenzyme S proteins. These variations did not correlate with the mucoid phenotype of the isolates. One aim of this study was to determine if the variations in the level of exotoxin A or exoenzyme S are due to DNA rearrangements within either the toxA or the exoS gene. This was accomplished by Southern blot hybridization experiments using a toxA internal probe, a toxA upstream probe, or an exoS internal probe. Hybridization with the toxA internal probe produced a 0.8-kb hybridizing fragment, whereas hybridization with the exoS internal probe produced either a 2.0- or a 2.3-kb hybridizing fragment. Hybridization with the toxA upstream probe, however, produced hybridizing fragments of varying sizes, regardless of their isolation site. Isolates that showed a similar hybridization fragment with either the toxA upstream probe or the exoS internal probe produced variable levels of exotoxin A or exoenzyme S. These results suggest that: [1] specific location within the host has no effect on either the mucoid phenotype of the isolate or the level of exotoxin A or exoenzyme S produced by the isolates; [2] although restriction polymorphism exists within the toxA upstream region, both the toxA and the exoS structural genes are relatively conserved; and [3] variations in the level of exoenzyme S and exotoxin A produced by different isolates do not correlate with either the observed heterogeneity within the toxA upstream region or the mucoid phenotype of the isolates., (Copyright 1999 Academic Press.)

Published
1999
Full Text
View/download PDF

17. Contribution of the regulatory gene lasR to the pathogenesis of Pseudomonas aeruginosa infection of burned mice.

Author

Rumbaugh KP, Griswold JA, and Hamood AN

Subjects
Animals, Female, Mice, Mice, Inbred Strains, Mutation, Pseudomonas aeruginosa genetics, Skin injuries, Virulence genetics, Burns microbiology, Genes, Regulator, Pseudomonas Infections microbiology, Wound Infection microbiology
Abstract

Pseudomonas aeruginosa is a gram-negative opportunistic pathogen that causes severe infections in patients with burns. The P aeruginosa regulatory gene, lasR, regulates the expression of several virulence factors. The specific lasR isogenic mutant, PAO-R1, is defective in the synthesis of the 2 elastases (LasB and LasA) and produces low levels of exotoxin A and alkaline proteases. In this study, we used a burned mouse model to examine the role of lasR in the pathogenesis of P aeruginosa infections. We have examined the following aspects of P aeruginosa infections: 1) lethality to the burned mouse, 2) the dissemination within the body of the burned mouse, and 3) the local spread within the burned skin. In comparison with its parent strain, PAO1, PAO-R1 was less lethal. In addition, the numbers of PAO-R1 microorganisms recovered from the livers and spleens of the burned mice were less than those of PAO1. Furthermore, at 8 hours postinfection, equivalent numbers of PAO1 and PAO-R1 were detected at the inoculation site of the burned skin. However, only PAO1 microorganisms were detected at other sites of the burned skin. These results suggest that the lasR gene contributes (directly and indirectly) to the dissemination of P aeruginosa within the body of burned mice and its horizontal spread within the burned skin.

Published
1999
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results