Your search keyword '"Biofilms"' showing total 126,625 results

301. A Biofilm Channel Origin for Vermiform Microstructure in Carbonate Microbialites.

Author

Ibarra, Yadira, Marenco, Pedro J., Centlivre, Jakob P., Hedlund, Brian P., Rademacher, Laura K., Greene, Sarah E., Bottjer, David J., and Corsetti, Frank A.

Subjects

*FOSSILS, *FOSSIL microorganisms, *PHANEROZOIC Eon, *BIOFILMS, *DEMOSPONGIAE

Abstract

A three‐dimensional tubular fabric known as "vermiform microstructure" in Phanerozoic and Neoproterozoic carbonate microbialites has been hypothesized to represent the body fossil of nonspicular keratose demosponges. If correct, this interpretation extends the sponge body fossil record and origin of animals to ~890 Ma. However, the veracity of the keratose sponge interpretation for vermiform microstructure remains in question, and the origin of the tubular fabric is enigmatic. Here we compare exceptionally well‐preserved microbialite textures from the Upper Triassic to channel networks created by modern microbial biofilms. We demonstrate that anastomosing channel networks of similar size and geometries are produced by microbial biofilms in the absence of sponges, suggesting the origin for vermiform microstructure in ancient carbonates is not unique to sponges and perhaps best interpreted conservatively as likely microbial in origin. We present a taphonomic model of early biofilm lithification in seawater with anomalously high carbonate saturation necessary to preserve delicate microbial textures. This work has implications for the understanding of three‐dimensional biofilm architecture that goes beyond the current micro‐scale observations available from living biofilm experiments and suggests that biofilm channel networks have an extensive fossil record. [ABSTRACT FROM AUTHOR]

Published

2024

302. Natural and synthetic molecules with potential to enhance biofilm formation and virulence properties in Pseudomonas aeruginosa.

Author

Jeong, Geum-Jae, Khan, Fazlurrahman, Tabassum, Nazia, and Kim, Young-Mog

Subjects

*ABIOTIC environment, *PATHOGENIC microorganisms, *CYSTIC fibrosis, *METABOLITES, *LUNG infections, *PSEUDOMONAS aeruginosa

Abstract

Pseudomonas aeruginosa can efficiently adapt to changing environmental conditions due to its ubiquitous nature, intrinsic/acquired/adaptive resistance mechanisms, high metabolic versatility, and the production of numerous virulence factors. As a result, P. aeruginosa becomes an opportunistic pathogen, causing chronic infection in the lungs and several organs of patients suffering from cystic fibrosis. Biofilm established by P. aeruginosa in host tissues and medical device surfaces has been identified as a major obstruction to antimicrobial therapy. P. aeruginosa is very likely to be closely associated with the various microorganisms in the host tissues or organs in a pathogenic or nonpathogenic behavior. Aside from host-derived molecules, other beneficial and pathogenic microorganisms produce a diverse range of secondary metabolites that either directly or indirectly favor the persistence of P. aeruginosa. Thus, it is critical to understand how P. aeruginosa interacts with different molecules and ions in the host and abiotic environment to produce extracellular polymeric substances and virulence factors. Thus, the current review discusses how various natural and synthetic molecules in the environment induce biofilm formation and the production of multiple virulence factors. [ABSTRACT FROM AUTHOR]

Published

2024

303. Insights into the genomic and phenotypic characteristics of Bacillus spp. strains isolated from biofilms in broiler farms.

Author

Guéneau, Virgile, Jiménez, Guillermo, Castex, Mathieu, and Briandet, Romain

Subjects

*LIVESTOCK housing, *MICROBIAL ecology, *BACILLUS licheniformis, *POULTRY farms, *MICROBIAL communities, *BIOFILMS

Abstract

The characterization of surface microbiota living in biofilms within livestock buildings has been relatively unexplored, despite its potential impact on animal health. To enhance our understanding of these microbial communities, we characterized 11 spore-forming strains isolated from two commercial broiler chicken farms. Sequencing of the strains revealed them to belong to three species Bacillus velezensis, Bacillus subtilis, and Bacillus licheniformis. Genomic analysis revealed the presence of antimicrobial resistance genes and genes associated with antimicrobial secretion specific to each species. We conducted a comprehensive characterization of the biofilm formed by these strains under various conditions, and we revealed significant structural heterogeneity across the different strains. A macro-colony interaction model was employed to assess the compatibility of these strains to coexist in mixed biofilms. We identified highly competitive B. velezensis strains, which cannot coexist with other Bacillus spp. Using confocal laser scanning microscopy along with a specific dye for extracellular DNA, we uncovered the importance of extracellular DNA for the formation of B. licheniformis biofilms. Altogether, the results highlight the heterogeneity in both genome and biofilm structure among Bacillus spp. isolated from biofilms present within livestock buildings. [ABSTRACT FROM AUTHOR]

Published

2024

304. Unveiling the Mechanisms for Campylobacter jejuni Biofilm Formation Using a Stochastic Mathematical Model.

Author

Dzianach, Paulina A., Dykes, Gary A., Strachan, Norval J. C., Forbes, Ken J., and Pérez-Reche, Francisco J.

Subjects

*CAMPYLOBACTER jejuni, *CELLULAR automata, *EXTRACELLULAR matrix, *CELL growth, *STOCHASTIC models

Abstract

Campylobacter jejuni plays a significant role in human health, food production, and veterinary practice. Biofilm formation is a likely mechanism explaining the survival of C. jejuni in seemingly unfavourable environments, but the underlying mechanisms are poorly understood. We propose a mathematical model to unify various observations regarding C. jejuni biofilm formation. Specifically, we present a cellular automaton with stochastic dynamics that describes both the probability of biofilm initiation and its subsequent growth. Our model incorporates fundamental processes such as cell rearrangement, diffusion of chemical compounds, accumulation of extracellular material, cell growth, lysis, and deactivation due to nutrient scarcity. The model predicts an optimal nutrient concentration that enhances population survival, revealing a trade-off where higher nutrient levels may harm individual cells but benefit the overall population. Our results suggest that the lower biofilm accumulation observed experimentally in aerobic conditions compared to microaerobic conditions may be due to a reduced surface invasion probability of individual cells. However, cells that do manage to invade can generate microcolonies of a similar size under both aerobic and microaerobic conditions. These findings provide new insights into the survival probability and size of C. jejuni biofilms, suggesting potential targets for controlling its biofilm formation in various environments. [ABSTRACT FROM AUTHOR]

Published

2024

305. Comparison of the Proteome of Staphylococcus aureus Planktonic Culture and 3-Day Biofilm Reveals Potential Role of Key Proteins in Biofilm.

Author

Rahman, Md. Arifur, Amirkhani, Ardeshir, Chowdhury, Durdana, Vickery, Karen, and Hu, Honghua

Subjects

*PROTEOMICS, *METABOLITES, *ATP-binding cassette transporters, *MICROBIAL metabolism, *ARTIFICIAL implants

Abstract

Staphylococcus aureus and coagulase-negative staphylococci account for about 80% of infections associated with medical devices and are associated with increased virulence due to their ability to form biofilm. In this study, we aimed to construct a comprehensive reference map followed by significant pathway analysis in the proteome of S. aureus biofilm grown for 3 days compared with 24 h of planktonic culture using a high-resolution Tandem Mass Tag (TMT)-based MS. We identified proteins associated with secondary metabolites, ABC transporters, biosynthesis of amino acids, and response to stress, and amino sugar and nucleotide sugar metabolism were significantly upregulated in 3-day biofilm. In contrast, proteins associated with virulence factors, microbial metabolism in diverse environments, secondary metabolites, translation, and energy metabolism were significantly downregulated. GO functional annotation indicated that more proteins are involved in metabolic processes, catalytic activity, and binding in biofilm, respectively. Among the significantly dysregulated proteins, hyaluronidase (hysA) in conjunction with chitinase may play a significant role in the elimination and/or prevention of biofilm development. This study advances the understanding of the S. aureus subproteome, identifying potential pathways significant to biofilm biology. The insights gained may aid in developing new therapeutic strategies, including antibiofilm agents, for treating biofilm-related infections associated with implantable medical devices. [ABSTRACT FROM AUTHOR]

Published

2024

306. Medical Scope of Biofilm and Quorum Sensing during Biofilm Formation: Systematic Review.

Author

Erkihun, Mulat, Asmare, Zelalem, Endalamew, Kirubel, Getie, Birhanu, Kiros, Teklehaimanot, and Berhan, Ayenew

Subjects

*BIOFILMS, *QUORUM sensing, *CELL growth, *ACYL-homoserine lactones, *ANTI-infective agents

Abstract

Biofilms are accumulations of microorganisms in an extracellular polymeric substance matrix which are composed of polysaccharides, proteins, lipids, and nucleic acids. Many bacteria can switch between a planktonic form and a biofilm form. The planktonic bacteria have relatively high cell growth and reproduction rates and have a reduced likelihood of survival but can adapt to occupy new habitats. The biofilm state appears to be a natural and predominant state of bacteria. The need for the formation of bacterial biofilm is that it enhances the tolerance of bacteria to harsh environmental conditions, thereby allowing bacteria to avoid being washed away by water flow or the bloodstream by simply attaching to a surface or tissue, and the EPS matrix protects bacteria cells, in deeper layers, against antimicrobial agents, probably by limiting the diffusion of these agents. Biofilm formation steps are initial contact/attachment to the surface, followed by micro-colony formation, maturation and formation of the architecture of the biofilm, and finally detachment/dispersion of the biofilm. Once formed, biofilm restricts bacterial mobility and increases cell density. Secretions of autoinducers into the environment are critical for cross-signaling between bacteria. This cross-talk is called quorum sensing (QS). Quorum sensing is a cell–cell communication mechanism between bacteria that allows specific processes to be controlled, such as biofilm formation and virulence factor expression. Bacterial quorum sensing signaling mainly consists of acyl-homoserine lactones (produced by Gram-negatives), autoinducing peptides (produced by Gram-positives), and autoinducer-2 (produced by both Gram-negatives and Gram-positives). Therefore, this review is aimed at how bacterial biofilms work and are formed. [ABSTRACT FROM AUTHOR]

Published

2024

307. New commercial wipes inhibit the dispersion and adhesion of Staphylococcus aureus and Pseudomonas aeruginosa biofilms.

Author

Di Fermo, Paola, Diban, Firas, Ancarani, Elisabetta, Yu, Kelvin, D'Arcangelo, Sara, D'Ercole, Simonetta, Di Lodovico, Silvia, Di Giulio, Mara, and Cellini, Luigina

Subjects

*FOOD processing plants, *PSEUDOMONAS aeruginosa, *STAPHYLOCOCCUS aureus, *POLYVINYL chloride, *BIOFILMS

Abstract

Aim Bacterial biofilms can form on surfaces in hospitals, clinics, farms, and food processing plants, representing a possible source of infections and cross-contamination. This study investigates the effectiveness of new commercial wipes against Staphylococcus aureus and Pseudomonas aeruginosa biofilms (early attachment and formed biofilms), assessing LH SALVIETTE wipes (Lombarda H S.r.l.) potential for controlling biofilm formation. Methods and results The wipes efficacy was studied against the early attachment phase and formed biofilm of S. aureus ATCC 6538 and P. aeruginosa ATCC 15442 on a polyvinyl chloride (PVC) surface, following a modified standard test EN 16615:2015, measuring Log10 reduction and cell viability using live/dead staining. It was also evaluated the wipes anti-adhesive activity over time (3 h, 2 4h), calculating CFU.mL−1 reduction. Data were analyzed using t -student test. The wipes significantly reduced both early phase and formed S. aureus biofilm, preventing dispersion on PVC surfaces. Live/dead imaging showed bacterial cluster disaggregation and killing action. The bacterial adhesive capability decreased after short-time treatment (3 h) with the wipes compared to 24 h. Conclusions Results demonstrated decreased bacterial count on PVC surface both for early attachment phase and formed biofilms, also preventing the bacterial biofilm dispersion. [ABSTRACT FROM AUTHOR]

Published

2024

308. Green Synthesis of Silver Nanoparticles using Moringa oleifera: Implementation to Photoantimicrobial of Candida albicans with LED Light.

Author

Imelda, Imelda, Astuty, Sri Dewi, Gareso, Paulus Lobo, Dwyana, Zaraswati, Arifin, Nur Fadhillah, and Astuti, Suryani Dyah

Subjects

*MORINGA oleifera, *SILVER nanoparticles, *CANDIDA albicans, *LIGHT sources, *BIOFILMS

Abstract

Green synthesis of silver nanoparticles using Moringa oleifera (AgNPs/MO) was carried out to produce nanoscale antifungal agents which are used as photosensitizing agents in photoantimicrobial therapy. This study focused on investigating the potential of AgNPs/MO producing some toxic radical compounds that inhibit the growth of Candida albicans biofilms. The inhibition mechanism uses the principle of photoinactivation treatment which combines a photosensitizer with an LED light source at a power of 100 mW for 60 - 300 s of exposure. Quantitative data analyzed were the number of viable cells and radical compounds, formed by malondialdehyde (MDA) level. It is investigated through staining the XTT (2,3-Bis-(2-Methoxy-4-Nitro-5-Sulfophenyl)-2H-Tetrazolium-5-Carboxanilide) and TBARS (Thiobarbituric Acid Reactive Substances). The results show that the maximum wavelength of AgNPs is 440 nm while the Moringa oleifera has 2 peaks at 425 and 635 nm. The maximum effect occurred in the group of photosensitizer AgNPs/MO combined LED with percentage inactivation about 76.80 % for blue LEDs and 76.20 % for red LEDs. The group of LED irradiation without photosensitizer obtained about 51.85 % for blue LEDs and 50.04 % for red LEDs. The MDA level group of AgNPs/MO combined LED also produced MDA levels of 1.772 nmol/mL for blue LED and 1.617 nmol/mL for red LED. Meanwhile, the application of photoantimicrobial using only LEDs produced MDA levels of only 1.353 nmol/mL for blue LEDs and 1.347 nmol/mL for red LEDs. This research has shown that the green synthesis of AgNPs/MO has a good potential to inhibit the growth of Candida albicans biofilms as a photosensitizer agent. [ABSTRACT FROM AUTHOR]

Published

2024

309. Characterization of Antimicrobial Resistance Mechanisms and Virulence Determinants in Colistin- and Carbapenem-Resistant Pseudomonas aeruginosa.

Author

Kalaiarasan, Ellappan, Alex, Anoop, Narasimha, Harish Belgode, and Sehgal, Rakesh

Subjects

*CARBAPENEM-resistant bacteria, *PSEUDOMONAS aeruginosa, *DRUG resistance in microorganisms, *COLISTIN, *ALGINIC acid

Abstract

Antibiotics like colistin can save patients infected with carbapenem-resistant Pseudomonas aeruginosa. However, patients can succumb to such infections even if they undergo colistin therapy. This prompted us to investigate the probable antimicrobial resistance mechanisms and virulence determinants involved in colistin- and carbapenem-resistant P. aeruginosa (CCRPA). Of the 448 P. aeruginosa clinical strains, 19 isolates were resistant to both colistin and carbapenem. Carbapenemases and efflux pump encoding genes were assessed by multiplex PCR and qPCR, respectively. blaVIM was detected among six CCRPA isolates and blaIMP in one strain. The expression levels of pmrA and phoP, as well as pmrB genes and their association with colistin resistance, were assessed by qPCR and semi-quantitate PCR, respectively. pmrA and phoP genes were significantly enhanced in three and nine CCRPA isolates, respectively. We also phenotypically evaluated biofilms, pyocyanin, and alginate production among CCRPA strains. Alginate production was observed in 15 isolates, followed by biofilm (n = 8) and pyocyanin (n = 5). Our results highlighted the coexistence of colistin and carbapenem resistance and biofilm formation among clinical isolates of CCRPA. Further studies are required to trace the source and the origin of colistin and carbapenem resistance in this specific environment. [ABSTRACT FROM AUTHOR]

Published

2024

310. Comparison of Biofilm Growth and Quorum Sensing Molecules in Vaginal Lactobacillus Species: A Preliminary Report.

Author

Sanchez, Asley, Alimiran, Fnu, Gandhi, Kushal, David, Samuel, Babayco, Christopher B., Fiveash, Chloe, Garza, John, Le, Duc, Le, Triet, Oldham, Athenia, Henderson, Douglas, Galloway, Michael, and Ventolini, Gary

Subjects

*GENITALIA, *HUMAN microbiota, *BACTERIAL communities, *BACTERIAL growth, *LACTOBACILLUS, *QUORUM sensing, *BIOFILMS

Abstract

Recently, studies suggest that the protective effects of Lactobacillus within the female reproductive tract may be partly due to their ability to form biofilms. This study aims to explore the possibility that Lactobacillus can produce key mediators to further bolster the survival of biofilms in human vaginal microbiomes. Three bacterial species, namely, Lactobacillus gasseri, L. crispatus, and L. jensenii, sourced from human female subjects were used to carry out experiments examining the growth of biofilms using a microfermenter system. The bacteria were used to inoculate a glass rod spatula which was subsequently transferred to the microfermenter system. The resulting biofilm growing on the glass spatula was harvested in media and stored in a −80 °C freezer for gas chromatography–mass spectroscopy analysis. We found that quorum sensing compounds, acyl homoserine lactones (AHLs), were detected in the biofilm of L. crispatus and L. jensenii, but none were detected in L. gasseri. The biofilm produced by L. crispatus and L. jensenii was much higher in quantity than the biofilm produced by L. gasseri. Aside from oligopeptides quorum sensing, lactobacilli were found to also have AHL compounds that may help them produce more biofilms and improve the survival and growth of their bacterial communities in the female genital area. [ABSTRACT FROM AUTHOR]

Published

2024

311. The activity of the quorum sensing regulator HapR is modulated by the bacterial extracellular vesicle (BEV)‐associated protein ObfA of Vibrio cholerae.

Author

Ebenberger, Stephan P., Cakar, Fatih, Chen, Yi‐Chi, Pressler, Katharina, Eberl, Leo, and Schild, Stefan

Subjects

*BIOLOGICAL fitness, *QUORUM sensing, *BACTERIAL cell walls, *VIBRIO cholerae, *EXTRACELLULAR vesicles, *BIOFILMS

Abstract

Vibrio cholerae, a facultative human pathogen and causative agent of the severe diarrheal disease cholera, transits between the human intestinal tract and aquatic reservoirs. Like other bacterial species, V. cholerae continuously releases bacterial extracellular vesicles (BEVs) from its surface, which have been recently characterised for their role during in vivo colonisation. However, between epidemic outbreaks, V. cholerae persists in the biofilm mode for extended periods in aquatic reservoirs, which enhances environmental fitness and host transition. In this study, we investigated the effect of V. cholerae BEVs on biofilm formation, a critical feature for ex vivo survival. In contrast to BEVs from planktonic cultures, our results show that physiological concentrations of BEVs from dynamic biofilm cultures facilitate V. cholerae biofilm formation, which could be linked to a proteinaceous factor. Comparative proteomic analyses of planktonic‐ and biofilm‐derived BEVs identified a previously uncharacterised outer membrane protein as an abundant component of dynamic biofilm‐derived BEVs, which was found to be responsible for the BEV‐dependent enhancement of biofilm production. Consequently, this protein was named outer membrane‐associated biofilm facilitating protein A (ObfA). Comprehensive molecular studies unravelled ObfA as a negative modulator of HapR activity. HapR is a key transcriptional regulator of the V. cholerae quorum sensing (QS) cascade acting as a potent repressor of biofilm formation and virulence. Consistently, obfA mutants not only exhibited reduced biofilm production but also reduced colonisation fitness. Surprisingly, our results demonstrate that ObfA does not affect HapR through the canonical QS system but via the Csr‐cascade altering the expression of the small regulatory RNAs CsrC and CsrD. In summary, this study elucidates a novel intraspecies BEV‐based communication in V. cholerae that influences biofilm formation and colonisation fitness via a new regulatory pathway involving HapR, Csr‐cascade and the BEV‐associated protein ObfA. [ABSTRACT FROM AUTHOR]

Published

2024

312. Phylotypes, Antibiotic Resistance and Biofilm Formation Determined in Enteropathogenic Escherichia coli Isolates in Diarrheic Cats.

Author

YÜKSEL DOLGUN, Hafize Tuğba, SEFEROĞLU, Yiğit, and TÜRKYILMAZ, Süheyla

Subjects

*ESCHERICHIA coli, *MULTIDRUG resistance, *DRUG resistance in bacteria, *CONGO red (Staining dye), *BIOFILMS

Abstract

This study investigated the phylotypes, biofilm formation abilities, antibiotic resistance of enteropathogenic Escherichia coli (EPEC) isolates from cats with diarrhea. From 37 diarrheal cats, 28 E. coli isolates were obtained using conventional methods. Pathotypes and phylotypes were determined via PCR, biofilm formation potential via Congo Red Agar, and resistance profiles against eight antibiotics were examined using the disk diffusion method, evaluated according to the Clinical and Laboratory Standards Institute (CLSI). Chi-square tests assessed relationships between phylogenetic groups, biofilm formation, and MDR statuses. The results were considered statically significant at a 95% confidence interval and significance level of P<0.05. Pathotyping studies showed that 46% (13 isolates) of the isolates were EPEC. 93% of isolates were phylotyped. Seven phylotypes were detected: B2 (22%), C (18%), B1 (18%), D (14%), A (11%), E (7%) and F (3%). Of the isolates 39% formed biofilms and 86% were MDR. No significant association was found between pathotype and biofilm formation or MDR. However, a significant relationship was noted between pathotype EPEC and phylogenetic group B2. The correlation between EPEC pathotype and phylotype B2 in diarrheic cats suggests high pathogenic potential. Multidrug resistance, even in non-biofilm forming isolates, complicates treatment and poses public health risks, underscoring the need for detailed evaluation of E. coli diversity and zoonotic pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

313. Impact of water quality on reprocessing equipment: Assessment of neurosurgical instruments cleaning and biofilm formation in hospital pipes.

Author

Alvim, Andre Luiz Silva, Varoto, Adriely de Abreu, Martins, Elaine, Rigotti, Marcelo Alessandro, Ferreira, Adriano Menis, Dodo, Natalia Bianchini, Diniz, Maiara Oliveira, Giroti, Alessandra Lyrio Barbosa, Carneiro, Liliane Moretti, Dos Santos Almeida Vaz, Emileide, Sousa, Alvaro Francisco Lopes de, and de Andrade, Denise

Subjects

*WATER standards, *PROTEIN analysis, *NEUROSURGERY, *BIOFILMS, *MICROBIAL sensitivity tests, *PILOT projects, *QUALITY control, *TREATMENT effectiveness, *DESCRIPTIVE statistics, *STERILIZATION (Disinfection), *EXPERIMENTAL design, *ESCHERICHIA coli, *WATER supply, *HOSPITAL laboratories, *SURGICAL instruments, *COLLECTION & preservation of biological specimens, *AUTOMATION, *STAINS & staining (Microscopy), *DATA analysis software, *KLEBSIELLA, *CULTURES (Biology)

Abstract

Background: The presence of contamination and microorganisms at any stage of processing renders a method unsafe, leading to a high risk of cross-transmission and cross-infection. Objective: The objective of this study was to assess the cleaning quality of aspirator instruments used in neurosurgical procedures. Methods: The experimental study was conducted at the materials and sterilization center, as well as the microbiology laboratory, of a philanthropic hospital in Brazil. A study protocol was implemented, which involved the analysis of 10 samples of Yasargil aspirators with varying dimensions. The samples were subjected to protein tests to detect the presence of organic matter and microbiological analysis. Descriptive statistics were used to analyze the data. Results: The results indicated that 40% of the instruments tested positive for protein after manual cleaning. Furthermore, after automated cleaning, samples showed an increased microbiological load, with Escherichia coli accounting for 20% and Klebsiella aerogenes for 10% of the identified microorganisms. Conclusion: This study provides evidence of failures in the cleaning process of healthcare products and highlights the presence of biofilm in the pipes, thereby compromising the drinking water quality standard. [ABSTRACT FROM AUTHOR]

Published

2024

314. Total RNA analysis of the active microbiome on moving bed biofilm reactor carriers under incrementally increasing micropollutant concentrations.

Author

Martin, Joseph Donald, Tisler, Selina, Scheel, Maria, Svendsen, Sif, Anwar, Muhammad Zohaib, Zervas, Athanasios, Ekelund, Flemming, Bester, Kai, Hansen, Lars Hestbjerg, Jacobsen, Carsten Suhr, and Ellegaard-Jensen, Lea

Subjects

*MOVING bed reactors, *XENOBIOTICS, *SEWAGE disposal plants, *WASTEWATER treatment, *RNA analysis, *MICROPOLLUTANTS

Abstract

Micropollutants are increasingly prevalent in the aquatic environment. A major part of these originates from wastewater treatment plants since traditional treatment technologies do not remove micropollutants sufficiently. Moving bed biofilm reactors (MBBRs), however, have been shown to aid in micropollutant removal when applied to conventional wastewater treatment as a polishing step. Here, we used Total RNA sequencing to investigate both the active microbial community and functional dynamics of MBBR biofilms when these were exposed to increasing micropollutant concentrations over time. Concurrently, we conducted batch culture experiments using biofilm carriers from the MBBRs to assess micropollutant degradation potential. Our study showed that biofilm eukaryotes, in particular protozoa, were negatively influenced by micropollutant exposure, in contrast to prokaryotes that increased in relative abundance. Further, we found several functional genes that were differentially expressed between the MBBR with added micropollutants and the control. These include genes involved in aromatic and xenobiotic compound degradation. Moreover, the biofilm carrier batch experiment showed vastly different alterations in benzotriazole and diclofenac degradation following the increased micropollutant concentrations in the MBBR. Ultimately, this study provides essential insights into the microbial community and functional dynamics of MBBRs and how an increased load of micropollutants influences these dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

315. BpfD Is a c-di-GMP Effector Protein Playing a Key Role for Pellicle Biosynthesis in Shewanella oneidensis.

Author

Poli, Jean-Pierre, Boyeldieu, Anne, Lutz, Alexandre, Vigneron-Bouquet, Amélie, Ali Chaouche, Amine, Giudici-Orticoni, Marie-Thérèse, Fons, Michel, and Jourlin-Castelli, Cécile

Subjects

*SECOND messengers (Biochemistry), *SHEWANELLA oneidensis, *PSEUDOMONAS fluorescens, *CYCLASES, *BIOFILMS

Abstract

The aquatic γ-proteobacterium Shewanella oneidensis is able to form two types of biofilms: a floating biofilm at the air–liquid interface (pellicle) and a solid surface-associated biofilm (SSA-biofilm). S. oneidensis possesses the Bpf system, which is orthologous to the Lap system first described in Pseudomonas fluorescens. In the Lap systems, the retention of a large adhesin (LapA) at the cell surface is controlled by LapD, a c-di-GMP effector protein, and LapG, a periplasmic protease targeting LapA. Here, we showed that the Bpf system is mandatory for pellicle biogenesis, but not for SSA-biofilm formation, indicating that the role of Bpf is somewhat different from that of Lap. The BpfD protein was then proved to bind c-di-GMP via its degenerated EAL domain, thus acting as a c-di-GMP effector protein like its counterpart LapD. In accordance with its key role in pellicle formation, BpfD was found to interact with two diguanylate cyclases, PdgA and PdgB, previously identified as involved in pellicle formation. Finally, BpfD was shown to interact with CheY3, the response regulator controlling both chemotaxis and biofilm formation. Altogether, these results indicate that biofilm formation in S. oneidensis is under the control of a large c-di-GMP network. [ABSTRACT FROM AUTHOR]

Published

2024

316. Prevention of Initial Periodontitis Is an Investment in the Future.

Author

Heikkinen, Anna Maria, Raivisto, Teija, Räisänen, Ismo Tapani, and Sorsa, Timo

Subjects

*DENTAL calculus, *GINGIVAL hemorrhage, *MOUTHWASHES, *MATRIX metalloproteinases, *DENTAL plaque

Abstract

Background: Periodontal tissue damage is mainly caused by the active form of collagenolytic matrix metalloproteinase-8, aMMP-8, the concentration of which in the mouth rinse can be measured with a mouth rinse chairside-test. The mouth rinse chair side test can be used to identify adolescents with a risk of periodontitis. Methods: The data were collected at the Kotka Health Centre (2004–2005, N = 501 and 2014–2015, N = 47) and at the Hämeenlinna Health Centre (2017–2018, N = 125) consisting of adolescents aged 14–17. They underwent a complete periodontal examination, and some were subjected to the aMMP-8-test. Results: We identified bacterial plaques in combination with increased bleeding on probing (BOP), elevated aMMP-8 concentration, smoking and male sex as the main risk factors for initial periodontitis. Approximately 10% of adolescents had subclinical periodontitis, they were not periodontally healthy, but also not sick. They may not develop periodontitis, but they are at the risk. The aMMP-8 test positivity had a stronger association with initial periodontitis than BOP. Conclusions: In addition to identifying risk factors, these adolescents need individual prevention and, if necessary, early treatment. For the periodontal health biomarker aMMP-8, test negativity ([-], ≤20 ng/mL) should be sought. [ABSTRACT FROM AUTHOR]

Published

2024

317. Mixed oral biofilms are controlled by the interspecies interactions of Fusobacterium nucleatum.

Author

Valadbeigi, Hassan, Khoshnood, Saeed, Negahdari, Babak, Maleki, Abbas, Mohammadinejat, Medya, and Haddadi, Mohammad Hossein

Subjects

*ORAL microbiology, *GENETICS of bacterial diseases, *BACTERIAL disease prevention, *BIOFILMS, *PERIODONTAL disease, *DRUG resistance in microorganisms, *FUSOBACTERIUM, *BACTERIAL diseases, *GRAM-negative bacteria, *MEMBRANE proteins

Abstract

Background: Fusobacterium nucleatum (F. nucleatum) is an integral component of supra‐ and subgingival biofilms, especially more prevalent in subgingival areas during both periodontal health and disease. Aims: In this review, we explore the physical, metabolic, and genetic interactions that influence the role of F. nucleatum in the formation of mixed oral biofilms. The role of F. nucleatum in antibiotic resistance in oral biofilms was discussed and some therapeutic strategies were proposed. Methods: PubMed, Scopus, Google Scholar, and the Web of Science were extensively searched for English‐language reports. Results: F. nucleatum‐derived proteins such as RadD, Fap2, FomA, and CmpA are involved in direct interactions contributing to biofilm formation, while autoinducer‐2 and putrescine are involved in metabolic interactions. Both groups are essential for the formation and persistence of oral biofilms. This study highlights the clinical relevance of targeted interactions of F. nucleatum in supra‐ and subgingival oral biofilms. Conclusions: By focusing on these interactions, researchers and clinicians can develop more effective strategies to prevent biofilm‐related disease and reduce the spread of antibiotic resistance. Further research in this area is warranted to explore the potential therapeutic interventions that can be derived from understanding the interactions of F. nucleatum in oral biofilm dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

318. A major review on punctal stenosis: Part II: Updated therapeutic interventions, complications, and outcomes.

Author

Tawfik, Hatem A. and Ali, Mohammad Javed

Subjects

*MITOMYCIN C, *STENOSIS, *BIOFILMS, *INFLAMMATION, *PATHOGENESIS

Abstract

We continue our review of on punctal stenosis by providing a detailed discussion of management modalities, their complications, and outcomes. There is a significant change in the understanding of punctal and peripunctal anatomy, puncto-canalicular junction, and the lacrimal pump mechanisms. While the snip punctoplasty procedures are still practiced, there is an increasing trend toward nonincisional procedures. The nonincisional procedures in select cases appear to be equally effective as the incisional ones. Although simple to use, punctal plugs never became the mainstay of treatment because of design issues and the inability to address the coexisting canalicular stenosis. Placing stents only in the lower punctum in cases of upper and lower punctal stenosis should be discouraged, and management needs to address punctal stenosis and not which punctum is involved. Several types of stents are used in the management of punctal stenosis, mostly based on surgeon's preference. The benefits of adjuvant mitomycin C are uncertain. In view of literature on how stent biofilms can themselves cause chronic inflammation, placing them for prolonged periods should be reviewed and debated. Enhanced understanding of the molecular pathogenesis of punctal stenosis and addressing the current controversies in management would help standardize the therapeutic interventions available in the lacrimal armamentarium. [ABSTRACT FROM AUTHOR]

Published

2024

319. Effect of initial ammonium concentration on a one-stage partial nitrification/anammox biofilm system: Nitrogen removal performance and the microbial community.

Author

Zhou, Mengyu, Han, Yun, Zhuo, Yang, Yu, Fen, Hu, Gaoyuan, and Peng, Dangcong

Subjects

*BIOFILMS, *MICROBIAL communities, *MOVING bed reactors, *NITRIFICATION, *BIOENERGETICS, *NITROGEN

Abstract

• IAC significantly affects the nitrogen removal performance of the PN/A system. • Rate-limiting step of mature PN/A biofilms was independent of IAC. • IAC does not affect the ecological niche differentiation of Ca. Brocadia and Ca. Jettenia. • Enhanced nitrogen removal performance via IAC regulation. One-stage partial nitrification coupled with anammox (PN/A) technology effectively reduces the energy consumption of a biological nitrogen removal system. Inhibiting nitrite-oxidizing bacteria (NOB) is essential for this technology to maintain efficient nitrogen removal performance. Initial ammonium concentration (IAC) affects the degree of inhibited NOB. In this study, the effect of the IAC on a PN/A biofilm was investigated in a moving bed biofilm reactor. The results showed that nitrogen removal efficiency decreased from 82.49% ± 1.90% to 64.57% ± 3.96% after the IAC was reduced from 60 to 20 mg N/L, while the nitrate production ratio increased from 13.87% ± 0.90% to 26.50% ± 3.76%. NOB activity increased to 1,133.86 mg N/m2/day after the IAC decreased, approximately 4-fold, indicating that the IAC plays an important inhibitory role in NOB. The rate-limiting step in the mature biofilm of the PN/A system is the nitritation process and is not shifted by the IAC. The analysis of the microbial community structure in the biofilm indicates that the IAC was the dominant factor in changes in community structure. Ca. Brocadia and Ca. Jettenia were the main anammox bacteria, and Nitrosomonas and Nitrospira were the main AOB and NOB, respectively. IAC did not affect the difference in growth between Ca. Brocadia and Ca. Jettenia. Thus, modulating the IAC promoted the PN/A process with efficient nitrogen removal performance at medium to low ammonium concentrations. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

320. Impact of oligosaccharides on probiotic properties and B vitamins production: a comprehensive assessment of probiotic strains.

Author

Yin, Jia, Peng, Xiaoxia, Yang, Aijun, Lin, Mudi, Ji, Kunfa, Dai, Xiaohui, Huang, Juan, Li, Li, and Feng, Like

Subjects

*VITAMIN B deficiency, *VITAMIN B complex, *PROBIOTICS, *OLIGOSACCHARIDES, *FUNCTIONAL foods, *BIOFILMS

Abstract

Summary: From recent literature and research studies, it has been found that some bacterial strains have abilities with probiotic activities to produce B vitamins, which play essential roles in maintaining human health. Oligosaccharides can promote the beneficial microbes, however, the specific effects of oligosaccharides on B vitamins‐producing ability of probiotic strains have not been clarified. This study evaluated the effect of different oligosaccharides on the probiotic properties and B vitamin‐producing ability of 21 selected probiotic strains. The obtained results suggested that the strains could utilise oligosaccharides as the sole carbon source, and the hydrophobicity, auto‐aggregation, and biofilm formation of probiotic strains were specific regulated after fermentation with different oligosaccharides. In particular, the oligosaccharides had different influences on the levels of extracellular B vitamins produced by probiotic strains. These findings provide the foundation for studies on the B vitamins‐producing probiotic strains and their application in functional foods to prevent B vitamins deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

321. Assessment of dental and periodontal indices and Streptococcus mutans virulence in fragile X syndrome patients.

Author

do Amaral, Cristhiane Olivia Ferreira, Kantovitiz, Kamila Rosamilia, de Araújo, V. C., Marega, T., Teixeira, L. N., and Martinez, E. F.

Subjects

*DIAGNOSIS of fragile X syndrome, *BACTERIAL proteins, *MICROBIAL virulence, *BIOFILMS, *T-test (Statistics), *STREPTOCOCCUS mutans, *POLYMERASE chain reaction, *FISHER exact test, *BEHAVIOR, *MANN Whitney U Test, *DESCRIPTIVE statistics, *GENE expression, *PERIODONTICS, *RESEARCH methodology, *DENTAL caries, *COMPARATIVE studies, *ADVERSE health care events, *DATA analysis software, *HEMORRHAGE, *PSYCHOLOGICAL vulnerability

Abstract

Introduction: Fragile X syndrome (FXS) is the most common cause of hereditary genetic disorder in a single gene characterised by intellectual disability. Behavioural features such as autism, hyperactivity and anxiety disorder may be present. Biofilm development and pathogenicity of Streptococcus mutans may be altered because FXS renders the dental approach and oral hygiene more complex. Objectives: The purpose of this study was to compare the levels of transcripts for VicRK and CovR of S. mutans isolated from FXS patients with the levels of transcripts for VicRK and CovR of standard strain ATCC, using a quantitative polymerase chain reaction (qPCR). Methods: The caries experience index was assessed by the International Caries Detection and Assessment System (ICDAS), Periodontal Condition Index (PCI) and Invasive Dental Treatment Need Index (INI). Results: The clinical index findings revealed a high rate of caries cavities and bleeding on probing of FXS patients. When VicRK and CovR transcript levels were compared with the reference strain, Fragile X patients were found to have significantly higher values. Conclusion: The present study demonstrated that FXS patients have more adverse clinical conditions, with increased biofilm accumulation and virulence. When combined with behavioural abnormalities, these patients become even more vulnerable to dental caries. [ABSTRACT FROM AUTHOR]

Published

2024

322. Prebiotics, Probiotics and Postbiotics: The Changing Paradigm of Functional Foods.

Author

Kango, Naveen and Nath, Suresh

Subjects

*ANTI-inflammatory agents, *ANTILIPEMIC agents, *BIOFILMS, *GUT microbiome, *PREBIOTICS, *ANTINEOPLASTIC agents, *BACTERIAL antigens, *FUNCTIONAL foods, *HYPOGLYCEMIC agents, *FERMENTED foods, *GLYCOPROTEINS, *PARADIGMS (Social sciences), *POLYSACCHARIDES, *ANTIOXIDANTS, *DIETARY fiber, *PROBIOTICS

Abstract

The rampant use of antibiotics has led to the emergence of multidrug resistance and is often coupled with gut dysbiosis. To circumvent the harmful impact of antibiotics, probiotics have emerged as an effective intervention. However, while the new probiotics are being added to the list, more recently, the nature and role of their counterparts, viz. prebiotics, postbiotics and parabiotics have also drawn considerable attention. As such, intricate relationships among these gut-biotics vis-à-vis their role in imparting health benefits is to be delineated in a holistic manner. Prebiotic dietary fibers are selectively fermented by probiotics and promote their colonization in the gut. The proliferation of probiotics leads to production of fermentation by-products (postbiotics) which affect the growth of enteropathogens by lowering the pH and producing inhibitory bacteriocins. After completing life-cycle, their dead remnants (parabiotics e.g. exopolysaccharides and cell wall glycoproteins) also inhibit adhesion and biofilm formation of pathogens on the gut epithelium. These beneficial effects are not just endemic to gut but a systemic response is witnessed at different gut-organ axes. Thus, to decipher the role of probiotics, it is imperative to unravel the interdependence between these components. This review elaborates on the recent advancements on various aspects of these gut-biotics and the mechanism of potential attributes like anti-oxidant, anti-inflammatory, anti-neoplastic, anti-lipidemic and anti-hyperglycemic benefits. [ABSTRACT FROM AUTHOR]

Published

2024

323. Formation of Single-Species and Multispecies Biofilm by Isolates from Septic Transfusion Reactions in Platelet Bag Model.

Author

Hapip, Cheryl Anne, Fischer, Erin, Feldman, Tamar Perla, and Brown, Bethany L.

Subjects

*BLOOD platelet transfusion, *BIOFILMS, *GENTIAN violet, *BACTERIAL cultures, *POINT-of-care testing, *PARVOVIRUS B19

Abstract

During 2018–2021, eight septic transfusion reactions occurred from transfusion of platelet units contaminated with Acinetobacter spp., Staphylococcus saprophyticus, Leclercia adecarboxylata, or a combination of those environmental organisms. Whether biofilm formation contributed to evasion of bacterial risk mitigations, including bacterial culture, point-of-care testing, or pathogen-reduction technology, is unclear. We designed a 12-well plate-based method to evaluate environmental determinants of single-species and multispecies biofilm formation in platelets. We evaluated bacteria isolated from septic transfusion reactions for biofilm formation by using crystal violet staining and enumeration of adherent bacteria. Most combinations of bacteria had enhanced biofilm production compared with single bacteria. Combinations involving L. adecarboxylata had increased crystal violet biofilm production and adherent bacteria. This study demonstrates that transfusion-relevant bacteria can produce biofilms well together. More work is needed to clarify the effect of biofilms on platelet bacterial risk control strategies, but US Food and Drug Administration– recommended strategies remain acceptable. [ABSTRACT FROM AUTHOR]

Published

2024

324. Escherichia coli exopolysaccharides disrupt Pseudomonas aeruginosa biofilm and increase its antibiotic susceptibility.

Author

Wan, Chenxiao, Ju, Xiaoyan, Xu, Dandan, Ou, Jinzhao, Zhu, Meng, Lu, Guojun, Li, Kejia, Jiang, Wei, Li, Chunyan, Hu, Xiaohua, Tian, Ye, and Niu, Zhongwei

Subjects

ESCHERICHIA coli, BIOFILMS, STAPHYLOCOCCUS aureus, TOBRAMYCIN, COMMUNICABLE diseases

Abstract

Pseudomonas aeruginosa (P. aeruginosa) is a major pathogen that causes infectious diseases. It has high tendency to form biofilms, resulting in the failure of traditional antibiotic therapies. Inspired by the phenomenon that co-culture of Escherichia coli (E. coli) and P. aeruginosa leads to a biofilm reduction, we reveal that E. coli exopolysaccharides (EPS) can disrupt P. aeruginosa biofilm and increase its antibiotic susceptibility. The results show that E. coli EPS effectively inhibit biofilm formation and disrupt mature biofilms in P. aeruginosa, Staphylococcus aureus , and E. coli itself. The maximal inhibition and disruption rates against P. aeruginosa biofilm are 40 % and 47 %, respectively. Based on the biofilm-disrupting ability of E. coli EPS, we develop an E. coli EPS/antibiotic combining strategy for the treatment of P. aeruginosa biofilms. The combination with E. coli EPS increases the antibacterial efficiency of tobramycin against P. aeruginosa biofilms in vitro and in vivo. This study provides a promising strategy for treating biofilm infections. Biofilm formation is a leading cause of chronic infections. It blocks antibiotics, increases antibiotic-tolerance, and aids in immune evasion, thus representing a great challenge in clinic. This study proposes a promising approach to combat pathogenic Pseudomonas aeruginosa (P. aeruginosa) biofilms by combining Escherichia coli exopolysaccharides with antibiotics. This strategy shows high efficiency in different P. aeruginosa stains, including two laboratory strains, PAO1 and ATCC 10145, as well as a clinically acquired carbapenem-resistant strain. In addition, in vivo experiments have shown that this approach is effective against implanted P. aeruginosa biofilms and can prevent systemic inflammation in mice. This strategy offers new possibilities to address the clinical failure of conventional antibiotic therapies for microbial biofilms. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

325. Comparison of Clinical Outcome of Bacterial Colonization between Nasogastric and Orogastric Enteral Feeding Tubes in Neonates in the Neonatal Intensive Care Unit.

Author

Soumya, M. and Malapur, Rajanikanth S.

Subjects

CROSS-sectional method, CESAREAN section, BREASTFEEDING, STEROIDS, RISK assessment, NASOENTERAL tubes, PATIENTS, BIOFILMS, T-test (Statistics), DATA analysis, NEONATAL intensive care units, HOSPITAL admission & discharge, HOST-bacteria relationships, TREATMENT effectiveness, NEONATAL intensive care, DESCRIPTIVE statistics, CHI-squared test, HOSPITAL care of newborn infants, ENTERAL feeding, BACTERIA, PRENATAL care, ACTINOBACTERIA, ELECTRONIC health records, STATISTICS, COLLECTION & preservation of biological specimens, DATA analysis software, FEEDING tubes

Abstract

Introduction: Enteral feeding tubes are commonly utilized in the neonatal intensive care unit (NICU) due to the underdevelopment of coordination between sucking, swallowing, and breathing, or due to various diseases affecting the respiratory, cardiovascular, gastrointestinal, or neurological systems. The aim of the study was to investigate the differences in bacterial colonization patterns in hospitalized infants who received enteral feeding through either nasogastric (NG) or orogastric (OG) feeding tubes. Materials and Methods: This study was a hospital-based cross-sectional investigation that was carried out on infants who were admitted to the NICU. The NICU gathered feeding tubes throughout 4 months, beginning in August 2022 and continuing through December 2022. In addition, informed consent was collected from the participant's parents or legal guardians for the entire group of people who took part in the research. The fact that the patient participated in this study had no bearing on the level of care that they were given. The research team gave serious consideration to recruiting any of the newborns who were receiving medical attention in the NICU and who had a feeding tube inserted during the time that sample collection was taking place. The infants did not receive any probiotics as a form of treatment in any of the cases. Results: Infants with NG tubes had a significantly higher number of C-sections (P = 0.04), infants with NG tube were exclusively breastfed (P = 0.02), and one or more dose of antenatal steroids was administered more in infants with OG tube (P = 0.04). The most common types of bacteria found in NG and OG tubes were Proteobacteria (with a mean relative abundance of 50% and 60%, respectively), Firmicutes (with a mean relative abundance of 33% and 23%, respectively), and Actinobacteria (9% and 7%, respectively). Conclusion: Oral versus nasal feeding tube insertion was found to have a greater influence on bacterial colonization than any of the other clinical factors that were evaluated. [ABSTRACT FROM AUTHOR]

Published

2024

326. Influence of carbonyl cyanide m-chlorophenyl hydrazone on biofilm dynamics, protease, and siderophore production by Burkholderia pseudomallei.

Author

Guedes, Glaucia Morgana de Melo, Ocadaque, Crister José, Amando, Bruno Rocha, Freitas, Alyne Soares, Pereira, Vinicius Carvalho, Cordeiro, Rossana de Aguiar, Bandeira, Silviane Praciano, Souza, Pedro Filho Noronha, Rocha, Marcos Fábio Gadelha, Sidrim, José Júlio Costa, and Souza Collares Maia Castelo-Branco, Débora de

Subjects

BURKHOLDERIA pseudomallei, DRUG interactions, BIOFILMS, FACTORS of production, DRUG resistance in microorganisms

Abstract

Efflux pump inhibitors are a potential therapeutic strategy for managing antimicrobial resistance and biofilm formation. This article evaluated the effect of carbonyl cyanide m-chlorophenyl hydrazone (CCCP) on the biofilm growth dynamics and the production of virulence factors by Burkholderia pseudomallei. The effects of CCCP on planktonic, growing, and mature biofilm, interaction with antibacterial drugs, and protease and siderophore production were assessed. CCCP MICs ranged between 128 and 256 µM. The CCCP (128 µM) had a synergic effect with all the antibiotics tested against biofilms. Additionally, CCCP reduced (p <.05) the biomass of biofilm growth and mature biofilms at 128 and 512 µM, respectively. CCCP also decreased (p <.05) protease production by growing (128 µM) and induced (p <.05) siderophore release by planktonic cells (128 µM) growing biofilms (12.8 and 128 µM) and mature biofilms (512 µM). CCCP demonstrates potential as a therapeutic adjuvant for disassembling B. pseudomallei biofilms and enhancing drug penetration. [ABSTRACT FROM AUTHOR]

Published

2024

327. Effects of antimicrobials over sessile and planktonic microbiota associated with an industrial cooling water system.

Author

Alves Ruislan, Andréa Lima, França Dias, Marcela, Daniela Lopes Júlio, Aline, Mourão Silva, Ubiana de Cássia, Pagnin, Sergio, Veiga, Andrea Azevedo, Godinho Zanetti, Débora, and Santos, Vera Lúcia dos

Subjects

NUCLEOTIDE sequencing, BACTERIAL communities, COOLING systems, DRUG resistance in bacteria, BIOFILMS, BIOCIDES

Abstract

The bacterial community from a cooling water system was investigated through culture-dependent and independent strategies, and the responses of planktonic and sessile bacteria (grown in glass slides and stainless-steel coupons) to antimicrobials of industrial and clinical use were assessed. The morphotypes with higher biofilm-forming potential were Pseudoxanthomonas sp., Rheinheimera sp., Aeromonas sp. and Staphylococcus sp., and the first also exhibited lower susceptibility to all antibiotics and biocides tested. 16S rRNA high throughput sequencing indicated that Pseudomonadota (77.1% on average, sd 11.1%), Bacteroidota (8.4, sd 5.7%), and Planctomycetota (3.0, sd 1.3%) were the most abundant phyla. KEGG orthologs associated with antibiotics and biocide resistance were abundant in all samples. Although the minimum inhibitory and bactericidal concentrations were generally higher for biofilms, morphotypes in planktonic form also showed high levels of resistance, which could be associated with biofilm cells passing into the planktonic phase. Overall, monochloramine was the most effective biocide. [ABSTRACT FROM AUTHOR]

Published

2024

328. Influence of slope, material, and temperature on Listeria monocytogenes and Pseudomonas aeruginosa mono- and dual-species biofilms.

Author

Tuytschaever, Tessa, Faille, Christine, Raes, Katleen, and Sampers, Imca

Subjects

GEOMETRIC surfaces, SURFACE geometry, PSEUDOMONAS aeruginosa, BIOFILMS, FLUORESCENCE microscopy

Abstract

Understanding factors influencing Listeria monocytogenes biofilms aid in developing more effective elimination/prevention strategies. This study examined the effect of temperature (4 °C, 21 °C, 30 °C), materials (stainless steel 316 L with 2B and 2 R finishes, glass, and polypropylene), and slope (0°/horizontal or 90°/vertical) on mono- and dual-species biofilms using two L. monocytogenes strains and one Pseudomonas aeruginosa strain. All biofilms were grown in 10% TSB for 24 h and analyzed using culture-based methods. Additionally, the architecture of monospecies biofilms was studied using fluorescence microscopy. Overall, P. aeruginosa showed higher biofilm formation potential (6.2 log CFU/cm2) than L. monocytogenes (4.0 log CFU/cm2). Temperature greatly influenced P. aeruginosa and varied for L. monocytogenes. The slope predominantly influenced L. monocytogenes monospecies biofilms, with cell counts increasing by up to 2 log CFU/cm2. Surface material had little impact on biofilm formation. The study highlights the varying effects of different parameters on multispecies biofilms and the importance of surface geometry. HIGHLIGHTS: Surface material does not affect L. monocytogenes or P. aeruginosa biofilms L. monocytogenes produces more biofilm on horizontal surfaces than on vertical surfaces In dual-species biofilm, L. monocytogenes shows enhanced biofilm production Increased temperature often results in enhanced biofilm formation [ABSTRACT FROM AUTHOR]

Published

2024

329. Propolis Nanoemulsion Enhance the Antimicrobial Effect on Multidrug-Resistant Strains of Pseudomonas aeruginosa in Combination with Ciprofloxacin.

Author

Kazemi, Sohrab, Shahandeh, Zahra, Alizadeh, Mohamad Javad, Nikoueian Shirvan, Behdad, Eslamdoust, Zohreh, Moulana, Zahra, and Asgharpour, Fariba

Subjects

NANOPARTICLE size, TREATMENT effectiveness, PROPOLIS, SCANNING electron microscopy, LIGHT scattering, ZETA potential, SURFACE charges

Abstract

Background: Antimicrobial alternatives, including nanoparticles, are needed to combat bacteria as antibiotic resistance threatens global health. The aim of this research was to determine the antibacterial efficacy of a synthesized propolis nanoamulsion (PN) as a natural reducing agent and its synergistic effect in combination with ciprofloxacin (CP) against multidrug-resistant (MDR) P. aeruginosa biofilm. Methods: Scanning electron microscopy (SEM), dynamic light scattering (DLS) and zeta potential (ZP) were used to measure the mean particle size and nanoparticle size distribution. Iranian propolis (IP) was analyzed using gas chromatography-mass spectrometry (GC-MS). Antibacterial activity against MDR strains of P. aerugino sa was also evaluated. Furthermore, the synergistic in vitro effect of IP and PN combined with CP and the antiadhesion activity were evaluated using the checkerboard method and biofilm metabolic activity, respectively. Results: SEM, DLS and ZP revealed a size of 161.4 nm and a negative surface charge value of −37.4 mV. GC-MS analysis revealed the existence of four flavonoid compounds. This study showed that PN was more effective against MDR P. aeruginosa than IP with a minimum inhibitory concentration (MIC) value of 3.2-15 mg/mL. The combination of PN and CP had a synergistic effect, reducing the dosage of each compound and the time required to destroy the bacteria compared to using them separately. Furthermore, IP and PN suppressed the adhesion of MDR P. aeruginosa biofilm. Conclusions: According to the results, propolis nanoamulsion could enhance the antimicrobial effect, reduce the viability of bacteria and affect the biofilm formation of MDR P. aeruginosa. In combination with CP, it led to a stronger effect of the drug on the organism. [ABSTRACT FROM AUTHOR]

Published

2024

330. Antimicrobial and antibiofilm studies on three endemic species of Verbascum L. (Scrophulariaceae) in Türkiye.

Author

Soyer, Pervin, Küçük, Sevim, and Tunalı, Yağmur

Subjects

ANTI-infective agents, BIOFILMS, ENDEMIC species, MULLEINS, SCROPHULARIACEAE

Abstract

The consumption of traditional medicinal herbs has gained popularity as a viable alternative approach for addressing microbial infections or infectious structures. In this study, Verbascum detersile, Verbascum eskisehirensis, and Verbascum gypsicola endemic species belonging to the Scrophulariaceae family, spreading in Eskişehir and its surroundings, were collected from natural habitats and evaluated in terms of antimicrobial and antibiofilm activities. In biological activity studies, different concentrations of three plant extracts showed various antimicrobial and antibiofilm activities on selected standard microorganism cultures (Staphylococcus aureus ATCC 29213, Staphylococcus epidermidis ATCC 14990, Pseudomonas aeruginosa ATCC 27853, Candida albicans ATCC 90028, and Candida krusei ATCC 6258). It was observed that the selected three endemic Verbascum extracts had a minimum inhibitory and minimum biofilm eradication concentration value of 1250 µg/mL. [ABSTRACT FROM AUTHOR]

Published

2024

331. L-Rhamnose Globally Changes the Transcriptome of Planktonic and Biofilm Escherichia coli Cells and Modulates Biofilm Growth.

Author

Hantus, Charlotte E., Moppel, Isabella J., Frizzell, Jenna K., Francis, Anna E., Nagashima, Kyogo, and Ryno, Lisa M.

Subjects

ESCHERICHIA coli, BACTERIAL adaptation, CARBOHYDRATE metabolism, GENE expression, BIOFILMS

Abstract

L-rhamnose, a naturally abundant sugar, plays diverse biological roles in bacteria, influencing biofilm formation and pathogenesis. This study investigates the global impact of L-rhamnose on the transcriptome and biofilm formation of PHL628 E. coli under various experimental conditions. We compared growth in planktonic and biofilm states in rich (LB) and minimal (M9) media at 28 °C and 37 °C, with varying concentrations of L-rhamnose or D-glucose as a control. Our results reveal that L-rhamnose significantly affects growth kinetics and biofilm formation, particularly reducing biofilm growth in rich media at 37 °C. Transcriptomic analysis through RNA-seq showed that L-rhamnose modulates gene expression differently depending on the temperature and media conditions, promoting a planktonic state by upregulating genes involved in rhamnose transport and metabolism and downregulating genes related to adhesion and biofilm formation. These findings highlight the nuanced role of L-rhamnose in bacterial adaptation and survival, providing insight into potential applications in controlling biofilm-associated infections and industrial biofilm management. [ABSTRACT FROM AUTHOR]

Published

2024

332. Diagnostic Benefit of Molecular Imaging in Patients Undergoing Heart Valve Surgery for Infective Endocarditis.

Author

Greve, Dustin, Sartori, Emma, Rodriguez Cetina Biefer, Hector, Sima, Stefania-Teodora, Von Schöning, Dinah, Pfäfflin, Frieder, Stegemann, Miriam Songa, Falk, Volkmar, Moter, Annette, Kikhney, Judith, and Grubitzsch, Herko

Subjects

FLUORESCENCE in situ hybridization, INFECTIVE endocarditis, CARDIAC surgery, TREATMENT effectiveness, DIAGNOSTIC imaging

Abstract

(1) Background: The successful treatment of infective endocarditis (IE) relies on detecting causative pathogens to administer targeted antibiotic therapy. In addition to standard microbiological cultivation of pathogens from tissue obtained during heart valve surgery, the potential of molecular biological methods was evaluated. (2) Methods: A retrospective study was performed on heart valve tissue from 207 patients who underwent heart valve surgery for IE. FISHseq (fluorescence in situ hybridization combined with 16S rRNA gene PCR and sequencing) was performed in addition to conventional culture-based microbiological diagnostics. The diagnostic performance of FISHseq was compared with the conventional methods and evaluated in the clinical context. (3) Results: Overall, FISHseq provided a significantly higher rate of specific pathogen detection than conventional valve culture (68.1% vs. 33.3%, p < 0.001). By complementing the findings from blood culture and valve culture, FISHseq was able to provide a new microbiological diagnosis in 10% of cases, confirm the cultural findings in 24.2% of cases and provide greater diagnostic accuracy in 27.5% of cases. FISHseq could identify a pathogen in blood-culture-negative IE in 46.2% of cases, while valve culture provided only 13.5% positive results (p < 0.001). (4) Conclusions: This study demonstrates that using FISHseq as an additional molecular biological technique for diagnostics in IE adds substantial diagnostic value, with potential implications for the treatment of IE. It provides pathogen detection, especially in cases where conventional microbiological cultivation is negative or inconclusive. [ABSTRACT FROM AUTHOR]

Published

2024

333. Characterization of Escherichia coli Persisters from Biofilm Culture: Multiple Dormancy Levels and Multigenerational Memory in Formation.

Author

Ikeda, Hirona and Maeda, Sumio

Subjects

ESCHERICHIA coli, CELL division, BIOFILMS, EPIGENETICS, ANTIBIOTICS

Abstract

Persister cells (PCs), a subpopulation occurring within normal cells, exhibit a transient tolerance to antibiotics because of their dormant state. PCs are categorized into two types: type I PCs, which emerge during the stationary phase, and type II PCs, which emerge during the logarithmic phase. Using the conventional colony-forming method, we previously demonstrated that type I PCs of Escherichia coli form more frequently in air–solid biofilm culture than in liquid culture. In the current study, we modified a cell filamentation method as a more efficient and rapid alternative for quantifying PCs. This modified method yielded results consistent with those of the conventional method with 103–104 times higher sensitivity and less detection time, within several hours, and further revealed the existence of multiple levels of type I PCs, including a substantial number of deeply dormant cells. This study also discovered a potential epigenetic memory mechanism, spanning several generations (four or six cell divisions), which influences type II PC formation based on prior biofilm experience in E. coli. [ABSTRACT FROM AUTHOR]

Published

2024

334. Diversification of Pseudomonas aeruginosa Biofilm Populations under Repeated Phage Exposures Decreases the Efficacy of the Treatment.

Author

Martinet, Mark Grevsen, Lohde, Mara, Higazy, Doaa, Brandt, Christian, Pletz, Mathias W., Middelboe, Mathias, Makarewicz, Oliwia, and Ciofu, Oana

Subjects

WHOLE genome sequencing, GENTIAN violet, BACTERIAL population, PSEUDOMONAS aeruginosa, CYSTIC fibrosis

Abstract

Phage therapy has been proposed as a therapeutic alternative to antibiotics for the treatment of chronic, biofilm-related P. aeruginosa infections. To gain a deeper insight into the complex biofilm–phage interactions, we investigated in the present study the effect of three successive exposures to lytic phages of biofilms formed by the reference strains PAO1 and PA14 as well as of two sequential clinical P. aeruginosa isolates from the sputum of a patient with cystic fibrosis (CF). The Calgary device was employed as a biofilm model and the efficacy of phage treatment was evaluated by measurements of the biomass stained with crystal violet (CV) and of the cell density of the biofilm bacterial population (CFU/mL) after each of the three phage exposures. The genetic alterations of P. aeruginosa isolates from biofilms exposed to phages were investigated by whole-genome sequencing. We show here that the anti-biofilm efficacy of the phage treatment decreased rapidly with repeated applications of lytic phages on P. aeruginosa strains with different genetic backgrounds. Although we observed the maintenance of a small subpopulation of sensitive cells after repeated phage treatments, a fast recruitment of mechanisms involved in the persistence of biofilms to the phage attack occurred, mainly by mutations causing alterations of the phage receptors. However, mutations causing phage-tolerant phenotypes such as alginate-hyperproducing mutants were also observed. In conclusion, a decreased anti-biofilm effect occurred after repeated exposure to lytic phages of P. aeruginosa biofilms due to the recruitment of different resistance and tolerance mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

335. Calcium Rescues Streptococcus pneumoniae D39 Δ mntE Manganese-Sensitive Growth Phenotype.

Author

Opoku, Reuben, Carrasco, Edgar, De Lay, Nicholas R., and Martin, Julia E.

Subjects

CELL morphology, CELL division, CELL analysis, BIOFILMS, STREPTOCOCCUS, BACTERIAL adhesion

Abstract

Calcium (Ca2+) functions as a universal signal messenger in eukaryotes but in bacteria, the physiological roles for Ca2+ are limited. Here, we examine the role of Ca2+ in Streptococcus pneumoniae during manganese (Mn2+) intoxication. S. pneumoniae mntE mutants, lacking the Mn2+ efflux transporter, exhibit impaired growth due to accumulation of Mn2+ when exposed to elevated exogenous Mn2+. This Mn2+-sensitive growth defect is restored to wild-type growth level by exogenous Ca2+, in a Ca2+-dependent manner. Despite growth restoration of the mntE mutant to wild-type levels, cellular Mn2+ remains elevated in this strain. Bacterial capsule production is also increased for the mntE mutant, resulting in reduced adherence capacity to surfaces and poor biofilm formation, which is consistent with it experiencing Mn2+ intoxication. Ca2+ presence did not significantly impact bacterial capsule production or biofilm formation. Further analysis of the cell morphology demonstrates that Ca2+ contributes to cell division and reduces cell chain lengths. Together, these data describe the first role of Ca in S. pneumoniae that has potential implications in bacterial virulence since Ca affects cell division and likely Mn2+-associated cellular processes. [ABSTRACT FROM AUTHOR]

Published

2024

336. Clinical Evaluation of Microbial Communities and Associated Biofilms with Breast Augmentation Failure.

Author

Whitfield, Robert, Tipton, Craig D., Diaz, Niccole, Ancira, Jacob, and Landry, Kyle S.

Subjects

BREAST implants, CUTIBACTERIUM acnes, MICROBIAL communities, STAPHYLOCOCCUS epidermidis, NUCLEOTIDE sequencing, BIOFILMS

Abstract

The incidence of breast implant illness (BII) and BII-related explant procedures has not decreased with current surgical and treatment techniques. It is speculated the main underlying cause of BII complications is the result of chronic, sub-clinical infections residing on and around the implant. The infection, and subsequent biofilm, produce antagonistic compounds that drive chronic inflammation and immune responses. In this study, the microbial communities in over 600 consecutive samples of infected explant capsules and tissues were identified via next-generation sequencing to identify any commonality between samples. The majority of the bacteria identified were Gram-positive, with Cutibacterium acnes and Staphylococcus epidermidis being the dominant organisms. No correlation between sample richness and implant filling was found. However, there was a significant correlation between sample richness and patient age. Due to the complex nature, breast augmentation failures may be better addressed from a holistic approach than one of limited scope. [ABSTRACT FROM AUTHOR]

Published

2024

337. Multiple biological characteristics and functions of intestinal biofilm extracellular polymers: friend or foe?

Author

Fengrong Gong, Shuzi Xin, Xiaohui Liu, Chengwei He, Xinyi Yu, Luming Pan, Sitian Zhang, Han Gao, and Jingdong Xu

Subjects

INTESTINAL diseases, GUT microbiome, SYSTEM identification, DRUG resistance in microorganisms, BIOFILMS

Abstract

The gut microbiota is vital to human health, and their biofilms significantly impact intestinal immunity and the maintenance of microbial balance. Certain pathogens, however, can employ biofilms to elude identification by the immune system and medical therapy, resulting in intestinal diseases. The biofilm is formed by extracellular polymorphic substances (EPS), which shield microbial pathogens from the host immune system and enhance its antimicrobial resistance. Therefore, investigating the impact of extracellular polysaccharides released by pathogens that form biofilms on virulence and defence mechanisms is crucial. In this review, we provide a comprehensive overview of current pathogenic biofilm research, deal with the role of extracellular polymers in the formation and maintenance of pathogenic biofilm, and elaborate different prevention and treatment strategies to provide an innovative approach to the treatment of intestinal pathogen-based diseases. [ABSTRACT FROM AUTHOR]

Published

2024

338. Investigating genomic diversity of Staphylococcus aureus associated with pediatric atopic dermatitis in South Africa.

Author

Ndhlovu, Gillian O. N., Javkar, Kiran G., Matuvhunye, Takudzwa, Ngondoh, Froodia, Jamrozy, Dorota, Bentley, Stephen, Shittu, Adebayo O., and Dube, Felix S.

Subjects

MOBILE genetic elements, WHOLE genome sequencing, BACTERIAL colonies, MICROBIAL sensitivity tests, CHILD patients, BIOFILMS

Abstract

Importance: Staphylococcus aureus frequently colonizes the skin and nose of patients with atopic dermatitis (AD), a disease associated with skin barrier dysfunction and chronic cutaneous inflammation. Published genomic studies on AD-associated S. aureus in pediatric populations in sub-Saharan Africa are limited. Objectives: To investigate the phenotypic and genomic diversity of S. aureus in children with and without AD during early childhood. Data, setting and participants: A cross-sectional study of 220 children (aged 9-38 months) with AD (cases) and without AD (controls) from Cape Town and Umtata, South Africa. Main outcomes and measures: S. aureus phenotypic and genomic diversity were investigated using whole-genome sequencing, antibiotic susceptibility testing and biofilm microtiter assay. Results: Of the 124 S. aureus isolates recovered from 220 children, 96 isolates (79 cases and 17 controls) with high-quality sequences were analyzed. Isolates from cases showed greater phenotypic resistance to gentamicin (10%), rifampicin (4%), chloramphenicol (4%), and exhibited multidrug resistance (9%) than in controls. Furthermore, the isolates from cases formed stronger biofilms than those from controls (76% vs. 35%, p = 0.001), but showed no dominance of any virulence factor gene or mobile genetic elements. There was no significant difference in the distribution of immune evasion cluster types between cases and controls. However, IEC type G was identified only among cases. Conclusion and relevance: AD-associated S. aureus has phenotypic and genetic features that are important for successful pathogenic colonization and survival. Further studies are needed to assess the pathological implications of colonization of various S. aureus lineages in vivo to elucidate their pathological contribution to AD pathogenesis and pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2024

339. Behavioral Responses to Hydrocarbon Stress in Marine Bacteria Isolated from Arzew Harbor in Northwestern Algeria.

Author

Aliane, Samia, Meliani, Amina, Berkat, Samir, Mazari, Hibat Errahmen, Bouhadda, Youcef, and Mohammed, Abdesselem Si

Subjects

HYDROCARBONS, MARINE bacteria, POLLUTION, BIOFILMS, CHEMOTAXIS

Abstract

Marine hydrocarbon pollution has emerged as a pressing concern, imperiling the ocean's abundant resources and disrupting the crucial services rendered by marine ecosystems. The presence of hydrocarbons in seawater poses a significant challenge to microorganisms, prompting adaptive modifications in bacterial behavior to thrive in these adverse conditions. A comprehensive investigation into marine bacteria's potential to utilize and break down hydrocarbons was conducted, focusing on strains isolated from Arzew harbor. These strains underwent rigorous phenotypic and biochemical characterization. Their ability to form biofilms in the presence of varying concentrations of sodium chloride, crude oil, and kerosene was meticulously assessed. Hydrophobicity and chemotactic responses of these strains were studied in media supplemented with crude oil and kerosene. Notably, the results unveiled that eight of these strains exhibited a profile akin to Pseudomonas sp. While one strain resembled Aeromonas sp., all strains exhibited varying degrees of biofilm-forming capacity, ranging from low to high. A predominantly hydrophobic phenotype was observed among these strains. The majority of the bacteria displayed a noteworthy chemotactic attraction to crude oil. Strain S7 emerged as the most promising, displaying remarkable proficiency in handling the studied hydrocarbons, closely followed by strain S16. It's worth emphasizing that robust outcomes were associated with emulsification potential and chemotaxis towards both hydrocarbons, coupled with bacterial cell surface hydrophobicity. These findings illuminate the potential of these strains for enhancing water quality in hydrocarbon-contaminated environments. [ABSTRACT FROM AUTHOR]

Published

2024

340. Commercial Silver-Based Dressings: In Vitro and Clinical Studies in Treatment of Chronic and Burn Wounds.

Author

Shrestha, Sweta, Wang, Bo, and Dutta, Prabir K.

Subjects

SILVER sulfadiazine, INFECTION prevention, WOUND healing, LITERARY form, RESEARCH protocols, WOUND infections, CHRONIC wounds & injuries

Abstract

Chronic wounds are a major health problem because of delayed healing, causing hardships for the patient. The infection present in these wounds plays a role in delayed wound healing. Silver wound dressings have been used for decades, beginning in the 1960s with silver sulfadiazine for infection prevention for burn wounds. Since that time, there has been a large number of commercial silver dressings that have obtained FDA clearance. In this review, we examine the literature involving in vitro and in vivo (both animal and human clinical) studies with commercial silver dressings and attempt to glean the important characteristics of these dressings in treating infected wounds. The primary presentation of the literature is in the form of detailed tables. The narrative part of the review focuses on the different types of silver dressings, including the supporting matrix, the release characteristics of the silver into the surroundings, and their toxicity. Though there are many clinical studies of chronic and burn wounds using silver dressings that we discuss, it is difficult to compare the performances of the dressings directly because of the differences in the study protocols. We conclude that silver dressings can assist in wound healing, although it is difficult to provide general treatment guidelines. From a wound dressing point of view, future studies will need to focus on new delivery systems for silver, as well as the type of matrix in which the silver is deposited. Clearly, adding other actives to enhance the antimicrobial activity, including the disruption of mature biofilms is of interest. From a clinical point of view, the focus needs to be on the wound healing characteristics, and thus randomized control trials will provide more confidence in the results. The application of different wound dressings for specific wounds needs to be clarified, along with the application protocols. It is most likely that no single silver-based dressing can be used for all wounds. [ABSTRACT FROM AUTHOR]

Published

2024

341. Antibacterial and Antibiofilm Potential of Chlorophyllin Against Streptococcus mutans In Vitro and In Silico.

Author

Khan, Seemrose, Ul Haq, Ihtisham, Ali, Imran, Rehman, Abdul, Almehmadi, Mazen, Alsuwat, Meshari A., Zaman, Tariq, and Qasim, Muhammad

Subjects

FOURIER transform spectrometers, STREPTOCOCCUS mutans, SIGNAL recognition particle receptor, DENTAL caries, CHLOROPHYLLIN

Abstract

Background: Streptococcus mutans is a leading causative agent of dental caries and exerts pathogenicity by forming biofilms. Dental caries continues to be a significant public health issue worldwide, affecting an estimated 2.5 billion people, showing a 14.6% increase over the past decade. Herein, the antibacterial potential of Chlorophyllin extracted from Spinacia oleracea was evaluated against biofilm-forming S. mutans via in vitro and in silico studies. Methodology: The antimicrobial activity of chlorophyllin extract against S. mutans isolates was tested using the agar well diffusion method. Chlorophyllin extract was also tested against biofilm-forming isolates of S. mutans. Chlorophyllin was docked with the antigen I/II (AgI/II) protein of S. mutans to evaluate its antimicrobial mechanism. The chemical structure and canonical SMILES format of Chlorophyllin were obtained from PubChem. Additionally, adsorption, distribution, metabolism, excretion, and toxicity (ADMET) analyses of Chlorophyllin were performed using ADMETlab 2.0 to assess its pharmacokinetic properties. Results: An agar well diffusion assay revealed that all S. mutans isolates were susceptible to Chlorophyllin extract and showed a variety of inhibition zones ranging from 32 to 41 mm. Chlorophyllin reduces the biofilm strength of four isolates from strong to moderate and six from strong to weak. The antibiofilm potential of Chlorophyllin was measured by a reduction in the number of functional groups observed in the Fourier Transform Infrared Spectrometer (FTIR) spectra of the extracellular polymeric substance (EPS) samples. Chlorophyllin showed binding with AgI/II proteins of S. mutans, which are involved in adherence to the tooth surface and initiating biofilm formation. The ADMET analysis revealed that the safety of Chlorophyllin exhibited favorable pharmacokinetic properties. Conclusions: Chlorophyllin stands out as a promising antibacterial and antibiofilm agent against biofilm-forming S. mutans, and its safety profile highlights its potential suitability for further investigation as a therapeutic agent. [ABSTRACT FROM AUTHOR]

Published

2024

342. Exploring Biofilm-Related Traits and Bile Salt Efficacy as Anti-Biofilm Agents in MDR Acinetobacter baumannii.

Author

Aleksic Sabo, Verica, Škorić, Dušan, Jovanović-Šanta, Suzana, and Knezevic, Petar

Subjects

BILE salts, DRUG resistance in bacteria, BIOFILMS, GENOTYPES, ANTI-infective agents, ACINETOBACTER baumannii

Abstract

Acinetobacter baumannii has been designated as a critical priority pathogen by the World Health Organization for the development of novel antimicrobial agents. This study aimed to investigate both the phenotypic and genotypic traits of multidrug-resistant (MDR) A. baumannii strains, along with the effects of natural bile salts on biofilm formation. The research analyzed phenotypic traits, including autoaggregation, hydrophobicity, twitching motility, lectin production, and biofilm formation, as well as genotypic traits such as the presence of bap and blaPER-1 genes in twenty wound and eight environmental MDR A. baumannii isolates. While all strains were identified as good biofilm producers, no statistically significant correlation was detected between the examined traits and biofilm formation. However, differences in biofilm production were observed between environmental and wound isolates. The natural bile salts Na-cholate, Na-deoxycholate, and Na-chenodeoxycholate demonstrated effective anti-A. baumannii activity (MIC = 0.25–10 mg mL−1), with significant anti-biofilm effects. Na-deoxycholate and Na-chenodeoxycholate inhibited 94–100% of biofilm formation at super-MIC concentrations (8–32 mg mL−1). This study underscores the urgent need for innovative strategies to combat antibiotic resistance and biofilm formation in A. baumannii, highlighting the potential of natural bile salts as promising biofilm inhibitors and encouraging further research into their modification and combination with other antimicrobials. [ABSTRACT FROM AUTHOR]

Published

2024

343. Insights into the Virulence and Antimicrobial Resistance of Staphylococcus hyicus Isolates from Spanish Swine Farms.

Author

Mencía-Ares, Oscar, Ramos-Calvo, Eva, González-Fernández, Alba, Aguarón-Turrientes, Álvaro, Pastor-Calonge, Ana Isabel, Miguélez-Pérez, Rubén, Gutiérrez-Martín, César B., and Martínez-Martínez, Sonia

Subjects

SWINE farms, DRUG resistance in microorganisms, BIOFILMS, SYMPTOMS, MACROLIDE antibiotics

Abstract

Staphylococcus hyicus is a significant pathogen in swine, primarily causing exudative epidermitis. Addressing S. hyicus infections requires both the characterization of virulence and antimicrobial resistance (AMR) in farm-recovered isolates. This study aimed to characterize the virulence, AMR, and biofilm formation of S. hyicus isolates from Spanish swine farms. A total of 49 isolates were analyzed, originating from animals with cutaneous, reproductive, and systemic clinical signs. Half of the isolates (49.0%) were positive for at least one virulence factor (VF) gene, with SHETA being the most frequent (28.6%). A high frequency of multidrug resistant (MDR) isolates was observed (83.7%), with significant resistance to commonly used antimicrobials, including lincosamides (83.7%), pleuromutilins (81.6%), penicillins (75.5%), and tetracyclines (73.5%). All isolates exhibited robust in vitro biofilm formation capacity (DC = 15.6 ± 7.0). Significant associations were found between VFs, biofilm formation, and AMR patterns, highlighting the link between the resistance to lincosamides and pleuromutilins (p < 0.001; Φ = 0.57) and macrolides (p < 0.001; Φ = 0.48), and the association of AMR with the ExhC and ExhD VF genes. These findings underscore the need for targeted diagnostics to improve management and therapeutic strategies to mitigate the impact of S. hyicus on swine production. [ABSTRACT FROM AUTHOR]

Published

2024

344. Use of Silver Diamine Fluoride: Past to Present.

Author

Sahin, Meryem

Subjects

CAVITY prevention, DENTAL discoloration, MEDICAL protocols, COMBINATION drug therapy, CONSERVATIVE treatment, TOOTH sensitivity, BIOFILMS, FLUORIDE varnishes, CARIOSTATIC agents, DENTAL fluoride treatment, POTASSIUM iodide, PREVENTIVE dentistry, SILVER compounds, PEDIATRIC dentistry, ANTI-infective agents, REMINERALIZATION (Teeth), ADOLESCENCE, CHILDREN

Abstract

Bacteria in the oral cavity have a great impact on caries formation by demineralizing tooth enamel. Bacterial infection should be prevented before restorative treatments. Rather than invasive treatment of existing caries, arresting bacterial activity in carious lesion and remineralizing dental tissue have become the goal of contemporary caries management philosophy. Silver compounds with antimicrobial effects have been developed over time and have taken their place in dentistry. 'Silver Diamine Fluoride' was created by combining the remineralizing effect of fluoride with the cariostatic effect of silver. Its popularity has increased because it appeals to the general population. It's application is painless, simple, and affordable. Our aim in this review is to provide a general perspective on the usage areas of Silver Diamine Fluoride from past to present and to create a guide for its use in pediatric patients. [ABSTRACT FROM AUTHOR]

Published

2024

345. The Cancer Mycobiome: A Highlight to Lung Cancer.

Author

Yuwono, Edho, Zaini, Jamal, and Rozaliyani, Anna

Subjects

FUNGI physiology, BIOFILMS, HOMEOSTASIS, HUMAN microbiota, FUNGI, CAUSES of death, IMMUNE system, METABOLITES, LUNG tumors, INFLAMMATION, TUMORS, GENOMES, SEQUENCE analysis, CELL receptors, DISEASE risk factors

Published

2024

346. بررسی آزمایشگاهی ترکیب غلظتهای مختلف عصاره اتانولی گیاهان دارویی پونه و شیرین بیان روی پاتوژنهای دهانی.

Author

مصطفی رعنایی, فرزانه شاکری, محمدرضا پورعباس, مینا باقری, and پرستو ضرغامی مقد

Subjects

ORAL microbiology, IN vitro studies, CHLORHEXIDINE, ANTIFUNGAL agents, MINTS (Plants), BIOFILMS, MICROBIAL sensitivity tests, STREPTOCOCCUS mutans, KRUSKAL-Wallis Test, DESCRIPTIVE statistics, PLANT extracts, CANDIDA albicans, ANTI-infective agents, GLYCYRRHIZA, DATA analysis software, MOUTHWASHES, PHARMACODYNAMICS

Abstract

Introduction: The present study aimed to investigate the antimicrobial effect of the ethanolic extracts of mint and licorice on Candida albicans and Streptococcus mutans. If the antibacterial and antifungal effects of these plants are observed, they can be introduced as effective plants against oral biofilm microorganisms to replace commercial drugs. They can also be considered cost-effective and innovative solutions to deal with caries. Materials & Methods: Two medicinal plants, mint and licorice, were extracted using ethanol as a solvent following their collection and drying. The antibacterial and antifungal properties of these extracts were evaluated using disc diffusion, well diffusion, and biofilm formation measurement methods on a total of 162 samples. In addition, the Kruskal-Wallis test was employed for statistical analysis, with data processed using SPSS (version 22). A significance level of 5% was maintained across all tests. Results: The analysis of the results in the disc and well diffusion indicated that the concentration of 100 mg/ml of licorice showed the strongest antibacterial effect among different concentrations, and Streptococcus mutans was more susceptible than Candida albicans. Moreover, the results of measuring the amount of biofilm formation demonstrated that the concentration of 100 mg/ml of licorice had the most substantial effect in inhibiting the biofilm of Streptococcus mutans and Candida albicans. Conclusion: Among the examined samples, a concentration of 100 mg/ml of licorice exhibited an antibacterial effect comparable to that of commercial chlorhexidine mouthwash. This finding suggests the potential for further research into the development of an herbal mouthwash based on this extract. [ABSTRACT FROM AUTHOR]

Published

2024

347. Carbon Steel Corrosion Induced by Sulfate-Reducing Bacteria: A Review of Electrochemical Mechanisms and Pathways in Biofilms.

Author

Liu, Na, Qiu, Lina, and Qiu, Lijuan

Subjects

CARBON steel corrosion, CHARGE exchange, ELECTRON donors, MICROBIOLOGICALLY influenced corrosion, CORROSION prevention, MICROBIAL fuel cells

Abstract

Microbial metal corrosion has become an important topic in metal research, which is one of the main causes of equipment damage, energy loss, and economic loss. At present, the research on microbial metal corrosion focuses on the characteristics of corrosion products, the environmental conditions affecting corrosion, and the measures and means of corrosion prevention, etc. In contrast, the main microbial taxa involved in metal corrosion, their specific role in the corrosion process, and the electron transfer pathway research are relatively small. This paper summarizes the mechanism of microbial carbon steel corrosion caused by SRB, including the cathodic depolarization theory, acid metabolite corrosion theory, and the biocatalytic cathodic sulfate reduction mechanism. Based on the reversible nature of electron transfer in biofilms and the fact that electrons must pass through the extracellular polymers layer between the solid electrode and the cell, this paper focuses on three types of electrochemical mechanisms and electron transfer modes of extracellular electron transfer occurring in microbial fuel cells, including direct-contact electron transfer, electron transfer by conductive bacterial hair proteins or nanowires, and electron shuttling mediated by the use of soluble electron mediators. Finally, a more complete pathway of electron transfer in microbial carbon steel corrosion due to SRB is presented: an electron goes from the metal anode, through the extracellular polymer layer, the extracellular membrane, the periplasm, and the intracellular membrane, to reach the cytoplasm for sulfate allosteric reduction. This article also focuses on a variety of complex components in the extracellular polymer layer, such as extracellular DNA, quinoline humic acid, iron sulfide (FeSX), Fe3+, etc., which may act as an extracellular electron donor to provide electrons for the SRB intracellular electron transfer chain; the bioinduced mineralization that occurs in the SRB biofilm can inhibit metal corrosion, and it can be used for the development of green corrosion inhibitors. This provides theoretical guidance for the diagnosis, prediction, and prevention of microbial metal corrosion. [ABSTRACT FROM AUTHOR]

Published

2024

348. Advanced Imaging Methodology in Bacterial Biofilms with a Fluorescent Enzymatic Sensor for pepN Activity.

Author

Valverde-Pozo, Javier, Paredes, Jose M., García-Rubiño, María Eugenia, Girón, María Dolores, Salto, Rafael, Alvarez-Pez, Jose M., and Talavera, Eva M.

Subjects

ESCHERICHIA coli, FLUORESCENCE microscopy, BIOFILMS, GENETIC overexpression, DETECTORS

Abstract

This research explores the use of the pepN activity fluorescent sensor DCM-Ala in bacterial biofilms, emphasizing its significance due to the critical role of biofilms in various biological processes. Advanced imaging techniques were employed to visualize pepN activity, introducing a novel approach to examining biofilm maturity. We found that the overexpression of pepN increases the ability of E. coli to form biofilm. The findings demonstrate varying levels of pepN activity throughout biofilm development, suggesting potential applications in biofilm research and management. The results indicate that the fluorescent emission from this sensor could serve as a reliable indicator of biofilm maturity, and the imaging techniques developed could enhance our understanding and control of biofilm-related processes. This work highlights the importance of innovative methods in biofilm study and opens new avenues for utilizing chemical emissions in biofilm management. [ABSTRACT FROM AUTHOR]

Published

2024

349. Antimicrobial stewardship: 26 case reviews using calcium sulphate as a carrier to deliver antibiotics locally in diabetic foot infections.

Author

Arissol, Martin and Newsholme, William

Subjects

ANTIBIOTICS, DIABETES complications, NATIONAL health services, WOUND healing, DRUG allergy, PATIENT compliance, PATIENTS, BIOFILMS, ANTIMICROBIAL stewardship, HOSPITAL admission & discharge, BANDAGES & bandaging, EMERGENCY medical services, ORAL drug administration, TREATMENT effectiveness, CALCIUM compounds, ANTI-infective agents, NEGATIVE-pressure wound therapy, INTRAVENOUS therapy, VANCOMYCIN, DIABETIC foot, GENTAMICIN, PERIPHERALLY inserted central catheters, WOUND care, DRUGS, SURGICAL dressings, DEBRIDEMENT, HEALTH care teams

Abstract

The routine use of antimicrobial therapy to treat diabetic foot infections has been widely published. However, effective treatments can be interrupted with complications such as antimicrobial resistance, systemic toxicity and allergic reactions. This paper looked at 26 individual cases using calcium sulfate (Stimulan®, Biocomposites Ltd) as a carrier for delivering antimicrobials, in the form of beads, at a local level and at the site of infection. In 69% of patients, oral and parenteral antimicrobials were ceased at the point of treatment. Patients were managed under local protocols by the podiatry team to the point of wound closure. Additionally, average healing rates were seen to be significantly reduced. [ABSTRACT FROM AUTHOR]

Published

2024

350. How well do antimicrobial mouth rinses prevent dysbiosis in an in vitro periodontitis biofilm model?

Author

Zayed, Naiera, Vertommen, Rik, Simoens, Kenneth, Bernaerts, Kristel, Boon, Nico, Srivastava, Mrinal Gaurav, Braem, Annabel, Van Holm, Wannes, Castro, Ana B., and Teughels, Wim

Subjects

MOUTHWASHES, MICROBIAL communities, POLYMERASE chain reaction, BIOFILMS, RANK correlation (Statistics)

Abstract

Background: Periodontal diseases are associated with dysbiosis in the oral microbial communities. Managing oral biofilms is therefore key for preventing these diseases. Management protocols often include over‐the‐counter antimicrobial mouth rinses, which lack data on their effects on the oral microbiome's ecology, bacterial composition, metabolic activity, and dysbiosis resilience. This study examined the efficacy of antimicrobial mouth rinses to halt dysbiosis in in vitro oral biofilms under periodontitis‐simulating conditions. Methods: Multispecies oral biofilms were grown on hydroxyapatite discs (HADs) and rinsed daily with one of six mouth rinses. Positive and negative controls were included. After three rinses, biofilms were analyzed with viability quantitative polymerase chain reaction and visualized using scanning electron microscopy. Supernatants of rinsed biofilms were used for metabolic activity analysis. In addition, human oral keratinocytes were exposed to rinsed biofilms to assess their inflammatory response. All outputs were analyzed for correlation using Spearman coefficient. Results: Product‐related changes were observed in the rinsed biofilms. Three of the six tested mouth rinses could significantly prevent dysbiosis with ≥30% reduction in pathobiont abundance relative to the control. These biofilms had lower metabolic activity, and the exposed human oral keratinocyte produced less interleukin‐8. Interleukin‐8 production correlated to both pathobiont quantity and the metabolic activity of the biofilms. Conclusion: Some mouth rinses could support biofilm resilience and stop dysbiosis evolution in the biofilm model, with a clear product‐related effect. Such mouth rinses can be considered for patients under maintenance/supportive periodontal therapy to prevent/delay disease recurrence. Others are more useful for different periodontal therapy stages. [ABSTRACT FROM AUTHOR]

Published

2024