Your search keyword '"Bacteriological Techniques instrumentation"' showing total 1,339 results

1. Performance Evaluation and Validation of Air Samplers To Detect Aerosolized Coxiella burnetii.

Author

Abeykoon AMH, Poon M, Firestone SM, Stevenson MA, Wiethoelter AK, and Vincent GA

Subjects

Coxiella burnetii isolation & purification, Air Microbiology, Bacteriological Techniques instrumentation

Abstract

Coxiella burnetii, the etiological agent of Q fever, is an intracellular zoonotic pathogen transmitted via the respiratory route. Once released from infected animals, C. burnetii can travel long distances through air before infecting another host. As such, the ability to detect the presence of C. burnetii in air is important. In this study, three air samplers, AirPort MD8, BioSampler, and the Coriolis Micro, were assessed against a set of predetermined criteria in the presence of three different aerosolized C. burnetii concentrations. Two liquid collection media, phosphate-buffered saline (PBS) and alkaline polyethylene glycol (Alk PEG), were tested with devices requiring a collection liquid. Samples were tested by quantitative polymerase chain reaction assay (qPCR) targeting the single-copy com1 gene or multicopy insertion element IS 1111 . All air samplers performed well at detecting airborne C. burnetii across the range of concentrations tested. At high nebulized concentrations, AirPort MD8 showed higher, but variable, recovery probabilities. While the BioSampler and Coriolis Micro recovered C. burnetii at lower concentrations, the replicates were far more repeatable. At low and intermediate nebulized concentrations, results were comparable in the trials between air samplers, although the AirPort MD8 had consistently higher recovery probabilities. In this first study validating air samplers for their ability to detect aerosolized C. burnetii, we found that while all samplers performed well, not all samplers were equal. It is important that these results are further validated under field conditions. These findings will further inform efforts to detect airborne C. burnetii around known point sources of infection. IMPORTANCE Coxiella burnetii causes Q fever in humans and coxiellosis in animals. It is important to know if C. burnetii is present in the air around putative sources as it is transmitted via inhalation. This study assessed air samplers (AirPort MD8, BioSampler, and Coriolis Micro) for their efficacy in detecting C. burnetii. Our results show that all three devices could detect aerosolized bacteria effectively; however, at high concentrations the AirPort performed better than the other two devices, showing higher percent recovery. At intermediate and low concentrations AirPort detected at a level higher than or similar to that of other samplers. Quantification of samples was hindered by the limit of quantitation of the qPCR assay. Compared with the other two devices, the AirPort was easier to handle and clean in the field. Testing air around likely sources (e.g., farms, abattoirs, and livestock saleyards) using validated sampling devices will help better estimate the risk of Q fever to nearby communities.

Published

2022

2. Combined Impact of Magnetic Force and Spaceflight Conditions on Escherichia coli Physiology.

Author

Domnin PA, Parfenov VA, Kononikhin AS, Petrov SV, Shevlyagina NV, Arkhipova AY, Koudan EV, Nezhurina EK, Brzhozovskiy AG, Bugrova AE, Moysenovich AM, Levin AA, Karalkin PA, Pereira FDAS, Zhukhovitsky VG, Lobakova ES, Mironov VA, Nikolaev EN, Khesuani YD, and Ermolaeva SA

Subjects

Bacteriological Techniques methods, Escherichia coli growth & development, Gene Expression Regulation, Bacterial, Glycolysis, Glyoxylates metabolism, Magnetic Phenomena, Oxygen metabolism, Pyruvaldehyde metabolism, Space Flight, Weightlessness, Bacterial Outer Membrane Proteins genetics, Bacteriological Techniques instrumentation, Escherichia coli physiology, Escherichia coli Proteins genetics, Membrane Transport Proteins genetics

Abstract

Changes in bacterial physiology caused by the combined action of the magnetic force and microgravity were studied in Escherichia coli grown using a specially developed device aboard the International Space Station. The morphology and metabolism of E. coli grown under spaceflight (SF) or combined spaceflight and magnetic force (SF + MF) conditions were compared with ground cultivated bacteria grown under standard (control) or magnetic force (MF) conditions. SF, SF + MF, and MF conditions provided the up-regulation of Ag43 auto-transporter and cell auto-aggregation. The magnetic force caused visible clustering of non-sedimenting bacteria that formed matrix-containing aggregates under SF + MF and MF conditions. Cell auto-aggregation was accompanied by up-regulation of glyoxylate shunt enzymes and Vitamin B12 transporter BtuB. Under SF and SF + MF but not MF conditions nutrition and oxygen limitations were manifested by the down-regulation of glycolysis and TCA enzymes and the up-regulation of methylglyoxal bypass. Bacteria grown under combined SF + MF conditions demonstrated superior up-regulation of enzymes of the methylglyoxal bypass and down-regulation of glycolysis and TCA enzymes compared to SF conditions, suggesting that the magnetic force strengthened the effects of microgravity on the bacterial metabolism. This strengthening appeared to be due to magnetic force-dependent bacterial clustering within a small volume that reinforced the effects of the microgravity-driven absence of convectional flows.

Published

2022

3. Viability assessment of Mycobacterium tuberculosis complex in OMNIgene • SPUTUM reagent using the BACTEC MGIT 960 System and Xpert MTB/RIF assay.

Author

Guirelli AO, Dos Santos Carmo AM, Eterovic A, Ferrazoli L, Dos Santos Menezes Gaiotto Daros V, and Cergole-Novella MC

Subjects

Humans, Indicators and Reagents, Sensitivity and Specificity, Bacteriological Techniques instrumentation, Bacteriological Techniques methods, Microbial Viability, Mycobacterium tuberculosis genetics, Sputum microbiology, Tuberculosis diagnosis, Tuberculosis microbiology

Abstract

The World Health Organization advocates that sputum specimens submitted to tuberculosis (TB) diagnostic should be processed within 48 h after collection and be stored under cooling. We aimed to assess the performance of OMNIgene • SPUTUM reagent in maintaining viable specimens of Mycobacterium tuberculosis complex (MTBC) during transportation of sputum samples without refrigeration, in comparison to the standard protocol of the National TB Control Program. Sputum samples obtained in southeastern Brazil (June 2017 to July 2018) from 100 sequential patients with positive acid-fast bacillus smear microscopy were divided into two portions. Portion 1 continued to be cooled (standard protocol, STA), but portion 2 was added to OMNIgene • SPUTUM reagent (alternative protocol, OMS) until concomitant further processing. Both portions of all samples were cultured using MGIT and tested by Xpert MTB/RIF assay. Growth of MTBC in the first 42 days was detected in 96% of the cultures under the STA and 88% under the OMS. Intervals between processing and detecting MTBC growth in the two portions significantly differed (p = 0.0001). Portions under the two protocols showed similar results in the MTBC detection by Xpert assay and culture contamination by non-MTBC. The OMNIgene reagent liquefies and decontaminates sputum leading to a decrease in processing time. Although there was a small delay in mycobacterial growth, the OMNIgene reagent can be useful in specimens transported from collection sites over a long distance to centralized testing centers, maintaining viable MTBC for at least 8 days at room temperature., (© 2021. Sociedade Brasileira de Microbiologia.)

Published

2021

4. Evaluation of CHROMagar™-Serratia agar, a new chromogenic medium for the detection and isolation of Serratia marcescens.

Author

Pérez-Viso B, Aracil-Gisbert S, Coque TM, Del Campo R, Ruiz-Garbajosa P, and Cantón R

Subjects

Agar chemistry, Agar metabolism, Bacteriological Techniques instrumentation, Chromogenic Compounds chemistry, Chromogenic Compounds metabolism, Culture Media metabolism, Humans, Serratia Infections diagnosis, Serratia marcescens metabolism, Bacteriological Techniques methods, Culture Media chemistry, Serratia Infections microbiology, Serratia marcescens growth & development, Serratia marcescens isolation & purification

Abstract

A comparative analysis of the performance of the new selective chromogenic CHROMagar™-Serratia culture medium for detection and isolation of Serratia marcescens was undertaken. A total of 134 clinical isolates (95 S. marcescens with and without carbapenemase production and 39 non-S. marcescens isolates) and 96 epidemiological samples (46 rectal swabs and 50 from environmental surfaces) were studied. Diagnostic values when compared with CHROMagar™-Orientation medium were 96.8% sensitivity, 100% specificity, 100% positive predictive value and 88.5% negative predictive value. In conclusion, CHROMagar™-Serratia shows an excellent ability for differentiation of S. marcescens among clinical isolates and in environmental samples., (© 2021. The Author(s).)

Published

2021

5. Comparison of swab types for collection and analysis of microorganisms.

Author

Wise NM, Wagner SJ, Worst TJ, Sprague JE, and Oechsle CM

Subjects

DNA, Bacterial isolation & purification, Humans, Proteus mirabilis genetics, Real-Time Polymerase Chain Reaction, Bacteriological Techniques instrumentation, DNA, Bacterial analysis, Microbiota, Proteus mirabilis isolation & purification, Specimen Handling instrumentation

Abstract

The human microbiome has begun to emerge as a potential forensic tool, with varied applications ranging from unique identification to investigative leads that link individuals and/or locations. The relative abundance of the combined DNA of the microbiome, compared to human nuclear DNA, may expand potential sources of biological evidence, especially in cases with transfer or low-copy number DNA samples. This work sought to determine the optimal swab type for the collection and analysis of microorganisms. A bacterium (Proteus mirabilis) was deposited by pipette onto four swab types (cotton, flocked, dental applicators, and dissolvable), and extraction and real-time PCR quantitation of the bacterial DNA were performed, which allowed for absolute microbial DNA recovery and comparison of yields across the four sampling substrates. Flocked swabs had the highest yield (~1240 ng) compared to the cotton swabs (~184 ng), dental applicators (~533 ng), and dissolvable swabs (~430 ng). The collection efficiency was further evaluated for cotton and flocked swabs using dried microbial samples spotted onto non-porous surfaces (treated wood, glass, plastic, and tile). Flocked swabs performed consistently better across wood, glass, and tile, but showed decreased recovery from plastic. The cotton swabs failed in the recovery of P. mirabilis DNA across all surfaces. Knowing the appropriate sampling substrate will be useful as others continue to investigate the use of the microbiome as a forensics tool., (© 2021 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.)

Published

2021

6. Edge current and pairing order transition in chiral bacterial vortices.

Author

Beppu K, Izri Z, Sato T, Yamanishi Y, Sumino Y, and Maeda YT

Subjects

Bacteriological Techniques instrumentation, Escherichia coli cytology, Escherichia coli physiology, Suspensions, Bacteria cytology, Bacteriological Techniques methods, Models, Biological

Abstract

Bacterial suspensions show turbulence-like spatiotemporal dynamics and vortices moving irregularly inside the suspensions. Understanding these ordered vortices is an ongoing challenge in active matter physics, and their application to the control of autonomous material transport will provide significant development in microfluidics. Despite the extensive studies, one of the key aspects of bacterial propulsion has remained elusive: The motion of bacteria is chiral, i.e., it breaks mirror symmetry. Therefore, the mechanism of control of macroscopic active turbulence by microscopic chirality is still poorly understood. Here, we report the selective stabilization of chiral rotational direction of bacterial vortices in achiral circular microwells sealed by an oil/water interface. The intrinsic chirality of bacterial swimming near the top and bottom interfaces generates chiral collective motions of bacteria at the lateral boundary of the microwell that are opposite in directions. These edge currents grow stronger as bacterial density increases, and, within different top and bottom interfaces, their competition leads to a global rotation of the bacterial suspension in a favored direction, breaking the mirror symmetry of the system. We further demonstrate that chiral edge current favors corotational configurations of interacting vortices, enhancing their ordering. The intrinsic chirality of bacteria is a key feature of the pairing order transition from active turbulence, and the geometric rule of pairing order transition may shed light on the strategy for designing chiral active matter., Competing Interests: The authors declare no competing interest.

Published

2021

7. An automated multiplexed turbidometric and data collection system for measuring growth kinetics of anaerobes dependent on gaseous substrates.

Author

Hunt KA, Forbes J, Taub F, Elliott N, Hardwicke J, Petersen R, Stopnisek N, Beck DAC, and Stahl DA

Subjects

Bacteriological Techniques instrumentation, Data Collection instrumentation, Environmental Monitoring instrumentation, Environmental Monitoring methods, High-Throughput Screening Assays, Kinetics, Methanococcus growth & development, Optical Devices, Symbiosis, Bacteria, Anaerobic growth & development, Bacteriological Techniques methods, Data Collection methods, Gases

Abstract

Standard methods of monitoring the growth kinetics of anaerobic microorganisms are generally impractical when there is a protracted or indeterminate period of active growth, and when high numbers of samples or replications are required. As part of our studies of the adaptive evolution of a simple anaerobic syntrophic mutualism, requiring the characterization of many isolates and alternative syntrophic pairings, we developed a multiplexed growth monitoring system using a combination of commercially available electronics and custom designed circuitry and materials. This system automatically monitors up to 64 sealed, and as needed pressurized, culture tubes and reports the growth data in real-time through integration with a customized relational database. The utility of this system was demonstrated by resolving minor differences in growth kinetics associated with the adaptive evolution of a simple microbial community comprised of a sulfate reducing bacterium, Desulfovibrio vulgaris, grown in syntrophic association with Methanococcus maripaludis, a hydrogenotrophic methanogen., (Copyright © 2021. Published by Elsevier B.V.)

Published

2021

8. A new BiofilmChip device for testing biofilm formation and antibiotic susceptibility.

Author

Blanco-Cabra N, López-Martínez MJ, Arévalo-Jaimes BV, Martin-Gómez MT, Samitier J, and Torrents E

Subjects

Anti-Infective Agents pharmacology, Bacterial Infections diagnosis, Bacterial Infections drug therapy, Bacteriological Techniques instrumentation, Delivery of Health Care, Humans, Laboratories, Clinical, Microbial Sensitivity Tests, Microfluidics, Mycobacterium tuberculosis, Pseudomonas aeruginosa, Staphylococcus aureus, Anti-Bacterial Agents pharmacology, Bacteriological Techniques methods, Biofilms drug effects, Biofilms growth & development

Abstract

Currently, three major circumstances threaten the management of bacterial infections: increasing antimicrobial resistance, expansion of chronic biofilm-associated infections, and lack of an appropriate approach to treat them. To date, the development of accelerated drug susceptibility testing of biofilms and of new antibiofouling systems has not been achieved despite the availability of different methodologies. There is a need for easy-to-use methods of testing the antibiotic susceptibility of bacteria that form biofilms and for screening new possible antibiofilm strategies. Herein, we present a microfluidic platform with an integrated interdigitated sensor (BiofilmChip). This new device allows an irreversible and homogeneous attachment of bacterial cells of clinical origin, even directly from clinical specimens, and the biofilms grown can be monitored by confocal microscopy or electrical impedance spectroscopy. The device proved to be suitable to study polymicrobial communities, as well as to measure the effect of antimicrobials on biofilms without introducing disturbances due to manipulation, thus better mimicking real-life clinical situations. Our results demonstrate that BiofilmChip is a straightforward tool for antimicrobial biofilm susceptibility testing that could be easily implemented in routine clinical laboratories., (© 2021. The Author(s).)

Published

2021

9. Enzyme-Linked Phage Receptor Binding Protein Assays (ELPRA) Enable Identification of Bacillus anthracis Colonies.

Author

Braun P, Rupprich N, Neif D, and Grass G

Subjects

Bacillus Phages genetics, Bacillus Phages physiology, Bacillus anthracis genetics, Bacillus anthracis metabolism, Bacillus anthracis virology, Bacterial Proteins genetics, Bacterial Proteins metabolism, Bacteriological Techniques instrumentation, Bacteriophage Receptors genetics, Bacteriophage Receptors metabolism, Genes, Reporter, Humans, Luciferases chemistry, Luciferases genetics, Luciferases metabolism, Luminescent Proteins chemistry, Luminescent Proteins genetics, Luminescent Proteins metabolism, Soil Microbiology, Red Fluorescent Protein, Anthrax microbiology, Bacillus anthracis isolation & purification, Bacterial Proteins chemistry, Bacteriological Techniques methods, Bacteriophage Receptors chemistry, Luminescent Measurements methods

Abstract

Bacteriophage receptor binding proteins (RBPs) are employed by viruses to recognize specific surface structures on bacterial host cells. Recombinant RBPs have been utilized for detection of several pathogens, typically as fusions with reporter enzymes or fluorescent proteins. Identification of Bacillus anthracis , the etiological agent of anthrax, can be difficult because of the bacterium's close relationship with other species of the Bacillus cereus sensu lato group. Here, we facilitated the identification of B. anthracis using two implementations of enzyme-linked phage receptor binding protein assays (ELPRA). We developed a single-tube centrifugation assay simplifying the rapid analysis of suspect colonies. A second assay enables identification of suspect colonies from mixed overgrown solid (agar) media derived from the complex matrix soil. Thus, these tests identified vegetative cells of B. anthracis with little processing time and may support or confirm pathogen detection by molecular methods such as polymerase chain reaction.

Published

2021

10. Recent progress in the optical detection of pathogenic bacteria based on noble metal nanoparticles.

Author

Yang SZ, Liu QA, Liu YL, Weng GJ, Zhu J, and Li JJ

Subjects

Bacteriological Techniques instrumentation, Chemistry Techniques, Analytical instrumentation, Metals, Heavy chemistry, Point-of-Care Testing, Bacteria isolation & purification, Bacteriological Techniques methods, Chemistry Techniques, Analytical methods, Metal Nanoparticles chemistry

Abstract

Pathogenic bacteria have become a huge threat to social health and economy for their frighteningly infectious and lethal capacity. It is quite important to make a diagnosis in advance to prevent infection or allow a rapid treatment after infection. Noble metal nanoparticles, due to their unique physicochemical properties, especially optical properties, have drawn a great attention during the past decades and have been widely applied into all kinds of fields related to human health. By utilizing these noble metal nanoparticles, optical diagnosis platforms towards pathogenic bacteria have emerged continually, providing highly sensitive, selective, and particularly facile detection tools for clinic or point-of-care diagnosis. This review summarizes the recent development in this field. It begins with a brief introduction of pathogenic bacteria and noble metal nanoparticles. And then, optical detection methods are systematically discussed in three distinct aspects. In addition to these proof-of-concept methods, corresponding algorithms and point-of-care detection devices are also described. Finally, the review ends up with subjective views on present limitations and some appropriate advice for future research directions., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published

2021

11. Dynamic persistence of UPEC intracellular bacterial communities in a human bladder-chip model of urinary tract infection.

Author

Sharma K, Dhar N, Thacker VV, Simonet TM, Signorino-Gelo F, Knott GW, and McKinney JD

Subjects

Cell Line, Tumor, Coculture Techniques, Endothelial Cells physiology, Humans, Neutrophils physiology, Bacteriological Techniques instrumentation, Lab-On-A-Chip Devices, Urinary Bladder blood supply, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli

Abstract

Uropathogenic Escherichia coli (UPEC) proliferate within superficial bladder umbrella cells to form intracellular bacterial communities (IBCs) during early stages of urinary tract infections. However, the dynamic responses of IBCs to host stresses and antibiotic therapy are difficult to assess in situ. We develop a human bladder-chip model wherein umbrella cells and bladder microvascular endothelial cells are co-cultured under flow in urine and nutritive media respectively, and bladder filling and voiding mimicked mechanically by application and release of linear strain. Using time-lapse microscopy, we show that rapid recruitment of neutrophils from the vascular channel to sites of infection leads to swarm and neutrophil extracellular trap formation but does not prevent IBC formation. Subsequently, we tracked bacterial growth dynamics in individual IBCs through two cycles of antibiotic administration interspersed with recovery periods which revealed that the elimination of bacteria within IBCs by the antibiotic was delayed, and in some instances, did not occur at all. During the recovery period, rapid proliferation in a significant fraction of IBCs reseeded new foci of infection through bacterial shedding and host cell exfoliation. These insights reinforce a dynamic role for IBCs as harbors of bacterial persistence, with significant consequences for non-compliance with antibiotic regimens., Competing Interests: KS, ND, VT, TS, FS, GK, JM No competing interests declared, (© 2021, Sharma et al.)

Published

2021

12. Study of the impact of cultivation conditions and peg surface modification on the in vitro biofilm formation of Staphylococcus aureus and Staphylococcus epidermidis in a system analogous to the Calgary biofilm device.

Author

Diepoltová A, Konečná K, Janďourek O, and Nachtigal P

Subjects

Animals, Bacteriological Techniques methods, Biofilms classification, Biofilms drug effects, Biomass, Culture Media chemistry, Culture Media pharmacology, Extracellular Polymeric Substance Matrix classification, Extracellular Polymeric Substance Matrix drug effects, Humans, Species Specificity, Staphylococcus classification, Staphylococcus drug effects, Bacteriological Techniques instrumentation, Biofilms growth & development, Staphylococcus physiology

Abstract

Introduction. Staphylococcus aureus (SA) and Staphylococcus epidermidis (SE) are the most common pathogens from the genus Staphylococcus causing biofilm-associated infections. Generally, biofilm-associated infections represent a clinical challenge. Bacteria in biofilms are difficult to eradicate due to their resistance and serve as a reservoir for recurring persistent infections. Gap Statement. A variety of protocols for in vitro drug activity testing against staphylococcal biofilms have been introduced. However, there are often fundamental differences. All these differences in methodical approaches can then be reflected in the form of discrepancies between results. Aim. In this study, we aimed to develop optimal conditions for staphylococcal biofilm formation on pegs. The impact of peg surface modification was also studied. Methodology. The impact of tryptic soy broth alone or supplemented with foetal bovine serum (FBS) or human plasma (HP), together with the impact of the inoculum density of bacterial suspensions and the shaking versus the static mode of cultivation, on total biofilm biomass production in SA and SE reference strains was studied. The surface of pegs was modified with FBS, HP, or poly-l-lysine (PLL). The impact on total biofilm biomass was evaluated using the crystal violet staining method and statistical data analysis. Results. Tryptic soy broth supplemented with HP together with the shaking mode led to crucial potentiation of biofilm formation on pegs in SA strains. The SE strain did not produce biofilm biomass under the same conditions on pegs. Preconditioning of peg surfaces with FBS and HP led to a statistically significant increase in biofilm biomass formation in the SE strain. Conclusion. Optimal cultivation conditions for robust staphylococcal biofilm formation in vitro might differ among different bacterial strains and methodical approaches. The shaking mode and supplementation of cultivation medium with HP was beneficial for biofilm formation on pegs for SA (ATCC 29213) and methicillin-resistant SA (ATCC 43300). Peg conditioning with HP and PLL had no impact on biofilm formation in either of these strains. Peg coating with FBS showed an adverse effect on the biofilm formation of these strains. By contrast, there was a statistically significant increase in biofilm biomass production on pegs coated with FBS and HP for SE (ATCC 35983).

Published

2021

13. Rapid detection of antimicrobial resistance markers with Allplex™ Entero-DR assay directly from positive blood culture bottles.

Author

Hannus P, Räisänen K, and Martelin JJ

Subjects

Bacteriological Techniques instrumentation, Biomarkers, Blood Culture instrumentation, Culture Media, Humans, Polymerase Chain Reaction, Sensitivity and Specificity, Specimen Handling, Anti-Bacterial Agents pharmacology, Bacteriological Techniques methods, Blood Culture methods, Drug Resistance, Bacterial

Abstract

A method for rapid detection of one extended-spectrum β-lactamase (ESBL) and five carbapenemase-encoding genes as well as vancomycin resistance markers directly from blood cultures using the Allplex™ Entero-DR assay (Seegene, Seoul, South Korea) is presented. Altogether 28 previously well-characterized resistant Gram-negative bacilli and Enterococcus spp., and 142 clinical blood cultures containing Gram-negative bacilli or Gram-positive cocci were analyzed. The method had 100% sensitivity and specificity for detecting bla OXA-48-like, bla KPC , bla VIM , bla IMP , bla NDM , bla CTX-M , vanA, and vanB. The lowest detectable amount of viable cells in blood culture samples were 5.39·10 4 CFU/mL, 6.66·10 4 CFU/mL, 5.13·10 3 CFU/mL, 6.09·10 4 CFU/mL, 6.66·10 4 CFU/mL, 6.66·10 4 CFU/mL, 3.12·10 4 CFU/mL, and 5.34·10 4 CFU/mL for the bla KPC , bla OXA-48-like , bla VIM , bla IMP , bla NDM , bla CTX-M , vanA, and vanB, respectively. The results were available within 90 min from signal positive blood cultures, as no separate DNA extraction steps were needed, and the assay showed no interference from blood or culture media used allowing reliable and simplified detection of the resistance markers.

Published

2021

14. Detecting Bacterial Cell Viability in Few µL Solutions from Impedance Measurements on Silicon-Based Biochips.

Author

Bhat VJ, Vegesna SV, Kiani M, Zhao X, Blaschke D, Du N, Vogel M, Kluge S, Raff J, Hübner U, Skorupa I, Rebohle L, and Schmidt H

Subjects

Bacillaceae, Dielectric Spectroscopy instrumentation, Electrodes, Lab-On-A-Chip Devices, Microscopy methods, Microscopy, Atomic Force, Silicon, Bacteriological Techniques instrumentation, Bacteriological Techniques methods, Dielectric Spectroscopy methods, Microbial Viability

Abstract

Using two different types of impedance biochips (PS5 and BS5) with ring top electrodes, a distinct change of measured impedance has been detected after adding 1-5 µL (with dead or live Gram-positive Lysinibacillus sphaericus JG-A12 cells to 20 µL DI water inside the ring top electrode. We relate observed change of measured impedance to change of membrane potential of L. sphaericus JG-A12 cells. In contrast to impedance measurements, optical density (OD) measurements cannot be used to distinguish between dead and live cells. Dead L. sphaericus JG-A12 cells have been obtained by adding 0.02 mg/mL of the antibiotics tetracycline and 0.1 mg/mL chloramphenicol to a batch with OD0.5 and by incubation for 24 h, 30 °C, 120 rpm in the dark. For impedance measurements, we have used batches with a cell density of 25.5 × 10 8 cells/mL (OD8.5) and 270.0 × 10 8 cells/mL (OD90.0). The impedance biochip PS5 can be used to detect the more resistive and less capacitive live L. sphaericus JG-A12 cells. Also, the impedance biochip BS5 can be used to detect the less resistive and more capacitive dead L. sphaericus JG-A12 cells. An outlook on the application of the impedance biochips for high-throughput drug screening, e.g., against multi-drug-resistant Gram-positive bacteria, is given.

Published

2021

15. Point-of-care detection of tuberculosis using magnetoresistive biosensing chip.

Author

Gupta S, Bhatter P, and Kakkar V

Subjects

Antigens, Bacterial immunology, Bacterial Proteins immunology, Biomarkers blood, Equipment Design, Humans, Mycobacterium tuberculosis immunology, Predictive Value of Tests, Reproducibility of Results, Tuberculosis blood, Tuberculosis immunology, Tuberculosis microbiology, Antibodies, Monoclonal immunology, Antigens, Bacterial blood, Bacterial Proteins blood, Bacteriological Techniques instrumentation, Biosensing Techniques instrumentation, Magnetite Nanoparticles, Mycobacterium tuberculosis metabolism, Point-of-Care Testing, Tuberculosis diagnosis

Abstract

In this paper, a highly sensitive and specific technique based on the principle of giant magnetoresistance (GMR) has been proposed for the early stage Tuberculosis (TB) diagnostics. This GMR biosensing assay employs monoclonal antibodies against M. tuberculosis specific ESAT-6 antigen with the use of magnetic nanoparticles (MNPs) as labels. MNPs bind to the GMR sensor in presence of ESAT-6 and the binding is proportional to the ESAT-6 protein concentration leading to the change in overall resistance of GMR sensor. GMR biosensor simulation showed that ESAT-6 concentration can be detected in the range of pg/mL in comparison to the other transduction techniques available for ESAT-6 detection and further, the signal strength increased with the increase in the concentration. This work has shown that the GMR biosensing strategy is pertinent for the TB detection at the primitive phases when compared with other magnetic techniques used for TB diagnostics., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

16. Evaluation of four sampling devices for Burkholderia pseudomallei laboratory aerosol studies.

Author

Schuit M, Gardner S, Taylor J, and Dabisch P

Subjects

Aerosols, Bacterial Load, Burkholderia pseudomallei growth & development, Bacteriological Techniques instrumentation, Burkholderia pseudomallei isolation & purification, Nebulizers and Vaporizers

Abstract

Previous field and laboratory studies investigating airborne Burkholderia pseudomallei have used a variety of different aerosol samplers to detect and quantify concentrations of the bacteria in aerosols. However, the performance of aerosol samplers can vary in their ability to preserve the viability of collected microorganisms, depending on the resistance of the organisms to impaction, desiccation, or other stresses associated with the sampling process. Consequently, sampler selection is critical to maximizing the probability of detecting viable microorganisms in collected air samples in field studies and for accurate determination of aerosol concentrations in laboratory studies. To inform such decisions, the present study assessed the performance of four laboratory aerosol samplers, specifically the all-glass impinger (AGI), gelatin filter, midget impinger, and Mercer cascade impactor, for collecting aerosols containing B. pseudomallei generated from suspensions in two types of culture media. The results suggest that the relative performance of the sampling devices is dependent on the suspension medium utilized for aerosolization. Performance across the four samplers was similar for aerosols generated from suspensions supplemented with 4% glycerol. However, for aerosols generated from suspensions without glycerol, use of the filter sampler or an impactor resulted in significantly lower estimates of the viable aerosol concentration than those obtained with either the AGI or midget impinger. These results demonstrate that sampler selection has the potential to affect estimation of doses in inhalational animal models of melioidosis, as well as the likelihood of detection of viable B. pseudomallei in the environment, and will be useful to inform design of future laboratory and field studies., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

17. Preparation of Boronic Acid-Functionalized Cryogels Using Modular and Clickable Building Blocks for Bacterial Separation.

Author

Zheng H, Hajizadeh S, Gong H, Lin H, and Ye L

Subjects

Bacteriological Techniques instrumentation, Gram-Negative Bacteria chemistry, Gram-Positive Bacteria chemistry, Bacteriological Techniques methods, Boronic Acids chemistry, Cryogels chemistry, Gram-Negative Bacteria isolation & purification, Gram-Positive Bacteria isolation & purification

Abstract

Composite cryogels containing boronic acid ligands are synthesized for effective separation and isolation of bacteria. The large and interconnected pores in cryogels enable fast binding and release of microbial cells. To control bacterial binding, an alkyne-tagged boronic acid ligand is conjugated to azide-functionalized cryogel via the Cu(I)-catalyzed azide-alkyne cycloaddition reaction. The boronic acid-functionalized cryogel binds Gram-positive and Gram-negative bacteria through reversible boronate ester bonds, which can be controlled by pH and simple monosaccharides. To increase the capacity of affinity separation, a new approach is used to couple the alkyne-tagged phenylboronic acid to cryogel via an intermediate polymer layer that provides multiple immobilization sites. The morphology and chemical composition of the composite cryogel are characterized systematically. The capability of the composite cryogel for the separation of Gram-positive and Gram-negative bacteria is investigated. The binding capacities of the composite cryogel for Escherichia coli and Staphylococcus epidermidis are 2.15 × 10 9 and 3.36 × 10 9 cfu/g, respectively. The bacterial binding of the composite cryogel can be controlled by adjusting pH. The results suggest that the composite cryogel may be used as affinity medium for rapid separation and isolation of bacteria from complex samples.

Published

2021

18. Growth of Staphylococcus aureus Using a Rotary Cell Culture System.

Author

Hauserman MR and Rice KC

Subjects

Bacteriological Techniques instrumentation, Gene Expression Profiling, Proteomics, Sequence Analysis, RNA, Shear Strength, Bacteriological Techniques methods, Staphylococcus aureus growth & development, Weightlessness Simulation instrumentation

Abstract

The Rotary Cell Culture System (RCCS) is an apparatus that was originally designed by NASA engineers to simulate microgravity conditions for growth of both eukaryotic and bacterial cell cultures. The RCCS growth environment is also characterized by low fluid shear stress, thereby also providing an in vitro growth condition relevant to certain in vivo environments encountered during bacterial infection. This chapter describes a method for growing Staphylococcus aureus under simulated microgravity conditions using the RCCS and disposable High Aspect Ratio Vessels (HARVs). Small samples can be removed and replaced with fresh media during the experiment (continuous sampling method) or the whole culture can be removed at the end of the experiment (end-point sampling method) for larger sample volumes required for follow-up studies such as RNAseq or proteomics., (© 2021. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2021

19. Culturing Mycobacteria.

Author

Wallace E, Hendrickson D, Tolli N, Mehaffy C, Peña M, Nick JA, Knabenbaur P, Watkins J, Simpson A, Amin AG, Chatterjee D, Dobos KM, Lahiri R, Adams L, Strong M, Salfinger M, Bradford R, Stedman TT, Riojas MA, and Hazbón MH

Subjects

Animals, Armadillos, Bioreactors, Disease Models, Animal, Humans, Mice, Nude, Microbial Viability, Mycobacterium isolation & purification, Mycobacterium leprae growth & development, Mycobacterium leprae isolation & purification, Time Factors, Mice, Bacteriological Techniques instrumentation, Mycobacterium growth & development, Mycobacterium Infections microbiology

Abstract

Building upon the foundational research of Robert Koch, who demonstrated the ability to grow Mycobacterium tuberculosis for the first time in 1882 using media made of coagulated bovine serum, microbiologists have continued to develop new and more efficient ways to grow mycobacteria. Presently, all known mycobacterial species can be grown in the laboratory using either axenic culture techniques or in vivo passage in laboratory animals. This chapter provides conventional protocols to grow mycobacteria for diagnostic purposes directly from clinical specimens, as well as in research laboratories for scientific purposes. Detailed protocols used for production of M. tuberculosis in large scale (under normoxic and hypoxic conditions) in bioreactors and for production of obligate intracellular pathogens such as Mycobacterium leprae and "Mycobacterium lepromatosis" using athymic nude mice and armadillos are provided.

Published

2021

20. A Novel Improved Gram Staining Method Based on the Capillary Tube.

Author

Wu KY and Yang TX

Subjects

Staining and Labeling instrumentation, Bacteriological Techniques instrumentation, Bacteriological Techniques methods, Gentian Violet, Gram-Negative Bacteria cytology, Gram-Positive Bacteria cytology, Phenazines, Staining and Labeling methods

Abstract

In this work, an exploratory study was conducted to examine Gram staining based on the capillary tube. Each Gram staining step for all bacterial strains tested was completed in capillary tubes. The results showed that different Gram staining morphologies were clearly visible in the capillary tubes. The results presented here demonstrated that the improved method could effectively distinguish between Gram-positive and Gram-negative bacteria, and only small volumes of reagents were required in this method. Collectively, this efficient method could rapidly and accurately identify the types of bacteria. Therefore, our findings could be used as a useful reference study for other staining methods., Competing Interests: Conflict of interest The authors do not report any financial or personal connections with other persons or organizations, which might negatively affect the contents of this publication and/or claim authorship rights to this publication., (© 2020 Kong-Yang Wu and Tong-Xiang Yang.)

Published

2020

21. Microbial population dynamics during traditional production of Mabisi, a spontaneous fermented milk product from Zambia: a field trial.

Author

Groenenboom AE, Shindano J, Cheepa N, Smid EJ, and Schoustra SE

Subjects

Bacteria genetics, Bacteria growth & development, Bacteria isolation & purification, DNA, Bacterial genetics, Fermentation, Food Microbiology, Hydrogen-Ion Concentration, Phylogeny, Sequence Analysis, DNA, Zambia, Bacteria classification, Bacteriological Techniques instrumentation, Cultured Milk Products microbiology

Abstract

Mabisi is a fermented milk product, traditionally produced in a calabash by uncontrolled fermentation. Due to high costs and a reduced availability of calabashes, nowadays plastic containers are also used for Mabisi production. However, the effect of this change in production practice on the properties of the product has not been documented. Therefore, we aimed at determining the effect of fermentation vessels and types of back-slopping on acidification and microbial communities during fermentation. A series of fifteen experiments using two types of fermentation vessels (plastic buckets and calabashes) in combination with different types of back-slopping (no back-slopping, passive back-slopping, and active back-slopping) were set up at a field site in rural Zambia. In each of the fifteen fermentations we analysed acidification rate of traditional Mabisi fermentation and bacterial diversity over time. No significant difference was found in terms of microbial diversity during and at the end of fermentation between fermentations performed in buckets or previously used calabashes. Bacterial communities in general decreased in diversity over time, where the drop in pH correlated with a decrease in Shannon Index. In case of active back-slopping, the pH drop started right after inoculation while in the no back-slopping and passive back-slopping fermentations, there was a clear lag phase before acidification started. All experimental series resulted in a microbial community dominated by Lactococcus lactis and a Shannon Index, as a measure for diversity, between 0.6 and 2.0. The use of plastic buckets for Mabisi fermentation can be a valuable alternative to the use of calabashes as this study showed no biological and physico-chemical differences between Mabisi resulting from both fermentation vessels, although the reason for perceived differences should be further investigated.

Published

2020

22. Biofilm dynamics: linking in situ biofilm biomass and metabolic activity measurements in real-time under continuous flow conditions.

Author

Klopper KB, de Witt RN, Bester E, Dicks LMT, and Wolfaardt GM

Subjects

Bacteriological Techniques instrumentation, Biomass, Carbon Dioxide, Plankton growth & development, Plankton microbiology, Pseudomonas aeruginosa metabolism, Spectrophotometry instrumentation, Bacteriological Techniques methods, Biofilms growth & development, Pseudomonas aeruginosa physiology

Abstract

The tools used to study biofilms generally involve either destructive, end-point analyses or periodic measurements. The advent of the internet of things (IoT) era allows circumvention of these limitations. Here we introduce and detail the development of the BioSpec; a modular, nondestructive, real-time monitoring system, which accurately and reliably track changes in biofilm biomass over time. The performance of the system was validated using a commercial spectrophotometer and produced comparable results for variations in planktonic and sessile biomass. BioSpec was combined with the previously developed carbon dioxide evolution measurement system (CEMS) to allow simultaneous measurement of biofilm biomass and metabolic activity and revealed a differential response of these interrelated parameters to changing environmental conditions. The application of this system can facilitate a greater understanding of biofilm mass-function relationships and aid in the development of biofilm control strategies.

Published

2020

23. Improved blood culture workflow in the time to detection of microorganisms placing incubators systems outside of microbiology laboratory.

Author

Orellana MA, Chaves F, and Delgado R

Subjects

Bacteria genetics, Bacteria isolation & purification, Bacteriological Techniques methods, Blood Culture methods, Humans, Incubators, Laboratories, Time Factors, Workflow, Bacteria growth & development, Bacteriological Techniques instrumentation, Blood Culture instrumentation

Abstract

Purpose: We analyzed the workflow of the blood culture procedure with one blood culture incubator in the microbiology laboratory, in comparison with the workflow with the incubators systems placing outside, and in a microbiology laboratory without 24-h staffing., Methods: We assessed the elapsed time (ET) and time-to-result (TTR) in the two laboratory workflows during 1 month period in consecutive years. First period with one BACT/ALERT 3D module located in the microbiology laboratory (ML) (access 8 a.m. to 10 p.m.) and second period with three BACT/ALERT VIRTUO modules (one located in ML and two in the core sample laboratory, access 24 h)., Results: The mean ET with BACT/ALERT 3D was 7.09 ± 6.15 h and 1.32 ± 3.14 h with BACT/ALERT VIRTUO. During the 8:00 a.m. to 10:00 p.m. shift, the average ETs were 3.54 ± 5.06 vs 1.59 ± 1.29 h for the two time periods, respectively. Since the automated loading of bottles on the BACT/ALERT VIRTUO allows processing of blood cultures during the night shift, there was a significant reduction of time during the 10:00 p.m. to 8:00 a.m. shift, where the average ET was 10.52 ± 5.23 vs 1.00 ± 4.40 h, respectively. The percentage of positivity in the first period was 9.03% and 11.18% in the second (p = 0.0003). The average TTR in the first period was 24.78 ± 15.9 h and 16.85 ± 14.13 h in the second (p < 0.0001)., Conclusions: Easy 24-h access to blood culture incubators resulted in significant improvement in the workflow of blood culture, decreasing ET, and therefore decreasing the time to positivity and the efficiency of recovery.

Published

2020

24. Development of a standardized Gram stain procedure for bacteria and inflammatory cells using an automated staining instrument.

Author

Li H, Li L, Chi Y, Tian Q, Zhou T, Han C, Zhu Y, and Zhou Y

Subjects

Automation, Laboratory, Bacteriological Techniques instrumentation, Humans, Specimen Handling, Sputum microbiology, Staining and Labeling instrumentation, Time Factors, Bacteria cytology, Bacteriological Techniques methods, Gentian Violet, Leukocytes cytology, Phenazines, Staining and Labeling methods

Abstract

Gram stain is a subjective and poorly controlled test, and the resultant errors often perplex laboratory scientists. To reduce errors and make Gram stain a precisely controllable and meritorious test, a standardized Gram stain procedure for bacteria and inflammatory cells was developed using an automated staining instrument in this study. Freshly expectorated sputum specimens, used as the optimized targets, were smeared on slides by laboratory technicians, defining each slide loaded with uniform matrix and monolayer cell. And then, the staining and decolorizing time, as well as the stain and decolorant volume, were optimized as 15, 105, 1, and 25 s and 1.1, 1.4, 0.3, and 0.7 ml, respectively. Culture-positive blood specimens and original purulent fluids were used for confirming the developed standardized Gram stain procedure. Distinct tinctures of bacteria and inflammatory cells adhered to slide uniformly in a monolayer were observed, and the obtained staining results of these samples were highly consistent with their cultured results. Furthermore, according to the staining results under different staining conditions, an updated molecular mechanism of Gram stain for bacteria and the probable staining mechanism for inflammatory cells were also proposed in this study., (© 2020 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.)

Published

2020

25. Usefulness of intraoperative culture swabs in laparoscopic appendectomy for complicated appendicitis.

Author

Peña ME, Sadava EE, Laxague F, and Schlottmann F

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Abdominal Abscess microbiology, Appendectomy methods, Appendicitis microbiology, Appendicitis surgery, Bacteriological Techniques instrumentation, Intraoperative Care, Laparoscopy, Postoperative Complications microbiology

Abstract

Purpose: Intraabdominal abscess (IAA) is a feared complication after laparoscopic appendectomy (LA) for complicated appendicitis. Benefits of obtaining intraoperative culture swabs (ICS) still remain controversial. We aimed to determine whether ICS modify the rate and management of IAA after LA for complicated appendicitis., Methods: A consecutive series of patients who underwent LA for complicated appendicitis from 2008 to 2018 were included. The cohort was divided into two groups: group 1 (G1), with ICS, and group 2 (G2), without ICS. Demographics, operative variables, pathogen isolation, antibiotic sensitivity, and postoperative outcomes were analyzed., Results: A total of 1639 LA were performed in the study period. Of these, 270 (16.5%) were complicated appendicitis; 90 (33%) belonged to G1 and 180 (67%) to G2. In G1, a higher proportion of patients had generalized peritonitis (G1, 63.3%; G2, 35%; p < 0.01). Seventy-two (80%) patients had positive cultures in G1. The most frequently isolated bacteria were E. coli (66.7%), Bacteroides spp. (34.7%), and Streptococcus spp. (19.4%). In 26 (36%) patients, the initial empiric antibiotic course was modified due to bacterial resistance. The rate of IAA was higher in patients with ICS (G1, 21.1%; G2, 9.4%; p = 0.01). IAA was treated similarly in both groups. A different type of bacteria was isolated in 7 (53.8%) patients with new culture swabs., Conclusions: Obtaining ICS in LA for complicated appendicitis with further antibiotic adjustment to the initial pathogen did not lower the incidence of postoperative IAA and did not modify the treatment needed for this complication.

Published

2020

26. Double-Sided Microwells with a Stepped Through-Hole Membrane for High-Throughput Microbial Assays.

Author

Bae J, Ju J, Kim D, and Kim T

Subjects

Drug Evaluation, Preclinical, High-Throughput Screening Assays methods, Kluyvera genetics, Membranes, Artificial, Microfluidic Analytical Techniques instrumentation, Microfluidic Analytical Techniques methods, Bacteriological Techniques instrumentation, High-Throughput Screening Assays instrumentation, Kluyvera metabolism

Abstract

To improve the throughput of microwell arrays for identifying immense cellular diversities even at a single-bacteria level, further miniaturization or densification of the microwells has been an obvious breakthrough. However, controlling millions of nanoliter samples or more at the microscale remains technologically difficult and has been spatially restricted to a single open side of the microwells. Here we employed a stepped through-hole membrane to utilize the bottom as well as top side of a high-density nanoliter microwell array, thus improving spatial efficiency. The stepped structure shows additional effectiveness for handling several millions of nanoliter bacterial samples in the overall perspectives of controllability, throughput, simplicity, versatility, and automation by using novel methods for three representative procedures in bacterial assays: partitioning cells, manipulating the chemical environment, and extracting selected cells. As a potential application, we show proof-of-concept isolation of rare cells in a mixed ratio of 1 to around 10 6 using a single chip. Our device can be further applied to various biological studies pertaining to synthetic biology, drug screening, mutagenesis, and single-cell heterogeneity.

Published

2020

27. A paper-based conductive immunosensor for the determination of Salmonella Typhimurium.

Author

Wonsawat W, Limvongjaroen S, Supromma S, Panphut W, Ruecha N, Ratnarathorn N, and Dungchai W

Subjects

Antibodies, Immobilized immunology, Antibodies, Monoclonal immunology, Bacteriological Techniques instrumentation, Gold chemistry, Gold Colloid chemistry, Immunoassay instrumentation, Limit of Detection, Metal Nanoparticles chemistry, Reproducibility of Results, Salmonella typhimurium immunology, Bacteriological Techniques methods, Immunoassay methods, Paper, Salmonella typhimurium isolation & purification

Abstract

We report for the first time a highly sensitive and rapid quantitative method for the detection of Salmonella Typhimurium (S. Typhimurium) using a conductive immunosensor on a paper-based device (PAD). S. Typhimurium monoclonal antibodies (MA) were first immobilized on a paper-based device and then captured by S. Typhimurium. After an immunoreaction on the device, the polyclonal antibody-colloidal gold conjugate (PA-AuNPs) was dropped to bind with S. Typhimurium. After a complete sandwich reaction, a dark red color appeared on the paper-based device, which can be observed by the naked eye for a rapid screening test. The electrical conductivity of PA-AuNPs between the screen-printed electrodes on the paper-based device was also measured for an accurate quantitative analysis. The electrical conductivity correlated well with the concentration of S. Typhimurium, which was controlled by the amount of S. Typhimurium attached to the polyclonal antibody-colloidal gold conjugate. The device showed a linear correlation for the concentration of the S. Typhimurium in the range of 10-10 8 CFU mL -1 in a logarithmic plot, with an R 2 value of 0.9882 and a limit of detection (LOD) as low as 10 CFU mL -1 . This simple, highly sensitive, and rapid method for the S. Typhimurium detection was successfully performed within 30 min, and it can be developed into small portable measuring devices in order to facilitate preliminary screening tests.

Published

2020

28. Droplet-based high-throughput cultivation for accurate screening of antibiotic resistant gut microbes.

Author

Watterson WJ, Tanyeri M, Watson AR, Cham CM, Shan Y, Chang EB, Eren AM, and Tay S

Subjects

Bacteriological Techniques instrumentation, High-Throughput Screening Assays instrumentation, Bacteria drug effects, Bacteriological Techniques methods, Drug Resistance, Bacterial, Gastrointestinal Microbiome, High-Throughput Screening Assays methods

Abstract

Traditional cultivation approaches in microbiology are labor-intensive, low-throughput, and yield biased sampling of environmental microbes due to ecological and evolutionary factors. New strategies are needed for ample representation of rare taxa and slow-growers that are often outcompeted by fast-growers in cultivation experiments. Here we describe a microfluidic platform that anaerobically isolates and cultivates microbial cells in millions of picoliter droplets and automatically sorts them based on colony density to enhance slow-growing organisms. We applied our strategy to a fecal microbiota transplant (FMT) donor stool using multiple growth media, and found significant increase in taxonomic richness and larger representation of rare and clinically relevant taxa among droplet-grown cells compared to conventional plates. Furthermore, screening the FMT donor stool for antibiotic resistance revealed 21 populations that evaded detection in plate-based assessment of antibiotic resistance. Our method improves cultivation-based surveys of diverse microbiomes to gain deeper insights into microbial functioning and lifestyles., Competing Interests: WW, MT, AW, CC, YS, EC, AE No competing interests declared, ST Savaş Tay is a founder and equity holder of BiomeSense Inc., (© 2020, Watterson et al.)

Published

2020

29. Comparison of isothermal microcalorimetry and BACTEC MGIT960 for the detection of the metabolic activity of Mycobacterium tuberculosis in sputum samples.

Author

Braissant O, Theron G, Friedrich SO, Diacon AH, and Bonkat G

Subjects

Bacteriological Techniques instrumentation, Calorimetry, Humans, Mycobacterium tuberculosis growth & development, Time Factors, Tuberculosis, Pulmonary microbiology, Bacteriological Techniques methods, Mycobacterium tuberculosis isolation & purification, Mycobacterium tuberculosis metabolism, Sputum microbiology

Abstract

Introduction: This study explores the uses of microcalorimetry to detect Mycobacterium tuberculosis (TB) in sputum. Microcalorimetry measures metabolic heat evolution during cellular proliferation of tuberculosis (TB) and is considered as a possible alternative to conventional diagnostic tools., Objectives: To compare the time to detection (TTD) from the BACTEC™ MGIT™ 960 and the calScreener™ calorimetric system., Methods: Sixty-four sputa samples were selected from patients with confirmed pulmonary tuberculosis. Those sample were then decontaminated and analysed using calorimetry and BACTEC MGIT 960 system., Results: The incubation period until detection of M. tuberculosis in the sample was 8·5 ± 3·7 days for the MGIT system and 10·1 ± 4·1 days (mean ± SD) for calorimetry., Conclusions: The microincubations in the 48-well format calScreener offers potential for rapid and accurate diagnostic of TB in different samples. Although TTD from calorimetry is still longer than with the MGIT, our findings suggest that several improvements are possible. Still, the instrument is ideal for continuous, real-time analysis of net metabolic heat release of limited sample numbers., Significance and Impact of the Study: Our result emphasizes that with further optimization, calorimetry can become an alternative detection method for tuberculosis., (© 2019 The Society for Applied Microbiology.)

Published

2020

30. Perspectives on Cultivation Strategies of Archaea.

Author

Sun Y, Liu Y, Pan J, Wang F, and Li M

Subjects

Bacteriological Techniques instrumentation, Archaea growth & development, Bacteriological Techniques methods

Abstract

Archaea have been recognized as a major domain of life since the 1970s and occupy a key position in the tree of life. Recent advances in culture-independent approaches have greatly accelerated the research son Archaea. However, many hypotheses concerning the diversity, physiology, and evolution of archaea are waiting to be confirmed by culture-base experiments. Consequently, archaeal isolates are in great demand. On the other hand, traditional approaches of archaeal cultivation are rarely successful and require urgent improvement. Here, we review the current practices and applicable microbial cultivation techniques, to inform on potential strategies that could improve archaeal cultivation in the future. We first summarize the current knowledge on archaeal diversity, with an emphasis on cultivated and uncultivated lineages pertinent to future research. Possible causes for the low success rate of the current cultivation practices are then discussed to propose future improvements. Finally, innovative insights for archaeal cultivation are described, including (1) medium refinement for selective cultivation based on the genetic and transcriptional information; (2) consideration of the up-to-date archaeal culturing skills; and (3) application of multiple cultivation techniques, such as co-culture, direct interspecies electron transfer (DIET), single-cell isolation, high-throughput culturing (HTC), and simulation of the natural habitat. Improved cultivation efforts should allow successful isolation of as yet uncultured archaea, contributing to the much-needed physiological investigation of archaea.

Published

2020

31. Effect of Rheological Conditions of the Environment on Adaptive Behavior of Lactobacilli in Microculture.

Author

Kirilenko MA and Kuznetsov OY

Subjects

Bioreactors microbiology, Cell Division drug effects, Culture Media pharmacology, Environment, Lactobacillus cytology, Lactobacillus growth & development, Microtechnology methods, Time Factors, Adaptation, Biological physiology, Bacteriological Techniques instrumentation, Bacteriological Techniques methods, Culture Media chemistry, Lactobacillus physiology, Rheology instrumentation, Rheology methods

Abstract

Adaptive behavior of lactobacilli in cultured in microchambers of different design was analyzed under a light microscope. We found that the time of appearance of first-generation cells for the studied strains of lactobacilli differed in chambers with different rheological properties (stationary and flow-through). The results of our experiments suggest that the development of populations of lactobacilli is regulated by autometabolites of different physiological modalities directly from the very first cell generations. Populations of lactobacilli are under the control of autometabolites at the initial stages of interaction with the environment under various rheological conditions. Rheological conditions of the culture medium of the first generation cells determine the development of cells of the second and probably further cell generations under the same culturing conditions.

Published

2020

32. Effect of Atomized Delivery of Nutrients on the Growth Characteristics and Microstructure Morphology of Bacterial Cellulose.

Author

Amason AC, Nowak JF, Samuel J, and Gross RA

Subjects

Bacteriological Techniques instrumentation, Culture Media chemistry, Elastic Modulus, Equipment Design, Gluconacetobacter xylinus metabolism, Microscopy, Electron, Scanning, Tensile Strength, Bacteriological Techniques methods, Cellulose biosynthesis, Cellulose chemistry, Culture Media pharmacology, Gluconacetobacter xylinus growth & development

Abstract

This work demonstrates a general strategy for introducing remarkable changes in matrix organization and, consequently, functional properties of bacterial cellulose (BC). BC-producing cells were induced, using a well-defined atomized droplet nutrient delivery (ADND) system, to form pellicles with a regular layered morphology that persists throughout the mat depth. In contrast, the morphology of mats formed by conventional static medium nutrient delivery (SMND) is irregular with no distinguishable pattern. ADND also resulted in larger meso-scale average pore sizes but did not alter the fibril diameter (∼70 nm) and crystallinity index (92-95%). The specific modulus and specific tensile strength of ADND mats are higher than those of SMND mats. This is due to the regularity of dense layers that are present in ADND mats that are able to sustain tensile loads, when applied parallel to these layers. The density of BC films prepared by ADND is 1.63-fold lower than that of the SMND BC film. Consequently, the water contents (g/g) of ADND- and SMND-prepared BC mats are 263 ± 8.85 and 99.6 ± 2.04, respectively. A model that rationalizes differences in mat morphology resulting from these nutrient delivery methods based on nutrient and oxygen concentration gradients is proposed. This work raises questions as to the extent that ADND can be used to fine-tune the matrix morphology and how the resulting lower density mats will alter the diffusion of actives from the films to wound sites and increase the ability of cells to infiltrate the matrix during tissue engineering.

Published

2020

33. Aseptic Technique.

Author

Bykowski T and Stevenson B

Subjects

Bacteriological Techniques instrumentation, Bacteriological Techniques standards, Cell Culture Techniques instrumentation, Culture Media chemistry, Environment, Controlled, Equipment Contamination prevention & control, Laboratories standards, Bacteriological Techniques methods, Cell Culture Techniques methods

Abstract

This article describes common laboratory procedures that can reduce the risk of culture contamination (sepsis), collectively referred as "aseptic technique." Two major strategies for aseptic work are described: using a Bunsen burner and using a laminar flow hood. Both methods are presented in the form of general protocols applicable to a variety of laboratory tasks such as pipetting and dispensing aliquots, preparing growth media, and inoculating, passaging, and spreading microorganisms on petri dishes. © 2020 by John Wiley & Sons, Inc., (© 2020 John Wiley & Sons, Inc.)

Published

2020

34. An automated smear microscopy system to diagnose tuberculosis in a high-burden setting.

Author

Tan Y, Su B, Cai X, Guan P, Liu X, Ma P, Zhou H, Liu J, and Pang Y

Subjects

Adult, Aged, Automation, Laboratory, Bacteriological Techniques instrumentation, Bacteriological Techniques standards, China epidemiology, Diagnostic Tests, Routine instrumentation, Diagnostic Tests, Routine standards, Female, Humans, Male, Microscopy, Middle Aged, Mycobacterium tuberculosis cytology, Sensitivity and Specificity, Sputum microbiology, Tuberculosis, Pulmonary epidemiology, Young Adult, Bacteriological Techniques methods, Diagnostic Tests, Routine methods, Mycobacterium tuberculosis isolation & purification, Tuberculosis, Pulmonary diagnosis

Abstract

Objectives: TB-EASM (Howsome, Shanghai, China), an automated system combining smear preparation, staining and microscopy in a single platform, was evaluated for tuberculosis (TB) diagnosis in a high disease-burden setting., Methods: Sputum samples from individuals with pulmonary TB were processed in parallel using conventional manual smear microscopy (MS), TB-EASM, liquid culture and GeneXpert. Method sensitivity and specificity were compared with Mycobacterium tuberculosis detection by mycobacteria growth indicator tube (MGIT) and/or GeneXpert MTB/RIF., Results: Of 524 samples, 496 met evaluation criteria for study inclusion. The proportion of M. tuberculosis detected by TB-EASM was 28.2% (150/496), significantly higher than for MS (111/496, 21.2%, p 0.01) and comparable to the rate for MGIT (163/496, 32.9%, p > 0.05). For 190 M. tuberculosis-positive cases identified using MGIT and/or GeneXpert MTB/RIF, the reference standard detection methods, TB-EASM detected 140 positive cases, for an overall sensitivity rate of 73.7% (140/190, 95% CI 67.4-79.9), which was significantly higher than for MS (105/190, 55.3%, 95% CI 48.2-62.3, p < 0.01). Specificities were 96.7% (296/306, 95% CI 94.7-98.7) for TB-EASM and 98.0% (300/306, 95% CI 96.5-99.6) for MS., Conclusion: TB-EASM outperformed conventional MS for M. tuberculosis detection in sputum specimens., (Copyright © 2019 European Society of Clinical Microbiology and Infectious Diseases. Published by Elsevier Ltd. All rights reserved.)

Published

2019

35. Comparison and Evaluation of Lowenstein-Jensen Medium, Mycobacteria Growth Indicator Tube 960, and Microscopic Smear Results in the Diagnosis of Tuberculosis: Insights from a Large, Retrospective, Single Centre Study.

Author

Yazisiz H, Cenger DH, Yazisiz V, Kiliç L, and Altin S

Subjects

Bacteriological Techniques instrumentation, Culture Media classification, Humans, Mycobacterium tuberculosis growth & development, Mycobacterium tuberculosis physiology, Reproducibility of Results, Retrospective Studies, Sensitivity and Specificity, Tuberculosis microbiology, Bacteriological Techniques methods, Culture Media pharmacology, Mycobacterium tuberculosis drug effects, Tuberculosis diagnosis

Published

2019

36. Viability of bacterial enteropathogens in fecal samples in the presence or absence of different types of transport media.

Author

Berenger BM, Ferrato C, and Chui L

Subjects

Bacteria isolation & purification, Bacteriological Techniques instrumentation, Culture Media, Gastroenteritis diagnosis, Humans, Specimen Handling instrumentation, Bacteriological Techniques methods, Feces microbiology, Microbial Viability, Specimen Handling methods

Abstract

Transport media are recommended to improve the sensitivity of fecal culture, but there are limited published data comparing bacterial viability in feces stored with or without transport media. In this study, recovery of bacteria from culture-positive feces after 7 days of storage was assessed under the following conditions: without transport media (w/oTM); with FecalSwab™ Transport and Preservation Medium (FSTM); and with modified Cary-Blair (mCB). All Shiga toxin-producing E. coli (STEC) positive specimens (n = 23) and ≥97.5% of Salmonella-positive specimens (n = 40) remained positive under all conditions. Campylobacter (n = 41) was isolated from 82.9% of feces stored in mCB, 68.4% in FSTM, and 70.7% w/oTM; Shigella (n = 14) 85.7%, 78.6%, and 78.6%; and Yersinia (n = 16) 93.8%, 87.5%, and 81.3%, respectively (P = 0.076, Cochran's Q). Transport media were not required for STEC or Salmonella. mCB may be better than w/oTM or FSTM for other pathogens, but an evaluation with a larger number of specimens is required., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

37. Electroosmotic flow driven microfluidic device for bacteria isolation using magnetic microbeads.

Author

Miller S, Weiss AA, Heineman WR, and Banerjee RK

Subjects

Bacteriological Techniques instrumentation, Calibration, Equipment Design, Fluoresceins chemistry, Fluorescent Dyes analysis, Fluorometry instrumentation, Fluorometry methods, Sulfonic Acids chemistry, Bacteriological Techniques methods, Electroosmosis, Escherichia coli isolation & purification, Lab-On-A-Chip Devices, Microspheres

Abstract

The presence of bacterial pathogens in water can lead to severe complications such as infection and food poisoning. This research proposes a point-of-care electroosmotic flow driven microfluidic device for rapid isolation and detection of E. coli in buffered solution (phosphate buffered saline solution). Fluorescent E. coli bound to magnetic microbeads were driven through the microfluidic device using both constant forward flow and periodic flow switching at concentrations ranging from 2 × 10 5 to 4 × 10 7 bacteria/mL. A calibration curve of fluorescent intensity as a function of bacteria concentration was created using both constant and switching flow, showing an increase in captured fluorescent pixel count as concentration increases. In addition, the use of the flow switching resulted in a significant increase in the capture efficiency of E. coli, with capture efficiencies up to 83% ± 8% as compared to the constant flow capture efficiencies (up to 39% ± 11%), with a sample size of 3 µL. These results demonstrate the improved performance associated with the use of the electroosmotic flow switching system in a point-of-care bacterial detection assay.

Published

2019

38. Colorimetric Sensor Array Based on Wulff-Type Boronate Functionalized AgNPs at Various pH for Bacteria Identification.

Author

Yan P, Ding Z, Li X, Dong Y, Fu T, and Wu Y

Subjects

Bacteriological Techniques instrumentation, Boron chemistry, Boronic Acids metabolism, Color, Colorimetry instrumentation, Cysteamine chemistry, Humans, Hydrogen-Ion Concentration, Nitrogen chemistry, Silver chemistry, Static Electricity, Sulfhydryl Compounds metabolism, Urine microbiology, Bacteria pathogenicity, Bacteriological Techniques methods, Boronic Acids chemistry, Colorimetry methods, Metal Nanoparticles chemistry, Sulfhydryl Compounds chemistry

Abstract

The efficient identification of bacteria is of considerable significance in clinical diagnosis. Herein, a novel colorimetric sensor array was developed for the detection and identification of bacteria based on the specific affinity and electrostatic interaction between Wulff-type 4-mercaptophenylboronic acid (MPBA)-mercaptoethylamine (MA) cofunctionalized AgNPs (MPBA-MA@AgNPs) and bacteria at various pH. In the neutral and alkaline conditions, AgNPs tended to be dispersed due to the specific affinity between cis -diol residues contained in carbohydrate-rich compositions on the bacterial cell surface and MPBA. Bacterial cells have different carbohydrate compositions on their surface. The differential binding affinity of MPBA on the surface of AgNPs to cis -diol residues of various carbohydrates resulted in a different color change of AgNPs, which could be tuned by pH. On the contrary, AgNPs tended to be aggregated due to the electrostatic interaction between positively charged MA and negatively charged bacteria under acidic conditions. Therefore, using various pH buffer solutions as the sensing elements and MPBA-MA@AgNPs as the indicator, bacteria could be differentiated from each other by their own color response patterns. Moreover, the complex bacteria mixtures could be well discriminated. The method is simple, efficient, and visual and has a potential application in pathogen diagnosis.

Published

2019

39. Biochemical identification techniques and antibiotic susceptibility profile of lipolytic ambiental bacteria from effluents.

Author

Rave AFG, Kuss AV, Peil GHS, Ladeira SR, Villarreal JPV, and Nascente PS

Subjects

Anti-Bacterial Agents pharmacology, Bacteriological Techniques instrumentation, Brazil, Bacteria drug effects, Bacteria isolation & purification, Bacteriological Techniques methods, Drug Resistance, Bacterial, Microbial Sensitivity Tests instrumentation, Sewage microbiology

Abstract

Different methodologies have been developed throughout the years to identify environmental microorganisms to improve bioremediation techniques, determine susceptibility profiles of bacteria in contaminated environments, and reduce the impact of microorganisms in ecosystems. Two methods of bacterial biochemical identification are compared and the susceptibility profile of bacteria, isolated from residential and industrial wastewater, is determined. Twenty-four bacteria were retrieved from the bacteria bank of the Environmental Microbiology Laboratory at the Institute of Biology (IB) of the Universidade Federal de Pelotas, Pelotas, Brazil. Bacteria were identified by conventional biochemical tests and by the VITEK ®2 automated system. Further, the susceptibility profile to antibiotics was also determined by the automated system. Six species of bacteria (Raoutella planticola, K. pneumoniae ssp. pneumoniae , Serratia marcescens, Raoutella sp., E. cloacae and Klebsiella oxytoca) were identified by conventional biochemical tests, while three species of bacteria (K. pneumoniae ssp. pneumoniae, S. marcescens and K. oxytoca ) were identified by VITEK®2 automated system. VITEK ®2 indicated agreement in 19 (79.17%) isolates and difference in five (20.83%) isolates when compared to results from conventional biochemical tests. Further, antibiotic susceptibility profile results showed that all isolates (100%) were resistant to at least one out of the 18 antibiotics tested by VITEK®2. Thus, no multi-resistant bacteria that may be used in effluent treatment systems or in bioremediation processes have been reported. Results indicate VITEK ® 2 automated system as a potential methodology in the determination of susceptibility profile and identification of environmental bacteria.

Published

2019

40. A pilot study on the analytic sensitivity and accuracy of the Check-Points Check Direct CPE, Cepheid Xpert Carba-R, and ChromID CARBA SMART chromogenic agar for detecting carbapenemase-producing Enterobacteriaceae.

Author

Vasoo S, Hon PY, Hsu JP, Koh TH, and De PP

Subjects

Bacteriological Techniques instrumentation, Culture Media chemistry, Enterobacteriaceae classification, Enterobacteriaceae isolation & purification, Enterobacteriaceae Infections diagnosis, Enterobacteriaceae Infections microbiology, Humans, Pilot Projects, Sensitivity and Specificity, Agar, Bacteriological Techniques methods, Carbapenem-Resistant Enterobacteriaceae isolation & purification

Published

2019

41. Investigation of the skin microbiome: swabs vs. biopsies.

Author

Prast-Nielsen S, Tobin AM, Adamzik K, Powles A, Hugerth LW, Sweeney C, Kirby B, Engstrand L, and Fry L

Subjects

Adult, Aged, Aged, 80 and over, Bacteria genetics, Bacteriological Techniques instrumentation, Biopsy, DNA, Bacterial isolation & purification, Female, Humans, Male, Middle Aged, RNA, Ribosomal, 16S genetics, Skin pathology, Skin Diseases pathology, Bacteria isolation & purification, Bacteriological Techniques methods, Microbiota genetics, Skin microbiology, Skin Diseases microbiology

Abstract

Background: Human skin is populated by diverse bacteria and there is increasing evidence that resident bacteria play a key role initiating immune responses in cutaneous diseases such as atopic dermatitis, psoriasis and hidradenitis suppurativa. Bacteria are present at all layers of the skin but many studies have relied on swabs to profile the skin microbiota., Objectives: As the pathogenesis of many skin conditions is dermal, we wanted to compare the microbiota obtained in swabs (surface) and biopsies (dermis)., Methods: Using 16S rRNA gene sequencing we established the microbial profiles of skin swabs and skin biopsies in 16 patients., Results: We found differences in both diversity and taxonomic composition of the microbiome obtained from swabs and biopsies of the same individual. Several taxa were found to be more abundant in the swabs, which displayed significantly higher community richness, but Clostridiales and Bacteroidetes were significantly enriched in the biopsies. Most published research on cutaneous microbiota has been based on skin swabs, which represent the surface of the skin., Conclusions: Our study demonstrated a clear difference between the microbiome observed from skin swabs and skin biopsies. These findings may be highly relevant in disorders such as psoriasis where pathogenesis arises in the dermis. What's already known about this topic? 16S RNA gene sequencing has facilitated study of the skin microbiome. Several studies have sequenced the microbiome sampled by skin swabs. What does this study add? The microbiome data obtained using swabs and biopsies were different. Diseases that are predominantly dermal should be studied using both swabs and biopsies., (© 2019 British Association of Dermatologists.)

Published

2019

42. Medium Preparation for the Cultivation of Microorganisms under Strictly Anaerobic/Anoxic Conditions.

Author

Wagner AO, Markt R, Mutschlechner M, Lackner N, Prem EM, Praeg N, and Illmer P

Subjects

Anaerobiosis, Bacteria, Anaerobic metabolism, Bacteriological Techniques instrumentation, Biofuels microbiology, Culture Media chemistry, Fatty Acids, Volatile metabolism, Methane metabolism, Bacteria, Anaerobic growth & development, Bacteriological Techniques methods

Abstract

In contrast to aerobic organisms, strictly anaerobic microorganisms require the absence of oxygen and usually a low redox potential to initiate growth. As oxygen is ubiquitous in air, retaining O2-free conditions during all steps of cultivation is challenging but a prerequisite for anaerobic culturing. The protocol presented here demonstrates the successful cultivation of an anaerobic mixed culture derived from a biogas plant using a simple and inexpensive method. A precise description of the entire anoxic culturing process is given including media preparation, filling of cultivation flasks, supplementation with redox indicator and reducing agents to provide low redox potentials as well as exchanging the headspace to keep media free from oxygen. Furthermore, a detailed overview of aseptically inoculating gas tight serum flasks (by using sterile syringes and needles) and suitable incubation conditions is provided. The present protocol further deals with gas and liquid sampling for subsequent analyses regarding gas composition and volatile fatty acid concentrations using gas chromatography (GC) and high performance liquid chromatography (HPLC), respectively, and the calculation of biogas and methane yield considering the ideal gas law.

Published

2019

43. Molecular detection of Salmonella serovars Enteritidis, Heidelberg and Typhimurium directly from pre-enriched poultry samples.

Author

Souza MN, Lehmann FKM, De Carli S, Kipper D, Fonseca ASK, Ikuta N, and Lunge VR

Subjects

Animals, Bacteriological Techniques instrumentation, Poultry Diseases microbiology, Salmonella Infections, Animal microbiology, Salmonella enteritidis isolation & purification, Salmonella typhimurium isolation & purification, Bacteriological Techniques methods, Chickens, Poultry Diseases drug therapy, Real-Time Polymerase Chain Reaction methods, Salmonella Infections, Animal drug therapy, Salmonella enterica isolation & purification, Turkeys

Abstract

1. Salmonella is one of the most important pathogens in public health and it is usually associated with food-borne diseases. Salmonella serovars Enteritidis and Typhimurium are widespread in the world with outbreaks frequently associated with consumption of poultry products; furthermore, there is an increasing public health concern with the wide dissemination of the serovar Heidelberg in poultry flocks. 2. The aim of the experiment was to develop and to validate rapid methods to detect Salmonella serovars Enteritidis, Typhimurium, and Heidelberg by real-time PCRs and test isolates from pre-enriched poultry samples. 3. Three real-time PCRs were developed and used in combination to detect the serovars Enteritidis, Typhimurium and Heidelberg. These assays were validated by the analysis of 126 Salmonella isolates, eight other enteric bacterial species and 34 naturally contaminated poultry samples after pre-enrichment with buffered peptone water (BPW). 4. Real-time PCRs detected the isolates of the most important poultry serovars (Enteritidis, Typhimurium and Heidelberg) with 100% inclusivity and exclusivity in each assay. The PCR identified monophasic variants of the serovars Typhimurium and Heidelberg. All PCRs were validated in detecting these specific serovars directly from pre-enriched poultry samples. The whole analytical procedure was performed in less than 24 h in a veterinary diagnostic laboratory.

Published

2019

44. Culture of periprosthetic tissue in blood culture bottles for diagnosing periprosthetic joint infection.

Author

Li C, Ojeda-Thies C, and Trampuz A

Subjects

Bacteriological Techniques methods, Blood Culture instrumentation, False Negative Reactions, False Positive Reactions, Humans, Prosthesis-Related Infections microbiology, Sensitivity and Specificity, Tissue Culture Techniques methods, Bacteria isolation & purification, Bacteriological Techniques instrumentation, Prosthesis-Related Infections diagnosis, Tissue Culture Techniques instrumentation

Abstract

Background: The purpose of this meta-analysis was to evaluate the diagnostic accuracy of periprosthetic tissue culture in blood culture bottles (BCB) for periprosthetic joint infection (PJI)., Methods: PubMed, Web of Science, and Embase were systematically searched for eligible studies evaluating the diagnostic performance of periprosthetic tissue culture in BCB for the diagnosis of PJI. The pooled data were analysed by Meta-Disc software., Results: Four studies with a total of 1071 patients were included in this meta-analysis. The summarized estimates showed that periprosthetic tissue culture in BCB may be of great value in PJI diagnosis with a pooled sensitivity of 0.70 (95% confidence interval [CI]; 0.66-0.75), specificity of 0.97 (95% CI: 0.95-0.98); positive likelihood ratio (PLR) of 20.98 (95% CI: 11.52-38.2); negative likelihood ratio (NLR) of 0.28 (95% CI: 0.20-0.40); and diagnostic odds ratio (DOR) of 92.26 (95% CI: 43.93-193.78)., Conclusions: The present meta-analysis showed that periprosthetic tissue in BCB improves the results of microorganism cultures, with a sensitivity of 70% and a specificity of 97%. However, more large-scale, well-performed studies are needed to verify our findings.

Published

2019

45. Development of an Automated UV Irradiation Device for Microbial Cell Culture.

Author

Shibai A, Tsuru S, and Yomo T

Subjects

Automation, Laboratory methods, Bacteriological Techniques instrumentation, Bacteriological Techniques methods, Genetics, Microbial methods, Mutagenesis, Ultraviolet Rays

Abstract

Ultraviolet (UV) mutagenesis is a widely used technique to increase bacterial mutation rates in laboratory experiments. UV mutagenesis requires fine regulation of UV dose, because the number of dead cells increases exponentially as the dose increases. Ignoring this hazard can cause extinction of UV-exposed populations. Therefore, an automated system that cooperatively conducts both growth measurement and UV irradiation is needed for efficient UV mutagenesis experiments. To address this task, we constructed an automated UV irradiation device for microbial cell culture. This device can measure cell density and irradiate the bacterial cells with UV light automatically according to the state of cell growth. We demonstrated that this growth feedback control avoided extinction and enabled accumulation of mutations in bacterial genomes at a rapid rate for a long period. Whole-genome sequencing revealed the high accumulation rate, neutrality, and spectrum of UV-induced mutations. These characteristics were all consistent with those obtained by manual UV irradiation. These results indicate that our automated device is useful in accelerating mutation accumulation over a long duration.

Published

2019

46. Biotic and abiotic substrates for enhancing Acinetobacter baumannii biofilm formation: New approach using extracellular matrix and slanted coverslip technique.

Author

Ramalingam K and Lee V

Subjects

Acinetobacter baumannii genetics, Acinetobacter baumannii ultrastructure, Bacterial Adhesion, Bacterial Proteins metabolism, Bacteriological Techniques instrumentation, Biofilms drug effects, Extracellular Matrix chemistry, Extracellular Matrix ultrastructure, Extracellular Matrix Proteins pharmacology, Fimbriae, Bacterial metabolism, Acinetobacter baumannii physiology, Bacteriological Techniques methods, Biofilms growth & development, Extracellular Matrix metabolism

Abstract

Acinetobacter baumannii has been well recognized as a problematic human pathogen and several reports has shown the incidence of multidrug and pandrug-resistant A. baumannii strains in infirmary infections. A. baumannii grows only on an air-liquid interface and does not form a contiguous biofilm. Extracellular matrices (ECM) and slanted glass coverslips are (SGC) used as biofilm substrates and biofilms have been investigated by SEM, confocal and crystal violet staining. ECM has shown enhanced biofilm formation under dynamic conditions rather than static conditions. SGC biofilm yield assay has shown higher levels of continuous layers and packed thicker biofilm formation with glass coverslip inserts, up to 1.7 to 3 times higher biofilm formation, than when compared with no glass coverslip inserts. A media immersed ECM study revealed that biofilm grown on extracellular matrixes formed thread-like pili structures, and that these structures had contact with the ECM and also showed excellent cell-to-cell interaction. In summary, A. baumannii showed higher biofilm formation capacities with ECM, while the prominent results were directly related with the biofilm formation capacity of A. baumannii. For the initial step of biofilm formation, adherence is an important factor and, consequently, strains with a comparatively high capability to adhere to extracellular matrices and slanted glass coverslips provide a new method of enhanced biofilm growth for in vitro assays. ECM can be used as a substrate for immersed biofilm formation studies and the SGC method for air-liquid interface exposed biofilm formation studies, and these substrates can provide better biofilm growth and easy handling for in vitro adherence and biofilm assays.

Published

2019

47. Performance of bioMérieux Lowenstein-Jensen slopes in plastic tube packaging, compared to existing phenotypic methods, for efficient recovery of the Mycobacterium tuberculosis complex.

Author

Nambiar R, Bereksi N, Gonzalez R, de Cozar A, Loubet M, Shetty A, van Belkum A, and Rodrigues C

Subjects

Bacteriological Techniques methods, Bronchoalveolar Lavage Fluid microbiology, Glass, Humans, Mycobacterium tuberculosis growth & development, Sensitivity and Specificity, Sputum microbiology, Tuberculosis, Pulmonary diagnosis, Bacteriological Techniques instrumentation, Culture Media, Drug Packaging instrumentation, Mycobacterium tuberculosis isolation & purification, Plastics

Abstract

Purpose: Lowenstein-Jensen (LJ) medium used for cultivating Mycobacterium tuberculosis (MTB) is marketed in glass packaging. Breakage of glass slope is a major biosafety risk, especially during processing and storage, which gets magnified in large laboratories. We evaluated the performance of new bioMérieux (bMx) LJ slopes in plastic packaging, compared to bMx glass LJ medium and Becton Dickinson Mycobacterial Growth Indicator Tube (MGIT), for MTB recovery., Methodology: Consecutive pulmonary/extra-pulmonary samples (n=240) were processed using routine methods of decontamination, inoculation and incubation., Results: Plastic LJ slopes detected all 213 true-positive cases. The mean time-to-growth detection was 17.97 days for plastic LJ slopes, compared to 18.08 and 13.53 days for glass LJ slopes and MGIT, respectively. No statistically significant difference was observed between the two LJ slopes (P< 0.05). Both LJ slopes had a sensitivity and specificity of 100%, with respect to MGIT., Conclusion: Plastic LJ slopes are a good alternative to the traditional glass slopes. The medium quality did not differ with the packaging material. Increased surface area of these slants allowed enhanced growth, and the clear plastic material allowed accurate recording of growth. The wide mouth of these containers eased inoculation. Increased biosafety, by elimination of breakage risk, is the biggest advantage of this modification.

Published

2019

48. Label-free Bacteria Quantification in Blood Plasma by a Bioprinted Microarray Based Interferometric Point-of-Care Device.

Author

Dey P, Fabri-Faja N, Calvo-Lozano O, Terborg RA, Belushkin A, Yesilkoy F, Fàbrega A, Ruiz-Rodriguez JC, Ferrer R, González-López JJ, Estévez MC, Altug H, Pruneri V, and Lechuga LM

Subjects

Adsorption, Antibodies, Bacterial chemistry, Antibodies, Bacterial immunology, Bacterial Load instrumentation, Bacterial Load methods, Bacterial Proteins chemistry, Bacteriological Techniques instrumentation, Bioprinting, Escherichia coli immunology, Gold chemistry, Humans, Immunoassay instrumentation, Immunoassay methods, Interferometry instrumentation, Microscopy instrumentation, Nanostructures chemistry, Protein Array Analysis instrumentation, Protein Array Analysis methods, Sepsis blood, Sepsis microbiology, Bacteriological Techniques methods, Blood microbiology, Escherichia coli isolation & purification, Interferometry methods, Microscopy methods, Point-of-Care Testing

Abstract

Existing clinical methods for bacteria detection lack speed, sensitivity, and, importantly, point-of-care (PoC) applicability. Thus, finding ways to push the sensitivity of clinical PoC biosensing technologies is crucial. Here we report a portable PoC device based on lens-free interferometric microscopy (LIM). The device employs high performance nanoplasmonics and custom bioprinted microarrays and is capable of direct label-free bacteria ( E. coli) quantification. With only one-step sample handling we offer a sample-to-data turnaround time of 40 min. Our technology features detection sensitivity of a single bacterial cell both in buffer and in diluted blood plasma and is intrinsically limited by the number of cells present in the detection volume. When employed in a hospital setting, the device has enabled accurate categorization of sepsis patients (infectious SIRS) from control groups (healthy individuals and noninfectious SIRS patients) without false positives/negatives. User-friendly on-site bacterial clinical diagnosis can thus become a reality.

Published

2019

49. Sample pre-concentration on a digital microfluidic platform for rapid AMR detection in urine.

Author

Kalsi S, Valiadi M, Turner C, Sutton M, and Morgan H

Subjects

Bacterial Proteins genetics, Bacteriological Techniques methods, DNA, Bacterial isolation & purification, Equipment Design, Humans, Polymerase Chain Reaction methods, Urinary Tract Infections diagnosis, Urinary Tract Infections microbiology, Urinary Tract Infections urine, beta-Lactamases genetics, Bacteriological Techniques instrumentation, Bacteriuria diagnosis, Bacteriuria microbiology, Bacteriuria urine, DNA, Bacterial urine, Microfluidic Analytical Techniques instrumentation, beta-Lactam Resistance genetics

Published

2018

50. The EcoChip: A Wireless Multi-Sensor Platform for Comprehensive Environmental Monitoring.

Author

Sylvain M, Lehoux F, Morency S, Faucher F, Bharucha E, Tremblay DM, Raymond F, Sarrazin D, Moineau S, Allard M, Corbeil J, Messaddeq Y, and Gosselin B

Subjects

Bacillus subtilis genetics, Bacillus subtilis isolation & purification, Bacillus subtilis physiology, Climate, DNA, Bacterial analysis, Dielectric Spectroscopy instrumentation, Equipment Design, Escherichia coli genetics, Escherichia coli isolation & purification, Escherichia coli physiology, Bacteriological Techniques instrumentation, Environmental Monitoring instrumentation, Soil Microbiology, Water Microbiology

Abstract

This paper presents the EcoChip, a new system based on the state-of-the-art electro-chemical impedance (EIS) technologies allowing the growth of single strain organisms isolated from northern habitats. This portable system is a complete and autonomous wireless platform designed to monitor and cultivate microorganisms directly sampled from their natural environment, particularly from harsh northern environments. Using 96-well plates, the EcoChip can be used in the field for real-time monitoring of bacterial growth. Manufactured with high-quality electronic components, this new EIS monitoring system is designed to function at a low excitation voltage signal to avoid damaging the cultured cells. The high-precision calibration network leads to high-precision results, even in the most limiting contexts. Luminosity, humidity, and temperature can also be monitored with the addition of appropriate sensors. Access to robust data storage systems and power supplies is an obvious limitation for northern research. That is why the EcoChip is equipped with a flash memory that can store data over long periods of time. To resolve the power issue, a low-power micro-controller and a power management unit control and supply all electronic building blocks. Data stored in the EcoChip's flash memory can be transmitted through a transceiver whenever a receiver is located within the functional transmission range. In this paper, we present the measured performance of the system, along with results from laboratory tests in vitro and from two field tests. The EcoChip has been utilized to collect bio-environemental data in the field from the northern soils and ecosystems of Kuujjuarapik and Puvirnituq, during two expeditions, in 2017 and 2018, respectively. We show that the EcoChip can effectively carry out EIS analyses over an excitation frequency ranging from 750 Hz to 10 kHz with an accuracy of 2.35%. The overall power consumption of the system was 140.4 mW in normal operating mode and 81 μW in sleep mode. The proper development of the isolated bacteria was confirmed through deoxyribonucleic acid sequencing, indicating that bacteria thrive in the EcoChip's culture wells while the growing conditions are successfully gathered and stored.

Published

2018