Your search keyword '"Bang DD"' showing total 64 results

1. Rapid detection of Salmonella enterica in primary production samples by eliminating DNA amplification inhibitors using an improved sample pre-treatment method.

Author

Vinayaka AC, Quyen TL, Huynh VN, Madsen M, Bang DD, and Wolff A

Subjects

Animals, Salmonella genetics, Chickens, Dust, DNA, Sensitivity and Specificity, Salmonella enterica genetics

Abstract

Sensitive detection of pathogens in livestock farms is an integral part of the One Health Action Plan of the European Union (EU). Ensuring this requires on-site testing devices that are compatible with complex matrices such as primary production samples. Among all, faeces are considered the most challenging matrix type that makes it difficult to identify pathogens because of complexity in sample preparation for molecular testing. We have developed a loop-mediated isothermal amplification (LAMP) based veterinary point-of-care (POC) device (VETPOD) and adapted it to detect Salmonella enterica in primary production samples. Three different sampling methods (semi-wet chicken faeces, boot socks collection and dust samples from poultry shed) were iteratively tested to assess their nature of complexity and possibility for adapting them as suitable sampling methods for on-site testing. During the study, the sample preparation method that included a two-step centrifugation combined with washing of the enriched Salmonella cells was found crucial in eliminating amplification inhibitors originating from the faecal matrices. A total of 90 samples were tested that included 60 samples for sensitivity study and 30 samples for relative level of detection (RLOD, a level of detection in comparison to ISO 6579:1 reference method). Overall, the VETPOD had a sensitivity of 90%, 84.62% and 81.82% for boot sock, faecal and dust samples, respectively. The RLOD was 2.23 CFU/25 g which was found to be 1.33 times higher than the ISO 6579:1. Performing with an excellent agreement with ISO 6579:1, the VETPOD proved as a promising alternative to detect Salmonella spp. in primary production and animal husbandry samples., (© 2023 The Authors. Microbial Biotechnology published by Applied Microbiology International and John Wiley & Sons Ltd.)

Published

2023

2. PATHPOD - A loop-mediated isothermal amplification (LAMP)-based point-of-care system for rapid clinical detection of SARS-CoV-2 in hospitals in Denmark.

Author

Nguyen T, Vinayaka AC, Huynh VN, Linh QT, Andreasen SZ, Golabi M, Bang DD, Møller JK, and Wolff A

Abstract

Sensitive and rapid detection of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has been a vital goal in the ongoing COVID-19 pandemic. We present in this comprehensive work, for the first time, detailed fabrication and clinical validation of a point of care (PoC) device for rapid, onsite detection of SARS-CoV-2 using a real-time reverse-transcription loop-mediated isothermal amplification (RT-LAMP) reaction on a polymer cartridge. The PoC system, namely PATHPOD, consisting of a standalone device (weight less than 1.2 kg) and a cartridge, can perform the detection of 10 different samples and two controls in less than 50 min, which is much more rapid than the golden standard real-time reverse-transcription Polymerase Chain Reaction (RT-PCR), typically taking 16-48 h. The novel total internal reflection (TIR) scheme and the reactions inside the cartridge in the PoC device allow monitoring of the diagnostic results in real-time and onsite. The analytical sensitivity and specificity of the PoC test are comparable with the current RT-PCR, with a limit of detection (LOD) down to 30-50 viral genome copies. The robustness of the PATHPOD PoC system has been confirmed by analyzing 398 clinical samples initially examined in two hospitals in Denmark. The clinical sensitivity and specificity of these tests are discussed., Competing Interests: The authors declare no conflicts of interest., (© 2023 The Authors.)

Published

2023

3. Validation of Point-of-Care Device for Rapid Detection of Salmonella enterica in Meat Products.

Author

Vinayaka AC, Huynh VN, Quyen TL, Nguyen T, Golabi M, Madsen M, Bang DD, and Wolff A

Subjects

Animals, Point-of-Care Systems, Salmonella genetics, Nucleic Acid Amplification Techniques methods, Meat, Sensitivity and Specificity, Food Microbiology, Salmonella enterica genetics, Meat Products

Abstract

Accurate and rapid detection of pathogens in foods of animal origin has been a critical part of the One Health Action Plan of the European Union (EU). Biosensors have the potential in bringing required technologies to accomplish this on the field, wherein loop-mediated isothermal amplification (LAMP) and lab-on-a-chip have proven to be ideal. We have developed a LAMP-based point-of-care (POC) device, the VETPOD, as a solution to the contemporary challenges in the rapid detection of Salmonella spp. The core technology in the VETPOD is a ready-to-use cartridge that included an injection-molded polymer chip with pyramid-shaped optical structures embedded within the chip. These pyramid-shaped optical structures direct the incident light, due to total internal reflection (TIR), through the reaction chambers to the phototransistor. The VETPOD was validated against the ISO 6579-1 reference method. A total of 310 samples were tested that included 180 Salmonella spiked samples in 6 different meat categories and 130 strains to determine the specificity. The overall results were satisfactory, wherein the VETPOD had an acceptable sensitivity (96.51%) compared to the reference (98.81%) and near perfect agreement with ISO 6579-1 with an overall Cohen's kappa of 0.94. The relative level of detection (RLOD) for the VETPOD was 1.38 CFU/25 g that was found to be 1.17 times higher than the reference. The VETPOD showed 98% precision for inclusivity and 100% precision for the exclusivity samples. The VETPOD proved as a useful alternative to detect Salmonella spp. that can be adaptable to a broader spectrum of pathogens in future.

Published

2023

4. Multiplexed Detection of Pathogens Using Solid-Phase Loop-Mediated Isothermal Amplification on a Supercritical Angle Fluorescence Array for Point-of-Care Applications.

Author

Quyen TL, Vinayaka AC, Golabi M, Nguyen T, Ngoc HV, Bang DD, and Wolff A

Subjects

Animals, Nucleic Acid Amplification Techniques methods, Molecular Diagnostic Techniques methods, Salmonella genetics, Point-of-Care Systems, Influenza A virus genetics

Abstract

Adaptations of new generation molecular techniques for multiplexed detection of pathogens are gaining interest in the field of point-of-care (POC) industry and onsite testing. Loop-mediated isothermal amplification (LAMP), an advanced molecular amplification technique, has proven promising due to its unique features that suits ideal for POC applications. However, application of LAMP for multiplexed detection of pathogens remains challenging because of the difficulty in the identification of specific LAMP amplicons that does not have a well-definite molecular size. In this study, we developed a solid-phase loop-mediated isothermal amplification (SP-LAMP) technique to address the challenge. Integration of LAMP with the supercritical angle fluorescence (SAF) micro-optic structures as a solid support (SS) in an array format enabled spatial separation of LAMP amplicons in a multiplexed configuration. Important parameters such as length of the SS primers, length of the primer-binding region, the effect of surface density of immobilized SS primers, and cross-reactivity among the primers of different targets were iteratively tested and optimized. With the combination of SP-LAMP and SAF techniques, it was possible to detect multiple pathogens that include Salmonella spp, Campylobater spp., Campylobacter coli , Campylobacter jejuni , avian influenza virus (AIV), and pan avian internal control (IC) under singleplex conditions. The multiplexing capacity of the SP-LAMP was demonstrated using AIV and IC with promising results. The success of SP-LAMP has opened a promising direction toward the development of a multiplex POC system for rapid detection of multiple pathogens.

Published

2022

5. Point-of-care system for rapid real-time detection of SARS-CoV-2 virus based on commercially available Arduino platforms.

Author

Van Ngoc H, Quyen TL, Vinayaka AC, Bang DD, and Wolff A

Abstract

The COVID-19 pandemic emphasized the importance of rapid, portable, and on-site testing technologies necessary for resource-limited settings for effective testing and screening to reduce spreading of the infection. Realizing this, we developed a fluorescence-based point-of-care (fPOC) detection system with real-time reverse transcriptase loop-mediated isothermal amplification for rapid and quantitative detection of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus. The system is built based on the Arduino platform compatible with commercially available open-source hardware-software and off-the-shelf electronic components. The fPOC system comprises of three main components: 1) an instrument with integrated heaters, 2) optical detection components, and 3) an injection-molded polymeric cartridge. The system was tested and experimentally proved to be able to use for fast detection of the SARS-CoV-2 virus in real-time in less than 30 min. Preliminary results of testing the performance of the fPOC revealed that the fPOC could detect the SARS-CoV-2 virus at a limit of detection (LOD 50% ) at two to three copies/microliter (15.36 copies/reaction), which was comparable to reactions run on a standard commercial thermocycler. The performance of the fPOC was evaluated with 12 SARS-CoV-2 clinical throat swab samples that included seven positive and five negative samples, as confirmed by reverse transcription-polymerase chain reaction. The fPOC showed 100% agreement with the commercial thermocycler. This simple design of the fPOC system demonstrates the potential to greatly enhance the practical applicability to develop a totally integrated point-of-care system for rapid on-site screening of the SARS-CoV-2 virus in the management of the pandemic., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Van Ngoc, Quyen, Vinayaka, Bang and Wolff.)

Published

2022

6. Elimination of Carryover Contamination in Real-Time Reverse Transcriptase Loop-Mediated Isothermal Amplification for Rapid Detection of the SARS-CoV-2 Virus in Point-of-Care Testing.

Author

Quyen TL, Vinayaka AC, Golabi M, Ngoc HV, Bang DD, and Wolff A

Subjects

Humans, Molecular Diagnostic Techniques methods, Nucleic Acid Amplification Techniques methods, Point-of-Care Testing, RNA, Viral analysis, RNA, Viral genetics, RNA-Directed DNA Polymerase, Sensitivity and Specificity, COVID-19 diagnosis, SARS-CoV-2 genetics

Abstract

Loop-mediated isothermal amplification (LAMP) is being used as a robust rapid diagnostic tool to prevent the transmission of infectious diseases. However, carryover contamination of LAMP-amplified products originating from previous tests has been a problem in LAMP-based bio-analytical assays. In this study, we developed a Cod-uracil-DNA-glycosylase real-time reverse transcriptase LAMP assay (Cod-UNG-rRT-LAMP) for the elimination of carryover contamination and the rapid detection of SARS-CoV-2 in point-of-care (POC) testing. Using the Cod-UNG-rRT-LAMP assay, the SARS-CoV-2 virus could be detected as low as 2 copies/µl (8 copies/reaction) within 45 min of amplification and 2.63 ± 0.17 pg (equivalent to 2.296 × 10 9 copies) of contaminants per reaction could be eliminated. Analysis of clinical SARS-CoV-2 samples using the Cod-UNG-rRT-LAMP assay showed an excellent agreement with a relative accuracy of 98.2%, sensitivity of 97.1%, and specificity of 95.2% in comparison to rRT-PCR. The results obtained in this study clearly demonstrate the feasibility of the use of the Cod-UNG-rRT-LAMP assay for applications toward the POC diagnosis of SARS-CoV-2 and on-site testing of other pathogens., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Quyen, Vinayaka, Golabi, Ngoc, Bang and Wolff.)

Published

2022

7. Point-of-care diagnosis of invasive non-typhoidal Salmonella enterica in bloodstream infections using immunomagnetic capture and loop-mediated isothermal amplification.

Author

Vinayaka AC, Golabi M, Than TLQ, Wolff A, and Bang DD

Subjects

Humans, Immunomagnetic Separation, Molecular Diagnostic Techniques, Nucleic Acid Amplification Techniques, Polymerase Chain Reaction, Salmonella enterica genetics, Salmonella enterica isolation & purification, Sensitivity and Specificity, Point-of-Care Systems, Salmonella Infections diagnosis, Sepsis diagnosis

Abstract

Invasive non-typhoidal salmonellosis is gaining worldwide attention as an emerging disease cluster among bloodstream infections. The disease has the highest burden among immunocompromised and malnourished children in resource-limited areas due to poor access to reliable and rapid diagnostics. Point-of-care (POC) diagnostics are promising for use in such low infrastructure laboratory settings. However, there still remains a major challenge for POC testing to deal with the complexity of blood matrices in rapid detection of an extremely low concentration of blood-borne pathogens. In this work, the challenges were addressed by combining magnetic bead based pathogen concentration and Loop Mediated Isothermal Amplification (LAMP) technology. Sensitivity and performance of the combined approach were determined and compared with a direct PCR method. A direct visual detection strategy, adapted using SYTO-24 DNA intercalating dye, resulted in a limit of detection (LoD) as low as 14 CFU/mL in blood samples with a total analysis time of less than 2 h, including sample preparation. This approach has the potential for wide application as a high-throughput POC testing method to analyze pathogens in clinical, food, feed and environmental samples., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

8. Development of Reverse Transcription Loop-Mediated Isothermal Amplification Assay for Rapid and On-Site Detection of Avian Influenza Virus.

Author

Golabi M, Flodrops M, Grasland B, Vinayaka AC, Quyen TL, Nguyen T, Bang DD, and Wolff A

Subjects

Animals, Humans, Molecular Diagnostic Techniques, Nucleic Acid Amplification Techniques, Reverse Transcription, Sensitivity and Specificity, Influenza A virus genetics, Influenza in Birds

Abstract

Avian influenza virus (AIV) outbreaks occur frequently worldwide, causing a potential public health risk and great economic losses to poultry industries. Considering the high mutation rate and frequent genetic reassortment between segments in the genome of AIVs, emerging new strains are a real threat that may infect and spread through the human population, causing a pandemic. Therefore, rapid AIV diagnostic tests are essential tools for surveillance and assessing virus spreading. Real-time reverse transcription PCR (rRT-PCR), targeting the matrix gene, is the main official standard test for AIV detection, but the method requires well-equipped laboratories. Reverse transcription Loop-Mediated Isothermal Amplification (RT-LAMP) has been reported as a rapid method and an alternative to PCR in pathogen detection. The high mutation rate in the AIV genome increases the risk of false negative in nucleic acid amplification methods for detection, such as PCR and LAMP, due to possible mismatched priming. In this study, we analyzed 800 matrix gene sequences of newly isolated AIV in the EU and designed a highly efficient LAMP primer set that covers all AIV subtypes. The designed LAMP primer set was optimized in real-time RT-LAMP (rRT-LAMP) assay. The rRT-LAMP assay detected AIV samples belonging to nine various subtypes with the specificity and sensitivity comparable to the official standard rRT-PCR assay. Further, a two-color visual detection RT-LAMP assay protocol was adapted with the aim to develop on-site diagnostic tests. The on-site testing successfully detected spiked AIV in birds oropharyngeal and cloacal swabs samples at a concentration as low as 10 0.8 EID 50 per reaction within 30 minutes including sample preparation. The results revealed a potential of this newly developed rRT-LAMP assay to detect AIV in complex samples using a simple heat treatment step without the need for RNA extraction., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Golabi, Flodrops, Grasland, Vinayaka, Quyen, Nguyen, Bang and Wolff.)

Published

2021

9. Pathogen Concentration Combined Solid-Phase PCR on Supercritical Angle Fluorescence Microlens Array for Multiplexed Detection of Invasive Nontyphoidal Salmonella Serovars.

Author

Vinayaka AC, Ngo TA, Nguyen T, Bang DD, and Wolff A

Subjects

Animals, Cattle, Microscopy, Fluorescence, Salmonella enteritidis metabolism, Salmonella enteritidis pathogenicity, Salmonella typhimurium metabolism, Salmonella typhimurium pathogenicity, Polymerase Chain Reaction, Salmonella enteritidis genetics, Salmonella typhimurium genetics

Abstract

Bloodstream infections and invasive nontyphoidal Salmonellosis in particular remain a major health and economic burden worldwide. The complexity of blood matrixes along with extremely low concentration of pathogens in blood poses a great challenge for rapid and ultrasensitive detection. Sample preparation has been the critical step that should provide blood-matrix-free sample with the targeted pathogen in the highest possible concentration. In this work, we addressed this challenge by combining magnetic-bead-based pathogen concentration and solid-phase PCR (SP-PCR). The SP-PCR performed on a supercritical angle fluorescence (SAF) microlens array embedded in a microchip enabled quick and accurate detection of low levels of Salmonella enterica serovar typhimurium and enteritidis in blood samples without culture enrichment. Protein AG-magnetic beads immobilized with antisalmonella antibody could efficiently concentrate both Salmonella serovars with a capturing efficiency >95%. Higher tolerance of Phusion hot start DNA polymerase to PCR inhibitors and its compatibility with protein AG-magnetic beads allowed the integration of SP-PCR. Analysis of Salmonella -spiked blood samples with the SP-PCR resulted in a limit of detection (LoD) as low as 86 CFU/mL and 94 CFU/mL for S . typhimurium and S . enteritidis , respectively, that could be attributed to the high fluorescence collection efficiency of the SAF microlens array. These combinations reduced the duration of analysis to less than 3 h including sample preparation. This platform has the potential for wide application as a high-throughput biosensor to analyze pathogens in clinical, food, and environmental samples.

Published

2020

10. A Sensitive, Specific and Simple Loop Mediated Isothermal Amplification Method for Rapid Detection of Campylobacter spp. in Broiler Production.

Author

Quyen TL, Nordentoft S, Vinayaka AC, Ngo TA, Engelsmenn P, Sun Y, Madsen M, Bang DD, and Wolff A

Abstract

Campylobacteriosis is one of the most common foodborne diseases worldwide. Two Campylobacter species - C. jejuni and C. coli in poultry and poultry products are considered to be the main source of human campylobacteriosis. Therefore, studying Campylobacter status in poultry flocks is needed to prevent transmission of disease and reduce human risk, health cost, and economic losses. In this study, we adapted and used a Loop-Mediated Isothermal Amplification (LAMP) assay for specific, sensitive, simple and cost-effective rapid detection of C. jejuni and C. coli in the poultry production chain. Amplified LAMP products were detected using a small, low-cost portable commercial blue LED transilluminator and a direct visual detection strategy was demonstrated. By using optimized conditions for amplification a limit of detection (LOD) of 50 CFU/ml was achieved for testing of C. jejuni and C. coli in spiked chicken feces without enrichment. The method took 60-70 min from receiving the samples to the final results (including 30 min for amplification). The optimized LAMP showed a relative accuracy of 98.4%, a specificity of 97.9%, and a sensitivity of 100% in comparison to real-time PCR method. Cohen's kappa index also showed an excellent agreement (0.94) between the two methods. The results showed that the method is specific, sensitive and is suitable to develop for rapid detection of Campylobacter spp. at poultry production., (Copyright © 2019 Quyen, Nordentoft, Vinayaka, Ngo, Engelsmenn, Sun, Madsen, Bang and Wolff.)

Published

2019

11. Classification of Multiple DNA Dyes Based on Inhibition Effects on Real-Time Loop-Mediated Isothermal Amplification (LAMP): Prospect for Point of Care Setting.

Author

Quyen TL, Ngo TA, Bang DD, Madsen M, and Wolff A

Abstract

LAMP has received great interest and is widely utilized in life sciences for nucleic acid analysis. To monitor a real-time LAMP assay, a fluorescence DNA dye is an indispensable component and therefore the selection of a suitable dye for real-time LAMP is a need. To aid this selection, we investigated the inhibition effects of twenty-three DNA dyes on real-time LAMP. Threshold time (T t ) values of each real-time LAMP were determined and used as an indicator of the inhibition effect. Based on the inhibition effects, the dyes were classified into four groups: (1) non-inhibition effect, (2) medium inhibition effect, (3) high inhibition effect, and (4) very high inhibition effect. The signal to noise ratio (SNR) and the limit of detection (LOD) of the dyes in groups 1, 2, and 3 were further investigated, and possible inhibition mechanisms of the DNA dyes on the real-time LAMP are suggested and discussed. Furthermore, a comparison of SYTO 9 in different LAMP reactions and different systems is presented. Of the 23 dyes tested, SYTO 9, SYTO 82, SYTO 16, SYTO 13, and Miami Yellow were the best dyes with no inhibitory effect, low LOD and high SNR in the real-time LAMP reactions. The present classification of the dyes will simplify the selection of fluorescence dye for real-time LAMP assays in point of care setting., (Copyright © 2019 Quyen, Ngo, Bang, Madsen and Wolff.)

Published

2019

12. MicroRNA amplification and detection technologies: opportunities and challenges for point of care diagnostics.

Author

Dave VP, Ngo TA, Pernestig AK, Tilevik D, Kant K, Nguyen T, Wolff A, and Bang DD

Subjects

Humans, Genetic Techniques, MicroRNAs analysis, MicroRNAs genetics, Point-of-Care Systems

Abstract

The volume of point of care (POC) testing continues to grow steadily due to the increased availability of easy-to-use devices, thus making it possible to deliver less costly care closer to the patient site in a shorter time relative to the central laboratory services. A novel class of molecules called microRNAs have recently gained attention in healthcare management for their potential as biomarkers for human diseases. The increasing interest of miRNAs in clinical practice has led to an unmet need for assays that can rapidly and accurately measure miRNAs at the POC. However, the most widely used methods for analyzing miRNAs, including Northern blot-based platforms, in situ hybridization, reverse transcription qPCR, microarray, and next-generation sequencing, are still far from being used as ideal POC diagnostic tools, due to considerable time, expertize required for sample preparation, and in terms of miniaturizations making them suitable platforms for centralized labs. In this review, we highlight various existing and upcoming technologies for miRNA amplification and detection with a particular emphasis on the POC testing industries. The review summarizes different miRNA targets and signals amplification-based assays, from conventional methods to alternative technologies, such as isothermal amplification, paper-based, oligonucleotide-templated reaction, nanobead-based, electrochemical signaling- based, and microfluidic chip-based strategies. Based on critical analysis of these technologies, the possibilities and feasibilities for further development of POC testing for miRNA diagnostics are addressed and discussed.

Published

2019

13. Rapid detection of Salmonella enterica in food samples by a novel approach with combination of sample concentration and direct PCR.

Author

Vinayaka AC, Ngo TA, Kant K, Engelsmann P, Dave VP, Shahbazi MA, Wolff A, and Bang DD

Subjects

Animals, Biosensing Techniques economics, Biosensing Techniques methods, Chickens, Eggs microbiology, Food Analysis economics, Humans, Immunomagnetic Separation economics, Limit of Detection, Polymerase Chain Reaction economics, Red Meat microbiology, Salmonella typhimurium genetics, Swine, Time Factors, Vegetables microbiology, Food Analysis methods, Food Contamination analysis, Immunomagnetic Separation methods, Polymerase Chain Reaction methods, Salmonella typhimurium isolation & purification

Abstract

Foodborne salmonellosis remains a major economic burden worldwide and particularly for food industries. The diverse and complexity of food matrices pose great challenges for rapid and ultra-sensitive detection of Salmonella in food samples. In this study, combination of pathogen pre-concentration with rapid molecular identification is presented to overcome these challenges. This combination enabled effective real-time PCR detection of low levels of Salmonella enterica serovar Typhimurium without culture enrichment. Anti-salmonella antibody, immobilized on protein AG-magnetic beads, could efficiently concentrate Salmonella Typhimurium with a capturing efficiency of 95%. In the direct PCR, a strong linear relationship between bacteria concentration and the number of cycles was observed with a relative PCR efficiency of ∼92% resulting in a limit of detection (LoD) of ∼2 CFU/mL. Analysis of spiked food samples that include vegetable salad, egg yolk, egg white, whole egg and minced pork meat has validated the precision of the method. A relative accuracy of 98.3% with a sensitivity of 91.6% and specificity of 100% was achieved in the Salmonella spiked food samples. The use of a Phusion hot start DNA polymerase with a high tolerance to possible PCR inhibitors allowed the integration of direct PCR, and thereby reducing the duration of analysis to less than 3 h. The Cohen's kappa index showed excellent agreement (0.88) signifying the capability of this method to overcome the food matrix effects in rapid and ultra-sensitive detection of Salmonella in food. This approach may lay a future platform for the integration into a Lab-on-a-chip system for online monitoring of foodborne pathogens., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

14. The Use of a DNA-Intercalating Dye for Quantitative Detection of Viable Arcobacter spp. Cells (v-qPCR) in Shellfish.

Author

Salas-Massó N, Linh QT, Chin WH, Wolff A, Andree KB, Furones MD, Figueras MJ, and Bang DD

Abstract

The genus Arcobacter (Vandamme et al., 1991), comprised of Campylobacter -related species, are considered zoonotic emergent pathogens. The presence of Arcobacter in food products like shellfish, has an elevated incidence worldwide. In this study, we developed a specific viable quantitative PCR (v-qPCR), using the dye propidium monoazide (PMA), for quantification of the viable Arcobacter spp. cells in raw oysters and mussels. The high selectivity of primers was demonstrated by using purified DNA from 38 different species, 20 of them from the genus Arcobacter . The optimization of PMA concentration showed that 20 μM was considered as an optimal concentration that inhibits the signal from dead cells at different concentrations (OD 550 from 0.2 to 0.8) and at different ratios of live: dead cells (50:50 and 90:10). The v-qPCR results from shellfish samples were compared with those obtained in parallel using several culture isolation approaches (i.e., direct plating on marine and blood agar and by post-enrichment culturing in both media). The enrichment was performed in parallel in Arcobacter-CAT broth with and without adding NaCl. Additionally, the v-qPCR results were compared to those obtained with traditional quantitative (qPCR). The v-qPCR and the qPCR resulted in c.a. 94% of positive detection of Arcobacter vs. 41% obtained by culture approaches. When examining the reduction effect resulting from the use of v-qPCR, samples pre-enriched in Arcobacter-CAT broth supplemented with 2.5% NaCl showed a higher reduction (3.27 log copies) than that of samples obtained directly and those pre-enriched in Arcobacter-CAT broth isolation (1.05 and 1.04). When the v-qPCR was applied to detect arcobacter from real shellfish samples, 15/17 samples tested positive for viable Arcobacter with 3.41 to 8.70 log copies 1g -1 . This study offers a new tool for Arcobacter surveillance in seafood.

Published

2019

15. Microfluidic devices for sample preparation and rapid detection of foodborne pathogens.

Author

Kant K, Shahbazi MA, Dave VP, Ngo TA, Chidambara VA, Than LQ, Bang DD, and Wolff A

Subjects

Biosensing Techniques, DNA, Bacterial analysis, DNA, Bacterial genetics, Humans, Bacterial Typing Techniques, Food Microbiology, Foodborne Diseases diagnosis, Foodborne Diseases microbiology, Lab-On-A-Chip Devices, Microfluidic Analytical Techniques

Abstract

Rapid detection of foodborne pathogens at an early stage is imperative for preventing the outbreak of foodborne diseases, known as serious threats to human health. Conventional bacterial culturing methods for foodborne pathogen detection are time consuming, laborious, and with poor pathogen diagnosis competences. This has prompted researchers to call the current status of detection approaches into question and leverage new technologies for superior pathogen sensing outcomes. Novel strategies mainly rely on incorporating all the steps from sample preparation to detection in miniaturized devices for online monitoring of pathogens with high accuracy and sensitivity in a time-saving and cost effective manner. Lab on chip is a blooming area in diagnosis, which exploits different mechanical and biological techniques to detect very low concentrations of pathogens in food samples. This is achieved through streamlining the sample handling and concentrating procedures, which will subsequently reduce human errors and enhance the accuracy of the sensing methods. Integration of sample preparation techniques into these devices can effectively minimize the impact of complex food matrix on pathogen diagnosis and improve the limit of detections. Integration of pathogen capturing bio-receptors on microfluidic devices is a crucial step, which can facilitate recognition abilities in harsh chemical and physical conditions, offering a great commercial benefit to the food-manufacturing sector. This article reviews recent advances in current state-of-the-art of sample preparation and concentration from food matrices with focus on bacterial capturing methods and sensing technologies, along with their advantages and limitations when integrated into microfluidic devices for online rapid detection of pathogens in foods and food production line., (Copyright © 2018. Published by Elsevier Inc.)

Published

2018

16. Molecularly imprinted polymers for sample preparation and biosensing in food analysis: Progress and perspectives.

Author

Ashley J, Shahbazi MA, Kant K, Chidambara VA, Wolff A, Bang DD, and Sun Y

Subjects

Animals, Biosensing Techniques instrumentation, Food Analysis instrumentation, Humans, Molecular Imprinting instrumentation, Solid Phase Extraction instrumentation, Solid Phase Extraction methods, Biosensing Techniques methods, Food Analysis methods, Molecular Imprinting methods, Polymers chemistry

Abstract

Molecularly imprinted polymers (MIPs) are biomimetics which can selectively bind to analytes of interest. One of the most interesting areas where MIPs have shown the biggest potential is food analysis. MIPs have found use as sorbents in sample preparation attributed to the high selectivity and high loading capacity. MIPs have been intensively employed in classical solid-phase extraction and solid-phase microextraction. More recently, MIPs have been combined with magnetic bead extraction, which greatly simplifies sample handling procedures. Studies have consistently shown that MIPs can effectively minimize complex food matrix effects, and improve recoveries and detection limits. In addition to sample preparation, MIPs have also been viewed as promising alternatives to bio-receptors due to the inherent molecular recognition abilities and the high stability in harsh chemical and physical conditions. MIPs have been utilized as receptors in biosensing platforms such as electrochemical, optical and mass biosensors to detect various analytes in food. In this review, we will discuss the current state-of-the-art of MIP synthesis and applications in the context of food analysis. We will highlight the imprinting methods which are applicable for imprinting food templates, summarize the recent progress in using MIPs for preparing and analysing food samples, and discuss the current limitations in the commercialisation of MIPs technology. Finally, future perspectives will be given., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

17. A novel lab-on-chip platform with integrated solid phase PCR and Supercritical Angle Fluorescence (SAF) microlens array for highly sensitive and multiplexed pathogen detection.

Author

Hung TQ, Chin WH, Sun Y, Wolff A, and Bang DD

Subjects

Base Sequence, Biosensing Techniques instrumentation, DNA Probes chemistry, DNA Probes genetics, DNA, Bacterial genetics, Equipment Design, Fluorescence, Food Analysis instrumentation, Humans, Immobilized Nucleic Acids chemistry, Immobilized Nucleic Acids genetics, Limit of Detection, Salmonella genetics, Salmonella Infections diagnosis, Spectrometry, Fluorescence instrumentation, DNA, Bacterial analysis, Lab-On-A-Chip Devices, Oligonucleotide Array Sequence Analysis instrumentation, Polymerase Chain Reaction instrumentation, Salmonella isolation & purification, Salmonella Infections microbiology

Abstract

Solid-phase PCR (SP-PCR) has become increasingly popular for molecular diagnosis and there have been a few attempts to incorporate SP-PCR into lab-on-a-chip (LOC) devices. However, their applicability for on-line diagnosis is hindered by the lack of sensitive and portable on-chip optical detection technology. In this paper, we addressed this challenge by combining the SP-PCR with super critical angle fluorescence (SAF) microlens array embedded in a microchip. We fabricated miniaturized SAF microlens array as part of a microfluidic chamber in thermoplastic material and performed multiplexed SP-PCR directly on top of the SAF microlens array. Attribute to the high fluorescence collection efficiency of the SAF microlens array, the SP-PCR assay on the LOC platform demonstrated a high sensitivity of 1.6 copies/µL, comparable to off-chip detection using conventional laser scanner. The combination of SP-PCR and SAF microlens array allows for on-chip highly sensitive and multiplexed pathogen detection with low-cost and compact optical components. The LOC platform would be widely used as a high-throughput biosensor to analyze food, clinical and environmental samples., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

18. Direct PCR - A rapid method for multiplexed detection of different serotypes of Salmonella in enriched pork meat samples.

Author

Chin WH, Sun Y, Høgberg J, Quyen TL, Engelsmann P, Wolff A, and Bang DD

Subjects

Animals, Food Contamination, Limit of Detection, Sensitivity and Specificity, Polymerase Chain Reaction methods, Red Meat microbiology, Salmonella classification, Salmonella isolation & purification, Serotyping methods

Abstract

Salmonellosis, an infectious disease caused by Salmonella spp., is one of the most common foodborne diseases. Isolation and identification of Salmonella by conventional bacterial culture method is time consuming. In response to the demand for rapid on line or at site detection of pathogens, in this study, we developed a multiplex Direct PCR method for rapid detection of different Salmonella serotypes directly from pork meat samples without any DNA purification steps. An inhibitor-resistant Phusion Pfu DNA polymerase was used to overcome PCR inhibition. Four pairs of primers including a pair of newly designed primers targeting Salmonella spp. at subtype level were incorporated in the multiplex Direct PCR. To maximize the efficiency of the Direct PCR, the ratio between sample and dilution buffer was optimized. The sensitivity and specificity of the multiplex Direct PCR were tested using naturally contaminated pork meat samples for detecting and subtyping of Salmonella spp. Conventional bacterial culture methods were used as reference to evaluate the performance of the multiplex Direct PCR. Relative accuracy, sensitivity and specificity of 98.8%; 97.6% and 100%, respectively, were achieved by the method. Application of the multiplex Direct PCR to detect Salmonella in pork meat at slaughter reduces the time of detection from 5 to 6 days by conventional bacterial culture and serotyping methods to 14 h (including 12 h enrichment time). Furthermore, the method poses a possibility of miniaturization and integration into a point-of-need Lab-on-a-chip system for rapid online pathogen detection., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

19. Solid-phase PCR for rapid multiplex detection of Salmonella spp. at the subspecies level, with amplification efficiency comparable to conventional PCR.

Author

Chin WH, Sun Y, Høgberg J, Hung TQ, Wolff A, and Bang DD

Subjects

DNA Primers chemistry, DNA, Bacterial genetics, Humans, Polymerase Chain Reaction classification, Salmonella genetics, Salmonella Infections genetics, Salmonella Infections microbiology, DNA, Bacterial analysis, High-Throughput Nucleotide Sequencing methods, Polymerase Chain Reaction methods, Salmonella isolation & purification, Salmonella Infections diagnosis

Abstract

Solid-phase PCR (SP-PCR) has attracted considerable interest in different research fields since it allows parallel DNA amplification on the surface of a solid substrate. However, the applications of SP-PCR have been hampered by the low efficiency of the solid-phase amplification. In order to increase the yield of the solid-phase amplification, we studied various parameters including the length, the density, as well as the annealing position of the solid support primer. A dramatic increase in the signal-to-noise (S/N) ratio was observed when increasing the length of solid support primers from 45 to 80 bp. The density of the primer on the surface was found to be important for the S/N ratio of the SP-PCR, and the optimal S/N was obtained with a density of 1.49 × 10 11  molecules/mm 2 . In addition, the use of solid support primers with a short overhang at the 5' end would help improve the S/N ratio of the SP-PCR. With optimized conditions, SP-PCR can achieve amplification efficiency comparable to conventional PCR, with a limit of detection of 1.5 copies/μl (37.5 copies/reaction). These improvements will pave the way for wider applications of SP-PCR in various fields such as clinical diagnosis, high-throughput DNA sequencing, and single-nucleotide polymorphism analysis. Graphical abstract Schematic representation of solid-phase PCR.

Published

2017

20. Miniaturization of a micro-optics array for highly sensitive and parallel detection on an injection moulded lab-on-a-chip.

Author

Hung TQ, Sun Y, Poulsen CE, Linh-Quyen T, Chin WH, Bang DD, and Wolff A

Subjects

DNA, DNA Probes, Equipment Design, Limit of Detection, Microfluidic Analytical Techniques methods, Oligonucleotide Array Sequence Analysis methods, Spectrometry, Fluorescence methods, Microfluidic Analytical Techniques instrumentation, Miniaturization instrumentation, Oligonucleotide Array Sequence Analysis instrumentation, Spectrometry, Fluorescence instrumentation

Abstract

A miniaturised array of supercritical angle fluorescence (SAF) micro-optics embedded in a microfluidic chamber was fabricated by injection moulding. The fabricated chip could enhance the fluorescence signal around 46 times compared to a conventional microscope. Collection of the fluorescence signal from the SAF array is almost independent of the numerical aperture, and the limit of detection was improved 36-fold using a simple and inexpensive optical detection system.

Published

2015

21. A lab-on-a-chip system with integrated sample preparation and loop-mediated isothermal amplification for rapid and quantitative detection of Salmonella spp. in food samples.

Author

Sun Y, Quyen TL, Hung TQ, Chin WH, Wolff A, and Bang DD

Subjects

Coloring Agents pharmacology, DNA, Bacterial chemistry, DNA, Bacterial genetics, Intercalating Agents pharmacology, Limit of Detection, Magnets chemistry, Microspheres, Time Factors, Analytic Sample Preparation Methods instrumentation, Food Microbiology, Lab-On-A-Chip Devices, Nucleic Acid Amplification Techniques instrumentation, Salmonella enterica genetics, Salmonella enterica isolation & purification, Systems Integration

Abstract

Foodborne disease is a major public health threat worldwide. Salmonellosis, an infectious disease caused by Salmonella spp., is one of the most common foodborne diseases. Isolation and identification of Salmonella by conventional bacterial culture or molecular-based methods are time consuming and usually take a few hours to days to complete. In response to the demand for rapid on line or on site detection of pathogens, in this study, we describe for the first time an eight-chamber lab-on-a-chip (LOC) system with integrated magnetic bead-based sample preparation and loop-mediated isothermal amplification (LAMP) for rapid and quantitative detection of Salmonella spp. in food samples. The whole diagnostic procedures including DNA isolation, isothermal amplification, and real-time detection were accomplished in a single chamber. Up to eight samples could be handled simultaneously and the system was capable to detect Salmonella at concentration of 50 cells per test within 40 min. The simple design, together with high level of integration, isothermal amplification, and quantitative analysis of multiple samples in short time, will greatly enhance the practical applicability of the LOC system for rapid on-site screening of Salmonella for applications in food safety control, environmental surveillance, and clinical diagnostics.

Published

2015

22. An oligonucleotide-tagged microarray for routine diagnostics of colon cancer by genotyping KRAS mutations.

Author

Liu Y, Gudnason H, Li YP, Bang DD, and Wolff A

Subjects

Colorectal Neoplasms genetics, Genotyping Techniques methods, HT29 Cells, Humans, MCF-7 Cells, Mutation, Polymorphism, Single Nucleotide, Proto-Oncogene Proteins p21(ras), Sensitivity and Specificity, Colorectal Neoplasms diagnosis, Early Detection of Cancer methods, Oligonucleotide Array Sequence Analysis methods, Proto-Oncogene Proteins genetics, ras Proteins genetics

Abstract

Colorectal cancer (CRC) is one of the most prevalent types of cancer, causing significant morbidity and mortality worldwide. CRC is curable if diagnosed at an early stage. Mutations in the oncogene KRAS play a critical role in early development of CRC. Detection of activated KRAS is of diagnostic and therapeutic importance. In this study, KRAS gene fragments containing mutations in codon 12 were amplified by multiplex PCR using a 5'-Cy5-labeled reverse primer in combination with 3'-mutation-specific forward primers that were linked with four unique nucleotide-sequence tags at the 5'-end. The Cy5-labeled reverse primer was extended under PCR amplification to the 5'-end of the mutation-specific forward primers and thus included the complimentary sequence of the tag. PCR products were hybridized to tag-probes immobilized on various substrates and detected by a scanner. Our results indicate that all mutations at codon 12 of KRAS derived from cancer cells and clinical samples could be unambiguously detected. KRAS mutations were accurately detected when the mutant DNA was present only in 10% of the starting mixed materials including wild-type genomic DNA, which was isolated from either cancer cells or spiked fecal samples. The immobilized tag-probes were stable under multiple thermal cycling treatments, allowing re-use of the tag-microarray and further optimization to solid PCR. Our results demonstrated that a novel oligonucleotide-tagged microarray system has been developed which would be suitable to be used for detection of KRAS mutations and clinical diagnosis of CRC.

Published

2014

23. Pre-storage of gelified reagents in a lab-on-a-foil system for rapid nucleic acid analysis.

Author

Sun Y, Høgberg J, Christine T, Florian L, Monsalve LG, Rodriguez S, Cao C, Wolff A, Ruano-Lopez JM, and Bang DD

Subjects

Campylobacter jejuni genetics, Microfluidic Analytical Techniques instrumentation, Polymerase Chain Reaction, DNA, Bacterial analysis, Lab-On-A-Chip Devices, Microfluidic Analytical Techniques methods

Abstract

Reagent pre-storage in a microfluidic chip can enhance operator convenience, simplify the system design, reduce the cost of storage and shipment, and avoid the risk of cross-contamination. Although dry reagents have long been used in lateral flow immunoassays, they have rarely been used for nucleic acid-based point-of-care (POC) assays due to the lack of reliable techniques to dehydrate and store fragile molecules involved in the reaction. In this study, we describe a simple and efficient method for prolonged on-chip storage of PCR reagents. The method is based on gelification of all reagents required for PCR as a ready-to-use product. The approach was successfully implemented in a lab-on-a-foil system, and the gelification process was automated for mass production. Integration of reagents on-chip by gelification greatly facilitated the development of easy-to-use lab-on-a-chip (LOC) devices for fast and cost-effective POC analysis.

Published

2013

24. Gold Nanoparticles-Coated SU-8 for Sensitive Fluorescence-Based Detections of DNA.

Author

Cao C, Birtwell SW, Høgberg J, Morgan H, Wolff A, and Bang DD

Abstract

SU-8 epoxy-based negative photoresist has been extensively employed as a structural material for fabrication of numerous biological microelectro-mechanical systems (Bio-MEMS) or lab-on-a-chip (LOC) devices. However, SU-8 has a high autofluorescence level that limits sensitivity of microdevices that use fluorescence as the predominant detection workhorse. Here, we show that deposition of a thin gold nanoparticles layer onto the SU-8 surface significantly reduces the autofluorescence of the coated SU-8 surface by as much as 81% compared to bare SU-8. Furthermore, DNA probes can easily be immobilized on the Au surface with high thermal stability. These improvements enabled sensitive DNA detection by simple DNA hybridization down to 1 nM (a two orders of magnitude improvement) or by solid-phase PCR with sub-picomolar sensitivity. The approach is simple and easy to perform, making it suitable for various Bio-MEMs and LOC devices that use SU-8 as a structural material.

Published

2012

25. Effect of environmental stress factors on the uptake and survival of Campylobacter jejuni in Acanthamoeba castellanii.

Author

Bui XT, Qvortrup K, Wolff A, Bang DD, and Creuzenet C

Subjects

Bacterial Proteins biosynthesis, Campylobacter jejuni drug effects, Campylobacter jejuni radiation effects, Gene Expression drug effects, Gene Expression radiation effects, Gene Expression Profiling, Hot Temperature, Osmotic Pressure, Oxidative Stress, Real-Time Polymerase Chain Reaction, Virulence Factors biosynthesis, Acanthamoeba castellanii microbiology, Campylobacter jejuni physiology, Microbial Viability

Abstract

Background: Campylobacter jejuni is a major cause of bacterial food-borne illness in Europe and North America. The mechanisms allowing survival in the environment and transmission to new hosts are not well understood. Environmental free-living protozoa may facilitate both processes. Pre-exposure to heat, starvation, oxidative or osmotic stresses encountered in the environment may affect the subsequent interaction of C. jejuni with free-living protozoa. To test this hypothesis, we examined the impact of environmental stress on expression of virulence-associated genes (ciaB, dnaJ, and htrA) of C. jejuni and on its uptake by and intracellular survival within Acanthamoeba castellanii., Results: Heat, starvation and osmotic stress reduced the survival of C. jejuni significantly, whereas oxidative stress had no effect. Quantitative RT-PCR experiments showed that the transcription of virulence genes was slightly up-regulated under heat and oxidative stresses but down-regulated under starvation and osmotic stresses, the htrA gene showing the largest down-regulation in response to osmotic stress. Pre-exposure of bacteria to low nutrient or osmotic stress reduced bacterial uptake by amoeba, but no effect of heat or oxidative stress was observed. Finally, C. jejuni rapidly lost viability within amoeba cells and pre-exposure to oxidative stress had no significant effect on intracellular survival. However, the numbers of intracellular bacteria recovered 5 h post-gentamicin treatment were lower with starved, heat treated or osmotically stressed bacteria than with control bacteria. Also, while ~1.5 × 103 colony forming unit/ml internalized bacteria could typically be recovered 24 h post-gentamicin treatment with control bacteria, no starved, heat treated or osmotically stressed bacteria could be recovered at this time point. Overall, pre-exposure of C. jejuni to environmental stresses did not promote intracellular survival in A. castellanii., Conclusions: Together, these findings suggest that the stress response in C. jejuni and its interaction with A. castellanii are complex and multifactorial, but that pre-exposure to various stresses does not prime C. jejuni for survival within A. castellanii.

Published

2012

26. Survival of Campylobacter jejuni in co-culture with Acanthamoeba castellanii: role of amoeba-mediated depletion of dissolved oxygen.

Author

Bui XT, Winding A, Qvortrup K, Wolff A, Bang DD, and Creuzenet C

Subjects

Acanthamoeba castellanii microbiology, Acanthamoeba castellanii ultrastructure, Aerobiosis, Campylobacter jejuni growth & development, Campylobacter jejuni metabolism, Campylobacter jejuni ultrastructure, Coculture Techniques, Culture Media metabolism, Microbial Viability, Microscopy, Electron, Transmission, Vacuoles microbiology, Vacuoles ultrastructure, Acanthamoeba castellanii metabolism, Campylobacter jejuni physiology, Oxygen metabolism

Abstract

Campylobacter jejuni is a major cause of infectious diarrhoea worldwide but relatively little is known about its ecology. In this study, we examined its interactions with Acanthamoeba castellanii, a protozoan suspected to serve as a reservoir for bacterial pathogens. We observed rapid degradation of intracellular C.jejuni in A.castellanii 5 h post gentamicin treatment at 25°C. Conversely, we found that A.castellanii promoted the extracellular growth of C.jejuni in co-cultures at 37°C in aerobic conditions. This growth-promoting effect did not require amoebae - bacteria contact. The growth rates observed with or without contact with amoeba were similar to those observed when C.jejuni was grown in microaerophilic conditions. Preconditioned media prepared with live or dead amoebae cultivated with or without C.jejuni did not promote the growth of C.jejuni in aerobic conditions. Interestingly, the dissolved oxygen levels of co-cultures with or without amoebae - bacteria contact were much lower than those observed with culture media or with C.jejuni alone incubated in aerobic conditions, and were comparable with levels obtained after 24 h of growth of C.jejuni under microaerophilic conditions. Our studies identified the depletion of dissolved oxygen by A.castellanii as the major contributor for the observed amoeba-mediated growth enhancement., (© 2011 Society for Applied Microbiology and Blackwell Publishing Ltd.)

Published

2012

27. Direct immobilization of DNA probes on non-modified plastics by UV irradiation and integration in microfluidic devices for rapid bioassay.

Author

Sun Y, Perch-Nielsen I, Dufva M, Sabourin D, Bang DD, Høgberg J, and Wolff A

Subjects

DNA Probes radiation effects, DNA, Viral chemistry, DNA, Viral genetics, Influenza A virus genetics, Plastics radiation effects, Biological Assay methods, DNA Probes chemistry, Microfluidic Analytical Techniques methods, Oligonucleotide Array Sequence Analysis methods, Plastics chemistry, Ultraviolet Rays

Abstract

DNA microarrays have become one of the most powerful tools in the field of genomics and medical diagnosis. Recently, there has been increased interest in combining microfluidics with microarrays since this approach offers advantages in terms of portability, reduced analysis time, low consumption of reagents, and increased system integration. Polymers are widely used for microfluidic systems, but fabrication of microarrays on such materials often requires complicated chemical surface modifications, which hinders the integration of microarrays into microfluidic systems. In this paper, we demonstrate that simple UV irradiation can be used to directly immobilize poly(T)poly(C)-tagged DNA oligonucleotide probes on many different types of plastics without any surface modification. On average, five- and fourfold improvement in immobilization and hybridization efficiency have been achieved compared to surface-modified slides with aminated DNA probes. Moreover, the TC tag only costs 30% of the commonly used amino group modifications. Using this microarray fabrication technique, a portable cyclic olefin copolymer biochip containing eight individually addressable microfluidic channels was developed and used for rapid and parallel identification of Avian Influenza Virus by DNA hybridization. The one-step, cost-effective DNA-linking method on non-modified polymers significantly simplifies microarray fabrication procedures and permits great flexibility to plastic material selection, thus making it convenient to integrate microarrays into plastic microfluidic systems.

Published

2012

28. Reverse transcriptase real-time PCR for detection and quantification of viable Campylobacter jejuni directly from poultry faecal samples.

Author

Bui XT, Wolff A, Madsen M, and Bang DD

Subjects

Animals, Campylobacter Infections diagnosis, Campylobacter Infections microbiology, Campylobacter jejuni genetics, Campylobacter jejuni growth & development, Chickens, Poultry Diseases diagnosis, Campylobacter Infections veterinary, Campylobacter jejuni isolation & purification, Feces microbiology, Microbial Viability, Poultry Diseases microbiology, Reverse Transcriptase Polymerase Chain Reaction methods

Abstract

Campylobacter spp. is the most common cause of bacterial diarrhoea in humans worldwide. Therefore, rapid and reliable methods for detection and quantification of this pathogen are required. In this study, we have developed a reverse transcription quantitative real-time PCR (RT-qPCR) for detection and quantification of viable Campylobacter jejuni directly from chicken faecal samples. The results of this method and a DNA-based quantitative real-time PCR (qPCR) method were compared with those of a bacterial culture method. Using bacterial culture and RT-qPCR methods, viable C. jejuni cells could be detected for up to 5 days in both the C. jejuni spiked and the naturally contaminated faecal samples. We found that no RT-qPCR signals were obtained when viable C. jejuni cells could not be counted by the culture method. In contrast, using a DNA-based qPCR method, dead or non-viable Campylobacter cells were detected, and all tested samples were positive, even after 20 days of storage. The developed method for detection and quantification of viable C. jejuni cells directly from chicken faecal samples can be used for further research on the survival of Campylobacter in the environment., (Copyright © 2011 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2012

29. Fate and Survival of Campylobacter coli in Swine Manure at Various Temperatures.

Author

Bui XT, Wolff A, Madsen M, and Bang DD

Abstract

Campylobacter coli is the most common Campylobacter species found in pig (95%), but the ability of this bacterium to survive in swine manure as well as the potential for causing human illness are poorly understood. We present here laboratory-scale experiments to investigate the effect of temperature on the survival of C. coli in spiked swine manure samples at temperatures from 4 to 52°C. The survival of C. coli during storage for 30 days was studied by three different methods: bacterial culture (plate counting), DNA qPCR, and mRNA RT-qPCR. The results indicate that C. coli could survive in swine manure up to 24 days at 4°C. At higher temperatures, this bacterium survived only 7 days (15°C) or 6 days (22°C) of storage. The survival of C. coli was extremely short (few hours) in samples incubated at 42 and 52°C. The results from the RT-qPCR method were consistent with the data from the bacterial culture method, indicating that it detected only viable C. coli cells, thus eliminating false-positive resulting from DNA from dead C. coli cells.

Published

2011

30. Dual enlargement of gold nanoparticles: from mechanism to scanometric detection of pathogenic bacteria.

Author

Cao C, Gontard LC, Thuy Tram le L, Wolff A, and Bang DD

Subjects

Campylobacter, Catalysis, Metal Nanoparticles ultrastructure, Microscopy, Electron, Transmission, Nanotechnology methods, Bacteria, Gold chemistry, Metal Nanoparticles chemistry

Abstract

A mechanism of dual enlargement of gold nanoparticles (AuNPs) comprising two steps is described. In the first step, the AuNPs are enlarged by depositing Au atoms on their crystalline faces. In this process, the particles are not only enlarged but they are also observed to multiply: new Au nuclei are formed by the budding and division of the enlarged particles. In the second step, a silver enhancement is subsequently performed by the deposition of silver atoms on the enlarged and newly formed AuNPs to generate bimetallic Au@Ag core-shell structures. The dual nanocatalysis greatly enhances the electron density of the nanostructures, leading to a stronger intensity for colorimetric discrimination as well as better sensitivity for quantitative measurement. Based on this, a simple scanometric assay for the on-slide detection of the food-born pathogen Campylobacter jejuni is developed. After capturing the target bacteria, gold-tagged immunoprobes are added to create a signal on a solid substrate. The signal is then amplified by the dual enlargement process, resulting in a strong color intensity that can easily be recognized by the unaided eye, or measured by an inexpensive flatbed scanner. In this paper, dual nanocatalysis is reported for the first time. It provides a valuable mechanistic insight into the development of a simple and cost-effective detection format., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

31. A lab-on-a-chip device for rapid identification of avian influenza viral RNA by solid-phase PCR.

Author

Sun Y, Dhumpa R, Bang DD, Høgberg J, Handberg K, and Wolff A

Subjects

Adhesives chemistry, Animals, Glass chemistry, Influenza A Virus, H1N1 Subtype, Influenza A Virus, H5N1 Subtype, Oligonucleotide Array Sequence Analysis, Surface Properties, Time Factors, Influenza A virus, Lab-On-A-Chip Devices, Polymerase Chain Reaction instrumentation, RNA, Viral analysis, RNA, Viral genetics

Abstract

The endemic of Avian Influenza Virus (AIV) in Asia and epizootics in some European regions have caused serious economic losses. Multiplex reverse-transcriptase (RT) PCR has been developed to detect and subtype AIV. However, the number of targets that can be amplified in a single run is limited because of uncontrollable primer-primer interferences. In this paper, we describe a lab-on-a-chip device for fast AIV screening by integrating DNA microarray-based solid-phase PCR on a microfluidic chip. A simple UV cross-linking method was used to immobilize the DNA probes on unmodified glass surface, which makes it convenient to integrate microarray with microfluidics. This solid-phase RT-PCR method combined RT amplification of extracted RNA in the liquid phase and species-specific nested PCR on the solid phase. Using the developed approach, AIV viruses and their subtypes were unambiguously identified by the distinct patterns of amplification products. The whole process was reduced to less than 1 hour and the sample volume used in the microfluidic chip was at least 10 times less than in the literature. By spatially separating the primers, highly multiplexed amplification can be performed in solid-phase PCR. Moreover, multiplex PCR and sequence detection were done in one step, which greatly simplified the assay and reduced the processing time. Furthermore, by incorporating the microarray into a microchamber-based PCR chip, the sample and the reagent consumption were greatly reduced, and the problems of bubble formation and solution evaporation were effectively prevented. This microarray-based PCR microchip can be widely employed for virus detection and effective surveillance in wild avian and in poultry productions.

Published

2011

32. DNA microarray-based solid-phase RT-PCR for rapid detection and identification of influenza virus type A and subtypes H5 and H7.

Author

Sun Y, Dhumpa R, Bang DD, Handberg K, and Wolff A

Subjects

Animals, Birds, Electrophoresis, Agar Gel, Feces virology, Influenza A virus classification, Influenza A virus isolation & purification, RNA, Viral chemistry, RNA, Viral isolation & purification, Reproducibility of Results, Sensitivity and Specificity, Trachea virology, Viral Matrix Proteins chemistry, Viral Matrix Proteins genetics, Influenza A virus genetics, Influenza in Birds virology, Oligonucleotide Array Sequence Analysis methods, Reverse Transcriptase Polymerase Chain Reaction methods

Abstract

Endemic of avian influenza virus (AIV) in Asia and epizootics in some European regions have caused considerable public concern on a possible pandemic of AIV. A rapid method for virus detection and effective surveillance in wild avian, poultry production as well as in humans is required. In this article, a DNA microarray-based solid-phase polymerase chain reaction (PCR) approach has been developed for rapid detection of influenza virus type A and for simultaneous identification of pathogenic virus subtypes H5 and H7. This solid-phase RT-PCR method combined reverse-transcription amplification of RNA extract in the liquid phase with sequence-specific nested PCR on the solid phase. A simple ultraviolet cross-linking method was used to immobilize the DNA probes over an unmodified glass surface, which makes solid-phase PCR a convenient possibility for AIV screening. The testing of 33 avian fecal and tracheal swab specimens was completed in less than 2 h with 94% accuracy., (Copyright © 2011. Published by Elsevier Inc.)

Published

2011

33. Rapid detection of avian influenza virus in chicken fecal samples by immunomagnetic capture reverse transcriptase-polymerase chain reaction assay.

Author

Dhumpa R, Handberg KJ, Jørgensen PH, Yi S, Wolff A, and Bang DD

Subjects

Agglutination Tests, Animals, Antibodies, Monoclonal immunology, Antibodies, Viral immunology, Influenza A virus genetics, Influenza A virus immunology, Nucleocapsid Proteins, Poultry Diseases diagnosis, Poultry Diseases virology, RNA, Viral genetics, RNA, Viral isolation & purification, RNA-Binding Proteins immunology, Sensitivity and Specificity, Viral Core Proteins immunology, Chickens virology, Feces virology, Immunomagnetic Separation methods, Influenza A virus isolation & purification, Influenza in Birds diagnosis, Reverse Transcriptase Polymerase Chain Reaction methods

Abstract

Avian influenza virus (AIV) causes great economic losses for the poultry industry worldwide and threatens the human population with a pandemic. The conventional detection method for AIV involves sample preparation of viral RNA extraction and purification from raw sample such as bird droppings. In this study, magnetic beads were applied for immunoseparation and purification of AIV from spiked chicken fecal sample. The beads were conjugated with monoclonal antibodies against the AIV nucleoprotein, which is conserved in all the AIV. The bead-captured virus was detected by reverse transcriptase-polymerase chain reaction (RT-PCR) without RNA extraction because of effective removal of RT-PCR inhibitors. The developed bead-based assay showed a similar detection limit comparable to the RNA extraction and the classic virus isolation method. Using ready-to-use antibody-conjugated bead, the method requires less than 5 h. Furthermore, the method has potential to integrate into a Lab-on-a-chip system for rapid detection and identification of AIV., (Crown Copyright © 2011. Published by Elsevier Inc. All rights reserved.)

Published

2011

34. Campylobacter jejuni induces an anti-inflammatory response in human intestinal epithelial cells through activation of phosphatidylinositol 3-kinase/Akt pathway.

Author

Li YP, Vegge CS, Brøndsted L, Madsen M, Ingmer H, and Bang DD

Subjects

Animals, Campylobacter Infections microbiology, Campylobacter jejuni genetics, Campylobacter jejuni physiology, Cell Line, Chickens, Down-Regulation, Epithelial Cells metabolism, Humans, Interleukin-10 metabolism, Interleukin-8 metabolism, Intestines cytology, Mitogen-Activated Protein Kinases metabolism, Phosphorylation, Signal Transduction, Campylobacter Infections immunology, Campylobacter jejuni pathogenicity, Epithelial Cells microbiology, Host-Pathogen Interactions, Phosphatidylinositol 3-Kinase metabolism, Proto-Oncogene Proteins c-akt metabolism

Abstract

Campylobacter jejuni (C. jejuni) is the most common cause of human acute bacterial gastroenteritis. Poultry is a major reservoir of C. jejuni and considered an important source of human infections, thus, it is important to understand the host response to C. jejuni from chicken origin. In this study, we demonstrated firstly that a chicken isolate SC11 colonized chicks faster than clinical isolate NCTC11168. Using the SC11, we further studied the host responds to C. jejuni in terms of inflammatory response and involvement of cellular signaling pathways. Infection of C. jejuni SC11 was able to activate phosphatidylinositol 3-kinase (PI3K)/Akt pathway and induce pro-inflammatory interleukin-8 (IL-8) as well as anti-inflammatory cytokine IL-10 in human intestinal epithelial cell line Colo 205. The signalling pathways PI3K/Akt and mitogen-activated protein (MAP) kinases ERK and p38 were involved in C. jejuni-induced IL-8 and IL-10 expression. Inhibition of PI3K resulted in augmentation of C. jejuni-induced IL-8 production, concomitant with down-regulation of IL-10 mRNA, indicating an anti-inflammatory response was activated and associated with the activation of P13K/Akt. Similar effect was observed for cytolethal distending toxin (CDT) deficient mutants. Moreover, we demonstrated that heat-killed bacteria were able to induce IL-8 and IL-10 expression to a lower level than live bacteria. We therefore conclude that C. jejuni activate a PI3K/Akt-dependent anti-inflammatory pathway in human intestinal epithelial cells which may benefit the intracellular survival of C. jejuni during infection., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2011

35. Rapid sample preparation for detection and identification of avian influenza virus from chicken faecal samples using magnetic bead microsystem.

Author

Dhumpa R, Bu M, Handberg KJ, Wolff A, and Bang DD

Subjects

Animals, Chickens, Influenza in Birds virology, Feces virology, Immunomagnetic Separation methods, Influenza in Birds diagnosis, Poultry Diseases virology, Virology methods

Abstract

Avian influenza virus (AIV) is an infectious agent of birds and mammals. AIV is causing huge economic loss and can be a threat to human health. Reverse transcriptase polymerase chain reaction (RT-PCR) has been used as a method for the detection and identification of AIV virus. Although RT-PCR is a sensitive method for detection of AIV, it requires sample preparation including separation and purification of AIV and concentrate viral RNA. It is laborious and complex process especially for diagnosis using faecal sample. In this study, magnetic beads were used for immunoseparation of AIV in chicken faecal sample by a magnetic microsystem. Using this system, all the 16 hemagglutinin (H) and 9 neuraminidase (N) subtypes of AIV were separated and detected in spiked faecal samples using RT-PCR, without an RNA extraction step. This rapid sample preparation method can be integrated with a total analysis microsystem and used for diagnosis of AIV., (Copyright (c) 2010 Elsevier B.V. All rights reserved.)

Published

2010

36. Detection of avian influenza virus by fluorescent DNA barcode-based immunoassay with sensitivity comparable to PCR.

Author

Cao C, Dhumpa R, Bang DD, Ghavifekr Z, Høgberg J, and Wolff A

Subjects

Animals, Chickens, Influenza A virus pathogenicity, Biosensing Techniques, Immunoassay, Influenza A virus genetics, Influenza in Birds diagnosis, Influenza in Birds genetics, Reverse Transcriptase Polymerase Chain Reaction methods, Spectrometry, Fluorescence

Abstract

In this paper, a coupling of fluorophore-DNA barcode and bead-based immunoassay for detecting avian influenza virus (AIV) with PCR-like sensitivity is reported. The assay is based on the use of sandwich immunoassay and fluorophore-tagged oligonucleotides as representative barcodes. The detection involves the sandwiching of the target AIV between magnetic immunoprobes and barcode-carrying immunoprobes. Because each barcode-carrying immunoprobe is functionalized with a multitude of fluorophore-DNA barcode strands, many DNA barcodes are released for each positive binding event resulting in amplification of the signal. Using an inactivated H16N3 AIV as a model, a linear response over five orders of magnitude was obtained, and the sensitivity of the detection was comparable to conventional RT-PCR. Moreover, the entire detection required less than 2 hr. The results indicate that the method has great potential as an alternative for surveillance of epidemic outbreaks caused by AIV, other viruses and microorganisms.

Published

2010

37. Energy taxis drives Campylobacter jejuni toward the most favorable conditions for growth.

Author

Vegge CS, Brøndsted L, Li YP, Bang DD, and Ingmer H

Subjects

Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, Campylobacter jejuni genetics, Campylobacter jejuni metabolism, Carbon chemistry, Cell Line, Tumor, Cells, Cultured, Chemotaxis, Chick Embryo, Chickens, Colon cytology, Colon microbiology, Epithelial Cells microbiology, Gene Deletion, Humans, Intestines cytology, Intestines microbiology, Membrane Proteins genetics, Membrane Proteins metabolism, Methyl-Accepting Chemotaxis Proteins, Sodium Azide pharmacology, Campylobacter jejuni growth & development, Campylobacter jejuni physiology, Carbon metabolism, Electron Transport, Movement

Abstract

Campylobacter jejuni is a serious food-borne bacterial pathogen in the developed world. Poultry is a major reservoir, and C. jejuni appears highly adapted to the gastrointestinal tract of birds. Several factors are important for chicken colonization and virulence, including a taxis mechanism for environmental navigation. To explore the mechanism of chemotaxis in C. jejuni, we constructed mutants with deletions of five putative mcp (methyl-accepting chemotaxis protein) genes (tlp1, tlp2, tlp3, docB, and docC). Surprisingly, the deletions did not affect the chemotactic behavior of the mutants compared to that of the parental strain. However, the tlp1, tlp3, docB, and docC mutant strains displayed a 10-fold decrease in the ability to invade human epithelial and chicken embryo cells, hence demonstrating that the corresponding proteins affect the host interaction. l-Asparagine, formate, d-lactate, and chicken mucus were identified as new attractants of C. jejuni, and we observed that chemical substances promoting tactic attraction are all known to support the growth of this organism. The attractants could be categorized as carbon sources and electron donors and acceptors, and we furthermore observed a correlation between an attractant's potency and its efficiency as an energy source. The tactic attraction was inhibited by the respiratory inhibitors HQNO (2-n-heptyl-4-hydroxyquinoline N-oxide) and sodium azide, which significantly reduce energy production by oxidative phosphorylation. These findings strongly indicate that energy taxis is the primary force in environmental navigation by C. jejuni and that this mechanism drives the organism toward the optimal chemical conditions for energy generation and colonization.

Published

2009

38. The SmartBioPhone, a point of care vision under development through two European projects: OPTOLABCARD and LABONFOIL.

Author

Ruano-López JM, Agirregabiria M, Olabarria G, Verdoy D, Bang DD, Bu M, Wolff A, Voigt A, Dziuban JA, Walczak R, and Berganzo J

Subjects

Europe, International Cooperation, User-Computer Interface, Lab-On-A-Chip Devices, Micro-Electrical-Mechanical Systems instrumentation, Point-of-Care Systems

Abstract

This paper describes how sixteen partners from eight different countries across Europe are working together in two EU projects focused on the development of a point of care system. This system uses disposable Lab on a Chips (LOCs) that carry out the complete assay from sample preparation to result interpretation of raw samples. The LOC is either embedded in a flexible motherboard with the form of a smartcard (Labcard) or in a Skinpatch. The first project, OPTOLABCARD, extended and tested the use of a thick photoresit (SU-8) as a structural material to manufacture LOCs by lamination. This project produced several examples where SU-8 microfluidic circuitry revealed itself as a viable material for several applications, such as the integration on chip of a Polymerase Chain Reaction (PCR) that includes sample concentration, PCR amplification and optical detection of Salmonella spp. using clinical samples. The ongoing project, LABONFOIL, is using two results of OPTOLABCARD: the sample concentration method and the capability to fabricate flexible and ultra thin LOCs based on sheets instead of wafers. This rupture from the limited and expensive wafer surface heritage allows the development of a platform where LOCs are big enough to include all the sample preparation subcomponents at a low price. These LOCs will be used in four point of care applications: environment, food, cancer and drug monitoring. The user will obtain the results of the tests by connecting the Labcard/Skinpatch reader to a very popular interface (a smartphone), creating a new instrument namely "The SmartBioPhone". All standard smartphone capabilities will be at the disposal of the point of care instrument by a simple click. In order to guarantee the future mass production of these LOCs, the project will develop a large dry film equipment where LOCs will be fabricated at a low cost.

Published

2009

39. Cytokine responses in primary chicken embryo intestinal cells infected with Campylobacter jejuni strains of human and chicken origin and the expression of bacterial virulence-associated genes.

Author

Li YP, Ingmer H, Madsen M, and Bang DD

Subjects

Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, Campylobacter jejuni genetics, Campylobacter jejuni isolation & purification, Campylobacter jejuni pathogenicity, Cells, Cultured, Chick Embryo, Chickens, Cytokines metabolism, Humans, Intestinal Mucosa metabolism, Intestines immunology, Intestines microbiology, Nitric Oxide metabolism, Nitric Oxide Synthase Type II metabolism, Poultry Diseases microbiology, Virulence Factors metabolism, Campylobacter Infections microbiology, Campylobacter Infections veterinary, Campylobacter jejuni immunology, Cytokines genetics, Gene Expression, Poultry Diseases immunology, Virulence Factors genetics

Abstract

Background: Campylobacter jejuni is a major cause of inflammatory diarrhoea in humans and is considered a commensal of the gastroenteric tract of the avian host. However, little is known about the interaction between C. jejuni and the avian host including the cytokine responses and the expression of the bacterial genes. We have investigated the invasiveness of primary chicken embryo intestinal cells (CEICs) by C. jejuni strains of human and chicken origins and the production of pro-inflammatory cytokines as well as the expression of the bacterial virulence-associated genes during co-cultivation., Results: C. jejuni strains are capable of invading the CEICs and stimulate these cells in a pro-inflammatory manner and during this interaction the expression of the bacterial virulence-associated genes ciaB, dnaJ and racR is increased. Furthermore, incubation of bacteria with conditioned cell- and bacteria-free media from another co-cultivation experiment also increased the expression of the virulence-associated genes in the C. jejuni chicken isolate, indicating that the expression of bacterial genes is regulated by component(s) secreted upon co-cultivation of bacteria and CEICs., Conclusion: We show that under in vitro culture condition C. jejuni strains of both human and chicken origins can invade avian host cells with a pro-inflammatory response and that the virulence-associated genes of C. jejuni may play a role in this process.

Published

2008

40. Comparison of multiple DNA dyes for real-time PCR: effects of dye concentration and sequence composition on DNA amplification and melting temperature.

Author

Gudnason H, Dufva M, Bang DD, and Wolff A

Subjects

Benzothiazoles, DNA analysis, Diamines, Fluorescent Dyes analysis, Nucleic Acid Denaturation, Organic Chemicals analysis, Organic Chemicals chemistry, Quinolines, Temperature, Time Factors, DNA chemistry, Fluorescent Dyes chemistry, Polymerase Chain Reaction methods

Abstract

The importance of real-time polymerase chain reaction (PCR) has increased steadily in clinical applications over the last decade. Many applications utilize SYBR Green I dye to follow the accumulation of amplicons in real time. SYBR Green I has, however, a number of limitations that include the inhibition of PCR, preferential binding to GC-rich sequences and effects on melting curve analysis. Although a few alternative dyes without some of these limitations have been recently proposed, no large-scale investigation into the properties of intercalating dyes has been performed. In this study, we investigate 15 different intercalating DNA dyes for their inhibitory effects on PCR, effects on DNA melting temperature and possible preferential binding to GC-rich sequences. Our results demonstrated that in contrast to the results of SYBR Green I, two intercalating dyes SYTO-13 and SYTO-82 do not inhibit PCR, show no preferential binding to GC rich sequences and do not influence melting temperature, T(m), even at high concentrations. In addition, SYTO-82 demonstrated a 50-fold lower detection limit in a dilution series assay. In conclusion, the properties of SYTO-82 and SYTO-13 will simplify the development of multiplex assays and increase the sensitivity of real-time PCR.

Published

2007

41. Towards a portable microchip system with integrated thermal control and polymer waveguides for real-time PCR.

Author

Wang Z, Sekulovic A, Kutter JP, Bang DD, and Wolff A

Subjects

Bacterial Outer Membrane Proteins genetics, Campylobacter jejuni genetics, Campylobacter jejuni isolation & purification, Carbocyanines analysis, Carrier Proteins genetics, DNA biosynthesis, DNA, Bacterial analysis, DNA, Bacterial biosynthesis, Miniaturization, Optics and Photonics, Organic Chemicals analysis, Polymers chemistry, DNA analysis, Electrophoresis, Microchip instrumentation, Polymerase Chain Reaction instrumentation, Polymerase Chain Reaction methods

Abstract

A novel real-time PCR microchip platform with integrated thermal system and polymer waveguides has been developed. The integrated polymer optical system for real-time monitoring of PCR was fabricated in the same SU-8 layer as the PCR chamber, without additional masking steps. Two suitable DNA binding dyes, SYTOX Orange and TO-PRO-3, were selected and tested for the real-time PCR processes. As a model, cadF gene of Campylobacter jejuni has been amplified on the microchip. Using the integrated optical system of the real-time PCR microchip, the measured cycle threshold values of the real-time PCR performed with a dilution series of C. jejuni DNA template (2 to 200 pg/microL) could be quantitatively detected and compared with a conventional post-PCR analysis (DNA gel electrophoresis). The presented approach provided reliable real-time quantitative information of the PCR amplification of the targeted gene. With the integrated optical system, the reaction dynamics at any location inside the micro reaction chamber can easily be monitored.

Published

2006

42. Dielectrophoresis microsystem with integrated flow cytometers for on-line monitoring of sorting efficiency.

Author

Wang Z, Hansen O, Petersen PK, Rogeberg A, Kutter JP, Bang DD, and Wolff A

Subjects

Miniaturization, Saccharomyces cerevisiae cytology, Cell Separation methods, Electrophoresis, Microchip instrumentation, Flow Cytometry instrumentation, Online Systems instrumentation

Abstract

Dielectrophoresis (DEP) and flow cytometry are powerful technologies and widely applied in microfluidic systems for handling and measuring cells and particles. Here, we present a novel microchip with a DEP selective filter integrated with two microchip flow cytometers (FCs) for on-line monitoring of cell sorting processes. On the microchip, the DEP filter is integrated in a microfluidic channel network to sort yeast cells by positive DEP. The two FCs detection windows are set upstream and downstream of the DEP filter. When a cell passes through the detection windows, the light scattered by the cell is measured by integrated polymer optical elements (waveguide, lens, and fiber coupler). By comparing the cell counting rates measured by the two FCs, the collection efficiency of the DEP filter can be determined. The chips were used for quantitative determination of the effect of flow rate, applied voltage, conductivity of the sample, and frequency of the electric field on the sorting efficiency. A theoretical model for the capture efficiency was developed and a reasonable agreement with the experimental results observed. Viable and non-viable yeast cells showed different frequency dependencies and were sorted with high efficiency. At 2 MHz, more than 90% of the viable and less than 10% of the non-viable cells were captured on the DEP filter. The presented approach provides quantitative real-time data for sorting a large number of cells and will allow optimization of the conditions for, e.g., collecting cancer cells on a DEP filter while normal cells pass through the system. Furthermore, the microstructure is simple to fabricate and can easily be integrated with other microstructures for lab-on-a-chip applications.

Published

2006

43. Numerical analysis of DNA microarray data of Campylobacter jejuni strains correlated with survival, cytolethal distending toxin and haemolysin analyses.

Author

On SL, Dorrell N, Petersen L, Bang DD, Morris S, Forsythe SJ, and Wren BW

Subjects

Animals, Bacterial Toxins biosynthesis, Campylobacter jejuni pathogenicity, Campylobacter jejuni physiology, Cattle, Cell Line, Chick Embryo, Chickens, Chlorocebus aethiops, Genome, Bacterial, Hemolysin Proteins genetics, Humans, Swine, Turkeys, Vero Cells, Virulence, Bacterial Toxins genetics, Campylobacter jejuni genetics, Hemolysin Proteins biosynthesis, Microbial Viability, Oligonucleotide Array Sequence Analysis methods

Abstract

Molecular epidemiological studies of the enteric pathogen Campylobacter jejuni have suggested that not all animal isolates are equally pathogenic to humans. We examined the use of numerical analysis of whole-genomotype data as a potential tool for evaluating C. jejuni virulence potential. Whole-genome microarray analysis was used to determine the gene-level complementarity of 12 Danish strains to the pathogenic, genome-sequenced strain NCTC 11168. Cytolethal distending toxin (CDT) and haemolysin activities, and survival characteristics under aerobic conditions at room temperature were also determined. Among the strains examined, 439 genes were polymorphic. Numerical analysis of these data by use of the squared Euclidean distance coefficient and Ward's clustering method clearly delineated strains into two clusters. CDT and haemolysin activities of cluster 1 strains were not statistically significantly different from cluster 2 strains. However, viability during aerobic incubation of cluster 1 strains was statistically significantly lower than corresponding estimates of cluster 2 strains. The number of missing or highly divergent genes in cluster 1 strains with respect to NCTC 11168 was also statistically significantly greater compared with those of cluster 2 strains. Sixty-seven genes present in NCTC 11168 were characteristically missing or divergent among cluster 1 strains. Of these, 53 genes were localised within 11 major gene clusters, of which eight were associated with surface structures and included flagellar, lipo-oligosaccharide, and membrane transport proteins. Our data indicate a correlation between C. jejuni genomic content, particularly in surface-coding regions, and its capacity for environmental survival, and may help explain why certain serotypes are more commonly reported in human disease.

Published

2006

44. Campylobacter jejuni strains of human and chicken origin are invasive in chickens after oral challenge.

Author

Knudsen KN, Bang DD, Andresen LO, and Madsen M

Subjects

Animals, Caco-2 Cells, Campylobacter Infections microbiology, Campylobacter Infections transmission, Campylobacter jejuni isolation & purification, Campylobacter jejuni pathogenicity, Cell Line, HeLa Cells, Humans, Specific Pathogen-Free Organisms, Campylobacter Infections veterinary, Campylobacter jejuni physiology, Chickens microbiology, Poultry Diseases microbiology

Abstract

The aim of the study was to evaluate the colonizing ability and the invasive capacity of selected Campylobacter jejuni strains of importance for the epidemiology of C jejuni in Danish broiler chickens. Four C. jejuni strains were selected for experimental colonization studies in day-old and 14-day-old chickens hatched from specific pathogen free (SPF) eggs. Of the four C. jejuni strains tested, three were Penner heat-stable serotype 2, flaA type 1/1, the most common type found among broilers and human cases in Denmark. The fourth strain was Penner heat-stable serotype 19, which has been shown to be associated with the Guillain Barré Syndrome (GBS) in humans. The minimum dose for establishing colonization in the day-old chickens was approximately 2 cfu, whereas two- to threefold higher doses were required for establishing colonization in the 14-day-old chickens. Two of the C. jejuni strains were shown to be invasive in orally challenged chickens as well as in three different human epithelial cell lines.

Published

2006

45. Evaluation of the suitability of six host genes as internal control in real-time RT-PCR assays in chicken embryo cell cultures infected with infectious bursal disease virus.

Author

Li YP, Bang DD, Handberg KJ, Jorgensen PH, and Zhang MF

Subjects

Animals, Birnaviridae Infections microbiology, Cell Survival, Cells, Cultured, Chick Embryo, Gene Expression Regulation genetics, RNA, Messenger analysis, RNA, Messenger genetics, Reference Standards, Birnaviridae Infections genetics, Gene Expression Profiling, Infectious bursal disease virus genetics, Infectious bursal disease virus physiology, Reverse Transcriptase Polymerase Chain Reaction methods, Reverse Transcriptase Polymerase Chain Reaction standards

Abstract

Infectious bursal disease virus (IBDV) can cause disease in chickens characterized by immunosuppression and high mortality. Currently, real-time RT-PCR has been used to quantitate virus-specific RNA and to better understand host response to infection. However, normalization of quantitative real-time RT-PCR is needed to a suitable internal control. We thus investigated the expression pattern of six chicken genes, including beta-actin, 28S rRNA, 18S rRNA, glyceraldehyde-3-phosphate dehydrogenase (GAPDH), TATA box-binding protein (TBP) and beta-2-microglobulin, in chicken embryo (CE) cell cultures following a 7-day IBDV infection. The CE cells were inoculated with various multiplicity of infection (MOI) of IBDV vaccine strain Bursine-2, the expression of genes was measured by quantitative real-time PCR-based on cDNA synthesized from either normalized (100 ng) or non-normalized (10 microl) total RNA. The results showed that beta-actin, 28S rRNA, 18S rRNA and GAPDH were the most constantly expressed genes, while TBP and beta-2-microglobulin were markedly induced during the infection course. Of these constant expressed genes, 28S rRNA and 18S rRNA are highly expressed; beta-actin intermediately expressed and GAPDH had a lower expression level in CE cell cultures. Also, beta-actin showed no significant variation in both normalized and non-normalized assays and virus dose-independent of inoculation, while other genes did. beta-Actin was further successfully used as an internal control to quantitate Bursine-2 virus-specific RNA load in CE cell cultures. Thus, beta-actin was suggested as a suitable internal control in studying gene expression as well as virus-specific RNA load in CE cell after IBDV infection.

Published

2005

46. Campylobacter concisus: an evaluation of certain phenotypic and genotypic characteristics.

Author

Engberg J, Bang DD, Aabenhus R, Aarestrup FM, Fussing V, and Gerner-Smidt P

Subjects

Animals, Bacterial Toxins genetics, Campylobacter isolation & purification, Campylobacter pathogenicity, Carrier State microbiology, Chlorocebus aethiops, Cytotoxins genetics, Denmark, Humans, Phenotype, RNA, Ribosomal, 23S genetics, Random Amplified Polymorphic DNA Technique, Ribotyping, Vero Cells, Campylobacter genetics, Campylobacter Infections microbiology, Diarrhea microbiology

Abstract

The clinical relevance of Campylobacter concisus in gastrointestinal disease has not been determined definitively. This study investigated the phenotypic and genotypic characteristics of 39 C. concisus isolates from Danish patients with diarrhoea, three isolates from healthy individuals and the type strain. A cytolethal distending toxin (CDT)-like effect on Vero cells was observed in 35 (90%) isolates from patients with diarrhoea, in all three isolates from healthy individuals and in the type strain. Analysis of SDS-PAGE protein profiles and PCR amplification of 23S rDNA assigned the isolates into two distinct, but discordant groups. Automated ribotyping (RiboPrinting) identified 34 distinct patterns among the 43 isolates, but cluster analysis did not separate isolates from patients with diarrhoea from isolates from healthy patients. Random amplified polymorphic DNA (RAPD) analysis with three primers identified 37 unique profiles, but requires further evaluation. The isolates obtained from healthy carriers were distinguished by cluster analysis from the isolates obtained from patients with diarrhoea. All the isolates were susceptible to 11 antimicrobial agents tested. Overall, there was considerable variability between the C. concisus isolates, but there were no clear phenotypic or genotypic differences between isolates from patients with diarrhoea and isolates from healthy carriers. Further evidence is needed to support the possible role of C. concisus as a human enteric pathogen.

Published

2005

47. Genotyping of Campylobacter jejuni strains from Danish broiler chickens by restriction fragment length polymorphism of the LPS gene cluster.

Author

Knudsen KN, Bang DD, Nielsen EM, and Madsen M

Subjects

Animals, Bacterial Typing Techniques methods, Campylobacter Infections genetics, DNA, Bacterial genetics, Denmark, Gastrointestinal Diseases genetics, Genes, Bacterial genetics, Genotype, Campylobacter jejuni genetics, Chickens microbiology, Food Microbiology, Lipopolysaccharides biosynthesis, Polymorphism, Restriction Fragment Length

Abstract

Aims: To apply and evaluate LG (LPS genes) genotyping, which is a genotyping method based on a cluster of genes involved in the synthesis of surface lipopolysaccharides (LPS) in Campylobacter species, for typing of Campylobacter jejuni isolates obtained from Danish broiler chickens. Furthermore, the LG genotyping method was used to study the genetic stability of four C. jejuni strains after gastrointestinal passage through experimentally infected chickens., Methods and Results: In the present study, the LG genotyping method was modified with respect to the restriction enzymes used. To validate the method, 63 Penner serotype reference strains and 107 C. jejuni chicken isolates, representing the most common Penner serotypes of C. jejuni in Danish poultry, were selected for typing. The method was successfully used for typing all isolates and the LG genotype profiles were reproducible. There were no changes in the LG genotype of the C. jejuni strains obtained after experimental passage through chickens., Conclusions: All C. jejuni strains obtained from broiler chickens were typeable by the LG genotyping method. Application of the RsaI restriction enzyme improved the method in terms of ease and consistency of analyses and increase of discriminatory power., Significance and Impact of the Study: The LG genotyping method is a valuable tool for typing C. jejuni isolates obtained from poultry. However, the association between Penner serotyping based on passive haemagglutination of heat-stable antigens and LG genotyping was low when applied to poultry isolates. This is in contrast to previous studies on isolates of human origin that reported a high correlation between results obtained by the two typing methods (Shi et al. 2002).

Published

2005

48. Detection of seven virulence and toxin genes of Campylobacter jejuni isolates from Danish turkeys by PCR and cytolethal distending toxin production of the isolates.

Author

Bang DD, Borck B, Nielsen EM, Scheutz F, Pedersen K, and Madsen M

Subjects

Animals, Campylobacter Infections microbiology, Campylobacter jejuni pathogenicity, Chick Embryo, Chickens, Chlorocebus aethiops, Denmark epidemiology, Humans, Polymerase Chain Reaction, Vero Cells, Virulence genetics, Bacterial Toxins genetics, Campylobacter Infections veterinary, Campylobacter jejuni genetics, Genes, Bacterial, Poultry Diseases microbiology, Turkeys microbiology

Abstract

A total of 117 Campylobacter jejuni isolates from Danish turkeys were tested for the presence of seven virulence and toxin genes by PCR. One hundred seventeen (100%) isolates were positive for flaA, cadF, and ceuE gene primers. One hundred three (88%) isolates were positive for cdt gene cluster PCR detection (cdt gene cluster-PCR), whereas 101 (86.3%), 102 (87.2%), and 110 (94%) isolates were positive for cdtA-, cdtB-, and cdtC-PCR, respectively. Only 39 (33.3%) isolates were positive for virB11. Of 117 isolates, 114 (97.4%) produced cytolethal distending toxin (CDT) in Vero cell assays, 105 (89.7%) in Colon 205 assays, and 109 (93.2%) in chicken embryo cell assays. The CDT titers were determined in Vero cell assays. Of 117 isolates, 50 (42.7%) produced a CDT titer of 1:100, 29 (24.8%) of 1:50, and 27 (23%) of 1:5 to 1:10; 8 (6.8%) produced a CDT titer at undiluted supernatants and 3 (2.6%) produced no toxin. Twenty-nine C. jejuni isolates that were PCR negative for one or more individual cdt toxin genes also produced low or no CDT toxin. The high prevalence of the seven virulence and toxin genes demonstrates that these putative pathogenic determinants are widespread among Campylobacter isolates from turkeys and calls for further investigation for the elimination of Campylobacter infection in industrial turkey production and in industrial food chains.

Published

2004

49. Use of culture, PCR analysis, and DNA microarrays for detection of Campylobacter jejuni and Campylobacter coli from chicken feces.

Author

Keramas G, Bang DD, Lund M, Madsen M, Bunkenborg H, Telleman P, and Christensen CB

Subjects

Animals, Base Sequence, Campylobacter coli genetics, Campylobacter jejuni genetics, Chickens, DNA Primers, Feces microbiology, Polymerase Chain Reaction methods, Specimen Handling methods, Specimen Handling veterinary, Campylobacter coli isolation & purification, Campylobacter jejuni isolation & purification, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction veterinary

Abstract

A DNA microarray for detection of Campylobacter spp. was recently developed and applied to detect Campylobacter spp. directly from chicken feces. Sixty-five pooled chicken cloacal swab samples from 650 individual broiler chickens were included in the study. The results of Campylobacter sp. detection obtained with DNA microarrays were compared to those obtained by conventional culture and gel electrophoresis. By conventional culture, 60% of the samples were positive for either Campylobacter jejuni or Campylobacter coli. By PCR and capillary electrophoresis, 95% of the samples were positive for Campylobacter spp., whereas with DNA microarrays all samples were positive for Campylobacter spp. By application of DNA microarray analysis, the isolates in 4 samples (6%) could not be identified to the species level, whereas by PCR-capillary electrophoresis, the isolates in 12 samples (19%) remained unidentified. Interestingly, PCR-capillary electrophoresis analysis revealed that two (3%) of the samples were positive for both C. jejuni and C. coli, while DNA microarray analysis revealed that nine (14%) of the samples were positive for both species. Of 65 samples, 2 samples were identified to contain C. coli by conventional culture but were positive for C. jejuni by both PCR-capillary electrophoresis and DNA microarray analysis. The discrepancy between the methods is discussed.

Published

2004

50. Flies and Campylobacter infection of broiler flocks.

Author

Hald B, Skovgård H, Bang DD, Pedersen K, Dybdahl J, Jespersen JB, and Madsen M

Subjects

Animal Husbandry, Animals, Campylobacter Infections microbiology, Campylobacter Infections transmission, Housing, Animal, Poultry Diseases microbiology, Seasons, Ventilation, Campylobacter Infections veterinary, Campylobacter jejuni isolation & purification, Chickens microbiology, Diptera microbiology, Insect Vectors microbiology

Abstract

A total of 8.2% of flies caught outside a broiler house in Denmark had the potential to transmit Campylobacter jejuni to chickens, and hundreds of flies per day passed through the ventilation system into the broiler house. Our study suggests that flies may be an important source of Campylobacter infection of broiler flocks in summer.

Published

2004