Suitability of scienciometric analysis targeting Loop Mediated Isothermal Amplification Assay applied to farm animals / Adequação da análise cienciométrica direcionada ao ensaio de Amplificação Isotérmica Mediada por Alça aplicada à animais de produção

The objective of the study was to carry out, with the aid of Scopus®️, a scientometric analysis of Loop Mediated Isothermal Amplification Assay (LAMP) applied to farm animals. The research has considered articles from January 2000 to December 2019 and only open or closed access articles published in English. The bibliometric matrices were run through RStudio, applying Biblioshiny as a web interface to Bibliometrix resources for R environment. Later, several bibliometric data were collected with the aid of Bibliometrix, most of which were converted into graphs using Microsoft Excel®️. The scientometric analysis base of the current study was composed by 438 articles from 504 researched in the Scopus®️. Of the 438 articles analyzed, it stands out as results: 1) the years of 2015 (11,4%) and 2019 (11,4%) had equally the highest number of publications in the area; 2) Journal of Virological Methods (12,5%) ranked first in the ranking of journals according to total articles published; 3) China (49,8%), Japan (12,7%) and India (7,1%) have been countries of more published articles; 4) most articles applied the assay to detect microorganisms affecting the farm animals; and, 5) together, the animal groups fish, bovine, poultry, and swine corresponded to 2/3 (71,1%) of the animals used in scientific research using the LAMP method. With all these results, it is concluded that the scientometric analysis showed an overview of the information in the articles about LAMP applied to farm animals.

First Report of Crown Gall of Kiwifruit (Actinidia deliciosa) Caused by Agrobacterium fabacearum in China and the Establishment of Loop-Mediated Isothermal Amplification Technique

Kiwifruit is moderately sweet and sour and quite popular among consumers; it has been widely planted in some areas of the world. In 2019, the crown gall disease of kiwifruit was discovered in the main kiwifruit-producing area of Guizhou Province, China. This disease can weaken and eventually cause the death of the tree. The phylogeny, morphological and biological characteristics of the bacteria were described, and were related to diseases. The pathogenicity of this species follows the Koch hypothesis, confirming that A. fabacearum is the pathogen of crown gall disease of kiwifruit in China. In this study, Loop-mediated isothermal amplification (LAMP) analysis for genome-specific gene sequences was developed for the specific detection of A. fabacearum. The detection limit of the LAMP method is 5 × 10−7 ng/μL, which has high sensitivity. At the same time, the amplified product is stained with SYBR Green I after the reaction is completed, so that the amplification can be detected with the naked eye. LAMP analysis detected the presence of A. fabacearum in the roots and soil samples of the infected kiwifruit plant. The proposed LAMP detection technology in this study offers the advantages of ease of operation, visibility of results, rapidity, accuracy and high sensitivity, making it suitable for the early diagnosis of crown gall disease of kiwifruit.

Development and comparison of loop-mediated isothermal amplification with quantitative PCR for the specific detection of Saprolegnia spp.

Saprolegniasis is an important disease in freshwater aquaculture, and is associated with oomycete pathogens in the genus Saprolegnia. Early detection of significant levels of Saprolegnia spp. pathogens would allow informed decisions for treatment which could significantly reduce losses. This study is the first to report the development of loop-mediated isothermal amplification (LAMP) for the detection of Saprolegnia spp. and compares it with quantitative PCR (qPCR). The developed protocols targeted the internal transcribed spacer (ITS) region of ribosomal DNA and the cytochrome C oxidase subunit 1 (CoxI) gene and was shown to be specific only to Saprolegnia genus. This LAMP method can detect as low as 10 fg of S. salmonis DNA while the qPCR method has a detection limit of 2 pg of S. salmonis DNA, indicating the superior sensitivity of LAMP compared to qPCR. When applied to detect the pathogen in water samples, both methods could detect the pathogen when only one zoospore of Saprolegnia was present. We propose LAMP as a quick (about 20–60 minutes) and sensitive molecular diagnostic tool for the detection of Saprolegnia spp. suitable for on-site applications.

Visual LAMP Method for Detection of Vibrio vulnificus in Aquatic Products and Environmental Water

Background A visualized, rapid, simple method was developed based on loop-mediated isothermal amplification (LAMP) assay to detect Vibrio vulnificus in aquatic products and aquaculture waters.Results Genomic DNA was extracted from Vibrio vulnificus using the boiling and column extraction methods and optimized primers were used to detect the gyrB gene using a visual LAMP method. The sensitivity of the assay was 10 fg/μL, and the results were stable and reliable. Of 655 aquatic product samples and 558 aquaculture waters samples, the positive rates of Vibrio vulnificus detection were 9.01% and 8.60%, respectively, which is markedly higher than that of the traditional culture identification methods. Conclusion The relatively simple technical requirements, low equipment costs, and rapid detection time make the visual LAMP method for detection of Vibrio vulnificus a convenient choice for field diagnosis in the aquaculture industry.

Loop-Mediated Isothermal Amplification (LAMP) Assay for Rapid Detection of viable but non-culturable Vibrio cholerae O1

<i>Vibrio cholerae</i>, an important waterborne pathogen, is a rod-shaped bacterium that naturally exists in aquatic environments. When conditions are unfavorable for growth, the bacterium can undergo morphological and physiological changes to assume a coccoid morphology. This stage in its life cycle is referred to as viable but non-culturable (VBNC) since VBNC cells do not grow on conventional bacteriological culture media. The current study compared polymerase chain reaction (PCR) and loop-mediated isothermal amplification (LAMP) to detect and identify VBNC <i>V. cholerae</i>. Because it is difficult to detect and identify VBNC <i>V. cholerae</i>, the results of the current study are useful in showing LAMP to be more sensitive and rapid than PCR in detecting and identifying non-culturable, coccoid forms of <i>V. cholerae</i>. Furthermore, the LAMP method is effective in detecting and identifying very low numbers of coccoid VBNC <i>V. cholerae</i> in environmental water samples, with the added benefit of being inexpensive to perform.

Development of a New LAMP Assay for the Detection of Ancylostoma caninum DNA (Copro-LAMPAc) in Dog Fecal Samples

Ancylostoma caninum is a zoonotic nematode which is able to affect animals and humans. Diagnosis in the definitive host and environmental detection are key to prevent its dissemination and achieve control. Herein, a new coprological LAMP method for the detection of A. caninum (Copro-LAMPAc) DNA was developed. DNA extraction was performed using a low-cost method and a fragment of the cox-1 gene was used for primer design. The analytical sensitivity, evaluated with serial dilutions of genomic DNA from A. caninum adult worms, was 100 fg. A specificity of 100% was obtained using genomic DNA from the host and other pathogens. The Copro-LAMPAc was evaluated using environmental canine fecal samples. When compared with gold standard optical microscopy in epidemiological studies, it proved to be more sensitive. This new LAMP assay can provide an alternative protocol for screening and identification of A. caninum for epidemiological studies in endemic areas.

The Sensitivity and Specificity of Loop-Mediated Isothermal Amplification and PCR Methods in Detection of Foodborne Mi-croorganisms: A Systematic Review and Meta-Analysis

Background: The loop-mediated isothermal amplification (LAMP) method is frequently used for identifying many microorganisms. The present review aimed to evaluate the sensitivity and specificity of LAMP method for detection of food-borne bacteria and to compare these features with those of polymerase chain reaction (PCR), as an alternative molecular diagnostic procedure, and with cultivation method, as the gold standard method. Methods: The literature was searched in electronic databases (PubMed, Scopus, Web of Science, and EMBASE) for recruiting publications within Jan 2000 to Jul 2021. We used the combinations of keywords including foodborne disease, LAMP, PCR, Loop-mediated isothermal amplification, and polymerase chain reaction. Meta-analysis was used to adjust the correlation and heterogeneity between the studies. The efficiency of the methods was presented by negative likelihood ratio, positive likelihood ratio, sensitivity, specificity, and odds ratio using forest plots. A P-value less than 0.05 was considered as statistical significance cut off. The confidence intervals were presented at the 95% interval. Results: Overall, 23 relevant studies were analyzed. The sensitivities of LAMP and PCR methods were estimated to be 96.6% (95% CI: 95.0-97.7) and 95.6% (95%CI: 91.5-97.8), respectively. The specificities of LAMP and PCR were also estimated to be 97.6% (95%CI: 92.6-99.3) and 98.7% (95%CI: 96.5-99.5), respectively. Conclusion: The specificities of LAMP and PCR assays were determined by comparing their results with cultivation method as the gold standard. Overall, the specificity of both PCR and LAMP methods was low for detection of fastidious bacteria. Nevertheless, LAMP and PCR methods have acceptable specificities and sensitivities, and their application in clinical practice necessitates more studies.

Rolling Circle and Loop Mediated Isothermal Amplification Strategy for Ultrasensitive miRNA Detection

Rolling circle amplification (RCA) and loop mediated isothermal amplification (LAMP) were combined to establish the rolling circle and loop mediated isothermal amplification (RC-LAMP) method for miRNA detection. With the participation of Bst 2.0 DNA Polymerase, the method enabled RCA and LAMP amplification to occur simultaneously without thermal cycling. The limit of detection of RC-LAMP was 500 amol/L, which is comparable to previously reported amplification strategies. Moreover, its upper limit of quantitation was higher and showed a stronger resistance to matrix interference. Therefore, it is possible to detect low concentrations of miRNA in samples by increasing the total RNA added. Owing to its facile detection mode and simple operation, this method has great potential in clinical sample detection.

Development and evaluation of a loop-mediated isothermal amplification assay (LAMP) for the diagnosis of campylobacteriosis

Background: Different species of Campylobacter are the most common causes of bacterial gastroenteritis. There are many methods to detect the presence of Campylobacter, including PCR, but it takes about 5-6 hours. Using loop-mediated amplification assay allowed reducing the time of detection and simplifying the procedure at all. Aims: To develop a loop-mediated isothermal amplification assay (LAMP) with fluorescent probe for the diagnosis of campylobacteriosis. Methods: Stool suspensions were prepared and bacterial fractions were separated as in methodological recommendation of Central Research Institute of Epidemiology described. DNA was extracted using AmpliTest RIBO-prep (FSBI SPC FMBA, Russian Federation) according to the manufacturers instruction and detected with AmpliSens OKI-screen-FL" (FBIS CRIE, Russian Federation). Primers and probes were selected in 16S rDNA gene region. Analytical specificity was confirmed on bacterial cultures, analytical sensitivity was assessed using a recombinant plasmid containing the target Campylobacter DNA sequence fragment. LAMP amplification was performed at 65 C for 30 min. Results: An assay for the detection of Campylobacter spp. based on loop-mediated isothermal amplification is developed, the reaction time does not exceed 30 minutes. The analytical sensitivity of the developed technique is comparable to the real-time PCR and is equal to 103 copies / ml, the analytical specificity is 100%. The evaluation of 127 clinical samples, previously characterized by the commercial kit "AmpliSens OKI-screen-FL" (FBIS CRIE, Russian Federation), showed high diagnostic specificity and sensitivity of the developed LAMP-method. No false positive results were found, 108 samples were negative by LAMP and PCR. Campylobacter spp. DNA was detected by the LAMP method in 18 out of 19 PCR-positive samples. One discordant LAMP negative sample can be attributed to the low bacterial load of Campylobacter spp. for a given sample. Conclusions: A method for the rapid detection of Campylobacter spp. loop-mediated isothermal amplification is developed, and its high analytical and diagnostic characteristics have been shown experimentally. Keywords: Gastrointestinal infections, molecular diagnostics, rapid diagnostics, Loop-Mediated Isothermal Amplification (LAMP), Campylobacter spp.

A rapid, sensitive, specific and visual detection of Salmonella in retail meats using the loop-mediated isothermal amplification (LAMP), targeting the invA gene

Salmonella is one of the major pathogenic bacteria causing food-borne diseases. The rapid detection of Salmonella in food is of great significance to food safety. In this study, the loop-mediated isothermal amplification (LAMP) method was developed and the primers were designed targeting the invA gene of Salmonella. Then, the standard samples of recombinant invA-plasmid and 100 retail meat samples were tested by LAMP and compared with the results tested by the conventional PCR and the routine China National Food Safety Standard Methods for Food Microbiological Examination-Salmonella (GB/T4789.4-2016), respectively. The results showed that Salmonella strains of 8 different serotypes were amplified successfully by the developed LAMP assay. And, it was 1000-fold more sensitive than the conventional PCR with the analytical sensitivity of 8×102 copies/μL of the standard sample of invA-plasmid. The results were visualized directly by adding Calcein/MnCl2 into the LAMP reaction tube and the positively amplified products turned green after an incubation of 2 min. In the parallel detection, the positive rate of Salmonella by the LAMP assay was highly correlated with the routine China national standard method. The results of the study demonstrated that the developed LAMP assay is a simple, rapid, strongly specific, highly sensitive and visual detection method for Salmonella.