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Objective To investigate the association of 13 single nucleotide polymorphism(SNP)sites in 6 phalange-bone development related genes[fibroblast growth factor receptor 2(FGFR2),indian hedgehog signaling molecule(IHH),Msh homeobox 1(MSX1),Runx family transcription factor 2(RUNX2),SRY-box transcription factor 9(SOX9),Wnt family member 5A(WNT5A)]with human index-ring finger length ratio(2D∶4D).Methods Digital cameras were used to take frontal photographs of the hands of 731 college students(358 males and 373 females)in Ningxia,and image analysis software was used to mark anatomical points and measure finger lengths of index(2th)and ring(4th);genotyping of 13 SNP sites(rs1047057,rs755793,rs41258305,rs3731881,rs3100776,rs12532,rs3821949,rs45585135,rs3749863,rs1042667,rs12601701,rs1829556,rs3732750)for 6 genes by multiplex PCR;One-Way ANOVA or independent sample t-test indirectly assessed the association between 2D∶4D and 13 SNP sites.Results Both left and right hand 2D∶4D were significantly higher in females than males in Ningxia college students(all P<0.01);no statistically significant differences in genotype and allele frequencies of the 13 SNP sites among different sexes(all P>0.05);among different sexes,male left hand 2D∶4D was significantly associated with the genotype of SOX9 gene rs12601701 site(P<0.05)and right hand 2D∶4D was significantly associated with the genotype of WNT5A gene rs1829556 site(P<0.05);the female right hand 2D∶4D was significantly associated with the MSX1 gene rs12532(P<0.01)and rs3821949(P<0.05)sites genotypes.Conclusion SOX9(rs12601701),WNT5A(rs1829556)and MSX1(rs12532 and rs3821949)gene polymorphisms may be associated with the formation of 2D∶4D in Ningxia population.
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Aims@#This study aimed to detect bacterial pathogens that cause sexually transmitted diseases (STD) using multiplex polymerase chain reaction and reverse hybridization.@*Methodology and results@#Thirty urine samples were collected from male patients aged between 20 and 45 in Dohuk City who were suspected of having an STD. The samples were tested for the presence of five main types of bacteria, namely Ureaplasma urealyticum, Neisseria gonorrhoeae, Mycoplasma hominis, Mycoplasma genitalium and Chlamydia trachomatis responsible for causing STDs. Nineteen of the thirty urine samples were positive for at least one of the five species of bacteria, yielding a positive rate of 63.3%. Ureaplasma urealyticum had the highest diagnostic rate of 68.4% among positive samples, while C. trachomatis had the lowest diagnosis rate of 5.2%. Both N. gonorrhoeae and M. hominis had a 15.7% diagnosis rate, while M. genitalium had a 10.5% diagnosis rate. @*Conclusion, significance and impact of study @#Research findings suggest that U. urealyticum was the most common cause of STD, accounting for 68.4% of the positive samples. Conversely, the study identifies C. trachomatis as the least prevalent cause, accounting for only 5.2% of the cases. These noteworthy findings shed light on the prevalence of these bacterial pathogens in sexually transmitted diseases, laying the groundwork for more precise and effective diagnostic and treatment options.
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Objective To investigate the association between the index finger and ring finger length ratio (2D ∶ 4D) and of four loci (rs6461992‚ rs6968828‚ rs7801581‚ rs17427875) polymorphism of homeobox (HOX) A11 gene among Ningxia college students. Methods Digit camera was used to collect frontal hand photos of 667 Han college students (348 males and 319 females) from Ningxia province; Image analysis software was used to mark the anatomical points and measure finger lengths of the index and ring fingers of both hands; multiplex PCR was used to detect each locus polymorphisms of HOXA11 gene; statistical software was used to compare and analyze the differences and associations of 2D ∶4D and gene polymorphisms between different genders. Results Among Ningxia Han college students‚ both left hand and right hand 2D ∶ 4D were significantly higher in females than those of in males (all P< 0. 05)‚ and there were no significant sex differences in right-left hand 2D ∶4D; the genotypes and allele frequencies of rs7801581 locus of HOXA11 gene differed significantly between genders (all P < 0. 05)‚ and none of the other locus polymorphisms showed any significant sex differences; only female left hand 2D ∶4D was significantly associated with rs6461992 locus genotype in the relationship between 2D ∶4D and HOXA11 polymorphisms (P<0. 05). Conclusion There were significant sex differences in 2D ∶ 4D among Han college students in Ningxia‚ and the rs6461992 locus polymorphism of HOXA11 gene may be associated with the formation of 2D ∶4D in females.
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Resumen Antecedentes: Las infecciones de transmisión sexual son un problema de salud pública mundial. El análisis rutinario incluye solo pruebas microbiológicas y serológicas para el diagnóstico de patógenos. Los microorganismos atípicos como Chlamydia trachomatis y micoplasmas no son identificados debido a los requerimientos. Además, no es incluida Gardnerella vaginalis, aunque se asocia a la vaginosis bacteriana. Objetivo: Desarrollar una PCR múltiplex para el diagnóstico de C. trachomatis, micoplasmas y G. vaginalis. Método: Se estandarizó la PCR múltiplex utilizando oligonucleótidos para C. trachomatis (gen ompA, orf6 plasmídico), Mycoplasma/Ureaplasma y G. vaginalis (genes rRNA16s). Resultados: Se estandarizaron pruebas de PCR múltiplex para los microorganismos estudiados, optimizándose las concentraciones y condiciones de las reacciones múltiplex. Se obtuvieron PCR dúplex para C. trachomatis (ompA, orf6), Chlamydia/Gardnerella y Chlamydia/micoplasmas y tríplex para Chlamydia/Mycoplasma/Ureaplasma. También un cuádruplex para Chlamydia/Mycoplasma/Ureaplasma/Gardnerella. Los resultados fueron verificados por PCR e hibridación automática (HybriSpot 12) y análisis in silico. Conclusión: Se desarrollaron pruebas de PCR múltiplex con una alta sensibilidad y especificidad para la identificación de C. trachomatis, micoplasmas y G. vaginalis.
Abstract Background: Sexually transmitted infections are a global public health problem. Routine analysis includes microbiological and serological tests for the diagnosis of pathogens. Atypical microorganisms such as Chlamydia trachomatis and mycoplasmas are not determined due to the requirements for their identification. Furthermore, Gardnerella vaginalis is not included despite being associated with bacterial vaginosis. Objective: To develop a multiplex PCR to diagnose Chlamydia, mycoplasmas, and Gardnerella. Method: Standardization of multiplex PCR tests was carried out using oligonucleotides for the identification of Chlamydia (ompA gene, plasmid orf6), Mycoplasma/Ureaplasma and Gardnerella (rRNA16s genes). Results: Multiplex PCR tests were standardized for the microorganisms studied, optimizing the concentrations and conditions of the multiplex reactions. Duplex PCR was obtained for Chlamydia (ompA, orf6), Chlamydia/Gardnerella, and Chlamydia/mycoplasmas, and triplex PCR for Chlamydia/mycoplasmas. Also, a quadruplex for Chlamydia, Mycoplasma/Ureaplasma and Gardnerella. PCR and automatic hybridization verified the results obtained (HybriSpot 12) and in silico analysis. Conclusion: Multiplex PCR tests with high sensitivity and specificity were developed to identify C. trachomatis, mycoplasmas, and G. vaginalis.
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INTRODUCCIÓN: La diarrea aguda continúa siendo una de las principales causas de morbilidad en niños; sin embargo, el diagnóstico etiológico presenta limitaciones dada la baja sensibilidad de los métodos tradicionales. OBJETIVO: Describir los microorganismos identificados en niños que acudieron al Servicio de Urgencia (SU) de un hospital universitario en Santiago, Chile, por diarrea aguda y a los que se le solicitó panel molecular gastrointestinal. MÉTODOS: Se revisaron fichas clínicas y resultados de panel gastrointestinal realizados entre junio de 2017 y marzo de 2020. RESULTADOS: Se incluyeron 198 pacientes, edad promedio de 54,5 meses y 60,6% (120/198) de sexo masculino. La positividad del panel fue de 78,8% (156/198) con 35,3% (55/156) de las muestras polimicrobianas. Se identificaron 229 microorganismos, de los cuales 72,9% (167/229) corresponden a bacterias, 25,8% (59/229) a virus y 1,3% (3/229) a parásitos. Destacaron Campylobacter spp. y Escherichia coli enteropatógena (ECEP) como las bacterias más frecuentemente identificadas. Los pacientes con detección de Campylobacter spp. presentaron con mayor frecuencia fiebre (p = 0,00). ECEP se aisló principalmente (82,5%) en muestras polimicrobianas. DISCUSIÓN: Los resultados enfatizan el potencial que poseen los estudios moleculares para mejorar el diagnóstico etiológico de la diarrea, pero a la vez llevan a cuestionar el rol patogénico de algunos microorganismos identificados.
BACKGROUND: Acute diarrhea continues to be one of the main causes of morbidity in children, however the etiologica diagnosis presents limitations given the low sensitivity of traditional methods. AIM: To describe the microorganisms identified in children who attended the emergency department (ED) in Santiago, Chile, due to acute diarrhea and to whom a gastrointestinal panel was requested as part of their study. MATERIAL AND METHODS: Clinical records and results of the gastrointestinal panel carried out between June 2017 and March 2020 were reviewed. RESULTS: 198 patients were included, the average age was 54.5 months and 60.6% (120/198) were males. Positivity was 78.8% (156/198) with 35.3% (55/156) of the samples being polymicrobial. 229 microorganisms were identified, of which 72.9% (167/229) corresponded to bacteria, 25.8% (59/229) to viruses, and 1.3% (3/229) to parasites. Campylobacter spp. and enteropathogenic Escherichia coli (EPEC) were the most frequently identified bacteria. Patients with detection of Campylobacter spp. presented a higher frequency of fever (p = 0.00). EPEC was isolated in 82.5% of the cases in polymicrobial samples. DISCUSSION: The results emphasize the potential of molecular studies to improve the etiological diagnosis of diarrhea and at the same time lead to question the pathogenic role of some microorganisms.
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Humans , Male , Female , Diarrhea/diagnosis , Feces/microbiology , Parasites/isolation & purification , Seasons , Bacteria/isolation & purification , Viruses/isolation & purification , Chile , Retrospective Studies , Diarrhea/etiology , Diarrhea/epidemiology , Emergency Service, Hospital , Feces/parasitologyABSTRACT
Background: The quinolone group, a synthetic antimicrobial, is widely used worldwide to treat many diseases, including those caused by Gram-negative bacteria. Escherichia coli and others are among the bacteria that produce quinolone resistance genes (qnr) such as qnrA and aac(6?)-Ib-cr. Objective: The present study aimed to the isolate Escherichia coli from patients attending some Hospitals in Wad Medani city, identification of drug resistance patterns and detection of the frequency of quinolones resistance genes; qnrA and aac(6?)-Ib-cr among isolated strains. Methods: A cross-sectional descriptive, hospital-based study included 119 Escherichia coli strains was conducted. A designed questionnaire used for demographic data collection and the attitude toward antimicrobials usage. Clinical specimens were processed for aerobic bacterial isolation and identification. Antimicrobial sensitivity performed by Kirby Bauer disc diffusion technique according to the CLSI guidelines. Presence of qnrA and aac(6?)-Ib-cr genes was assessed by multiplex PCR. Results: Most strains of Escherichia coli originated from urine 53.8% (64/119) and wounds 42.9% (51/119) specimens. Meropenem had the best effect against tested strains with susceptibility of 85% (101/119). Multiplex PCR assay, using specific primers, demonstrated that 41.2% (49/119) and 37.8% (45/119) of isolated Escherichia coli possessed qnrA and aac(6?)-Ib-cr genes respectively. Conclusion: The high rate of qnrA and aac (6)-Ib-cr genes among Escherichia coli necessitate the usage of molecular tools in detecting the genetic determinants of drug resistance microorganisms in countries such as Sudan.
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Advancements in Polymerase Chain Reaction (PCR) technology and other techniques like Deoxyribonucleic acid (DNA)signal and target amplification have become key procedures in molecular diagnostics. PCR enables the synthesis of nucleic acids in vitro through which a DNA segment can be specifically replicated in a semiconservative way that sets forth deletion and mutation analysis. Multiplex PCR (M-PCR) is beneficial over standard and long PCR as this can amplify more than one locus using the respective primer sets. In harmony with this, the present study aimed to optimize M-PCR followed by its chemistry and condition to screen Duchenne Muscular Dystrophy (DMD) [OMIM #310200] and Becker Muscular Dystrophy (BMD) [OMIM #300376]. Muscular Dystrophies (MDs) are a broad group of hereditary, progressive, and degenerative disorders of muscles. X-linked recessive D/BMD are caused by mutation/s in the dystrophin gene [OMIM #300377] that encodes for dystrophin protein [UniProt#P11532]. As dystrophin is the human metagene with 79 exons, mutational analysis is very challenging. Chamberlain set (10 plex), Beggs set (9 Plex), and Kunkel set (7 Plex) is used for many years to diagnose this condition. However, in this study, Beggs set is customized with 13 exons to screen DMD gene mutation in a single reaction. Optimization of M-PCR was designed with many physicochemical parameters. According to the literature and after many appraisals the present study demonstrated the most sufficient concentration of various chemical components and optimal cycling conditions to optimize the modified Beggs set (13 Plex). 50 µL PCR reaction includes primer(s) (0.3–0.5 µM each), dNTP mixture (160 µM each), Dream Taq buffer (1X), Taq DNA polymerase (6U/50 µL), DNA template (250 ng/50 µL), BSA (0.4 µg/µL), and MgCl2 (1.4 mM). To get the most effective results cyclic conditions obtained were 10 min initial denaturation at 94°C, 62°C annealing temperature, and 35 PCR cycles at 72°C extending temperature. Consequently, the study successfully formulated a less expensive and simple approach for >3000 bp that was used to screen D/BMD. Finally, a developed M-PCR mix with a unique combination of specificity and sensitivity coupled with great flexibility has led to a true revolution in molecular diagnostics.
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ObjectiveTo establish a set of single nucleotide polymorphisms (SNP) detection protocol for inbred rats based on multiplex PCR-ligase detection reaction (LDR). MethodsA total of 40 rats SNP sites were selected on chromosomes 1-20 and X of rats among 5 inbred strains of rats, and the 40 SNP sites were randomly divided into four groups. A genetic detection protocol for 4 groups of SNP in inbred rats based on multiplex PCR-LDR technology was constructed. 9 commonly used rat strains from two other domestic rat suppliers were detected by this protocol. Finally, the feasibility of this protocol was verified by comparing the amplification effects of different DNA polymerases by a third-party laboratory. ResultsWhen using the constructed SNP detection protocol for inbred rats to test 5 rat strains, all sites in each sample obtained good amplification results. The 9 commonly used rat strains from two other rat suppliers in china were also well amplified by this SNP detection protocol, and 40 SNPs were homozygous in each Inbred strain. The results of detection of the same rat DNA samples with three different DNA polymerases showed that the Multiplex PCR Kit, AmpliTaq Gold 360 DNA polymerase and Platinum II Taq hot start DNA polymerase had electrophoretic peaks of amplification products at all SNP sites in groups 1 to 3, and Platinum II Taq hot start DNA polymerase had one less electrophoretic peak of the amplification products at the SNP sites in group 4. In addition, inter-laboratory comparisons showed consistent results for the same amplification system. ConclusionBased on multiplex PCR-LDR technology, this study successfully established a SNP detection protocol for rats covering all autosomes and X chromosomes with the excellent stability and repeatability.
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Objective To investigate the association between 8 single-nucleotide polymorphisms (SNPs) of hydroxysteroid dehydrogenase (HSD) gene family and human digit ratio (2D ∶ 4D). Methods Randomly selected 808 college students (400 males and 408 females) as subjects, the digit ratio of left and right fingers were measured and calculated using computer image software. Eight SNPs (rs1000283, rs2236903, rs5479, rs56303414, rs676387, rs4445895, rs2066474, rs8190478) in HSD11B and HSD17B gene families were genotyped by multiplex PCR. The association between 2D ∶4D and different genotypes was analyzed by One-Way ANOVA. Results Female left hand(L)2D ∶ 3D, L2D ∶4D, L3D ∶4D, right hand(R)2D ∶4D, R2D ∶5D were significantly higher than male (P0. 05). The genotypes frequency of the 8 SNPs were not significantly associated with digit ratio (2D ∶4D) in both males and females (P>0. 05). Conclusion There are significant gender differences in digit ratio in Ningxia Han college students, but there is no correlation between digit ratio and 8 SNPs in HSD11B and HSD17B gene families, suggesting that HSD11B and HSD17B gene families may have nothing to do with the formation of human digit ratio.
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Introducción. Las infecciones de transmisión sexual (ITS) son y seguirán siendo un serio problema de salud pública en todo el mundo según los datos de la OMS, con el agravante que la mayoría de los casos son asintomáticos y, además, no existe otro reservorio distinto al humano. El diagnóstico se puede realizar con pruebas tradicionales y moleculares, estas últimas incluyen la reacción en cadena de la polimerasa (PCR), de las cuales existen varios tipos, entre ellas, la PCR múltiple que tiene la capacidad de detectar ITS polimicrobianas a partir de una sola muestra. El objetivo de este estudio fue establecer cuáles fueron las infecciones de transmisión sexual más frecuentes en diferentes grupos de pacientes, así como determinar la utilidad del uso de la técnica de PCR múltiple en el diagnóstico de las ITS. Metodología. Se trata de un estudio observacional de corte transversal realizado entre los años 2021 y 2022 con pacientes que acudieron al servicio de diagnóstico del Laboratorio Clínico VID por sospecha de ITS. Las muestras recolectadas fueron evaluadas utilizando una prueba comercial basada en la técnica de PCR múltiple e hibridación. Las muestras procesadas fueron: orina e hisopados de endocérvix, uretra, recto, faringe y úlceras. Resultados. Se estudiaron 1.027 pacientes, de estos, 228 (22,2 %) fueron positivos para diferentes agentes de trasmisión sexual, distribuidos así: 50 (21,9 %) mujeres, 129 (56,6 %) hombres heterosexuales y 49 (21,5 %) hombres que tenían sexo con hombres (HSH). La edad promedio de las mujeres fue 30 años, y la de ambos grupos de hombres fue 36 años. Los microorganismos más frecuentemente identificados en mujeres fueron: C. trachomatis (A-K) en 28,6 %, seguido de virus herpes simplex tipo 2 (VHS-2) en 26,8 % y N. gonorrhoeae en 17,9 %. En hombres heterosexuales fueron C. trachomatis (A-K) en 37,5 %, N. gonorrhoeae en 21,5 % y VHS-2 en 18,7 %. En HSH fueron C. trachomatis (L1-L3) en 32,7 %, seguido de N. gonorrhoeae en 27,6 %, y de C. trachomatis (A-K) y VHS-2, ambos en 13,8 %. En 11 hombres heterosexuales, 8 HSH y en 6 mujeres, se identificó infección polimicrobiana. Conclusiones. C. trachomatis (A-K) fue el microorganismo más prevalente causante de ITS, seguido de N. gonorrhoeae en ambos grupos de hombres, y de VHS-2 en las mujeres, muy similar a lo reportado a nivel mundial. La prueba de PCR múltiple permite la detección de infecciones polimicrobianas comúnmente asociadas a ITS y el diagnóstico es preciso y confiable, incluso en pacientes asintomáticos
Sexually transmitted infections (STIs) are and will continue to be a serious public health problem throughout the world according to WHO data, with the aggravating factor that most cases are asymptomatic and, furthermore, there is no other reservoir other than humans. The diagnosis can be made with traditional and molecular tests, the latter include the polymerase chain reaction (PCR), of which there are several types, among them, multiplex PCR that has the capacity to detect polymicrobial STIs from a single sample. The objective of this study was to establish which were the most frequent sexually transmitted infections in different groups of patients, as well as to determine the usefulness of the multiplex PCR technique in the diagnosis of STIs. Methodology. This is an observational, cross-sectional study carried out between 2021 and 2022 with patients who attended the VID Clinical Laboratory for suspected STIs. The collected samples were evaluated using a commercial test based on the multiplex PCR technique and hybridization. The samples processed were: urine and swabs from endocervix, urethra, rectum, pharynx, and ulcers. Results. The study included 1,027 patients, of these, 228 (22.2%) were positive for different sexually transmitted agents, distributed as follows: 50 (21.9%) women, 129 (56.6%) heterosexual men and 49 (21.5%) men who had sex with men (MSM). The average age of the women was 30 years, and that of both groups of men was 36 years. The microorganisms most frequently identified in women were: C. trachomatis (A-K) in 28.6%, followed by herpes simplex virus type 2 (HSV-2) in 26.8% and N. gonorrhoeae in 17.9%. In heterosexual men they were C. trachomatis (A-K) in 37.5%, N. gonorrhoeae in 21.5% and HSV-2 in 18.7%. In MSM they were C. trachomatis (L1-L3) in 32.7%, followed by N. gonorrhoeae in 27.6%, and C. trachomatis (A-K) and HSV-2, both in 13.8%. Polymicrobial infection was identified in 11 heterosexual men, 8 MSM, and 6 women. Conclusions. C. trachomatis (A-K) was the most prevalent STI-causing microorganism, followed by N. gonorrhoeae in both groups of men, and HSV-2 in women, very similar to that reported worldwide. The multiplex PCR test allows the detection of polymicrobial infections commonly associated with STIs and the diagnosis is accurate and reliable, even in asymptomatic patients
Subject(s)
Humans , Polymerase Chain Reaction , Sexually Transmitted Diseases , Chlamydia trachomatis , Herpesvirus 2, Human , Molecular Diagnostic Techniques , Neisseria gonorrhoeaeABSTRACT
Resumen: Introducción: el inicio temprano de la antibioticoterapia adecuada en infecciones graves se asocia con reducción de la mortalidad. La identificación precoz del microorganismo es fundamental para realizar un tratamiento dirigido y disminuir la terapéutica inicial inapropiada. Objetivo: valorar la utilidad de una técnica de biología molecular por amplificación de ácidos nucleicos mediante reacción en cadena de polimerasa en tiempo real para diagnóstico microbiológico temprano y adecuación de la antibioticoterapia en pacientes con neumonías graves. Metodología: estudio retrospectivo observacional llevado a cabo en la unidad de cuidados intensivos del Hospital Maciel. Se analizaron muestras respiratorias de pacientes con diagnóstico o sospecha de neumonía. Se compararon los resultados microbiológicos obtenidos por técnicas convencionales y por biología molecular multiplex (panel neumonía). Resultados: se incluyeron 53 muestras obtenidas de 51 pacientes. El multiplex detectó al menos un microorganismo en 38 (71,7%) muestras frente a 30 (56.6%) desarrollos en cultivos tradicionales. La mayoría de las muestras se obtuvieron bajo antibioticoterapia previa (86.8%). El panel neumonía mostró un porcentaje de concordancia positiva combinado de 100% y un porcentaje de concordancia negativa del 94% para la identificación bacteriana en comparación con los métodos microbiológicos tradicionales. En 27 (51%) casos el resultado del panel de neumonía determinó un cambio en la conducta terapéutica. Conclusiones: la técnica de PCR permite la identificación temprana de microorganismos causantes de neumonía optimizando la terapéutica empírica inicial y racionalizando el uso de antimicrobianos. Un panel negativo aleja el planteo de infección respiratoria a gérmenes habituales y permite considerar diagnósticos diferenciales en cuanto a foco y/o etiología.
Summary: Introduction: the early initiation of the adequate antibiotic therapy in severe infections is associated to a reduction in mortality. Early identification of the microorganism is essential to define directed therapy and decrease the initial inadequate treatment. Objective: to assess usefulness of a molecular biology technique by nucleic acid amplification through a polymerase chain reaction in real time for an early microbiological diagnosis and correction of the antibiotic therapy in patients with severe pneumonias. Method: retrospective, observational study conducted in the intensive care unit of Maciel Hospital. The respiratory samples of patients with a diagnosis of pneumonia or suspicious to have pneumonia were analyzed. The microbiological results obtained were compared using conventional techniques and multiplex molecular biology (pneumonia panel). Results: 53 samples obtained from 51 patients were included in the study. Multiplex detected at least one microorganism in 38 (71.7%) samples compared to 30 (56.6%) in traditional cultures. Most samples were obtained under the previous antibiotic therapy (86.8%). The pneumonia panel showed a combined positive agreement percentage of 100% and a negative agreement of 94% for the identification of bacteria when compared to the traditional microbiological methods. In 27 cases (51%) the pneumonia panel results determined changing the therapeutic behavior. Conclusions: the PCR technique allows for the early identification of microorganisms causing pneumonia, thus optimizing initial empirical therapy and rationalizing the use of antibiotics. A negative panel reduces the suspicion of a respiratory infection caused by the usual germs and enables considering differential diagnosis in terms of etiology or cause.
Resumo: Introdução: o início precoce da antibioticoterapia adequada em infecções graves está associado à redução da mortalidade. A identificação precoce do microrganismo é essencial para realizar o tratamento dirigido e reduzir o uso inicial inadequado de antimicrobianos. Objetivo: avaliar a utilidade de uma técnica de biologia molecular para amplificação de ácidos nucleicos por reação em cadeia da polimerase em tempo real para diagnóstico microbiológico precoce e adequação da antibioticoterapia em pacientes com pneumonia grave. Metodologia: estudo observacional retrospectivo realizado na unidade de terapia intensiva do Hospital Maciel. Amostras respiratórias de pacientes com diagnóstico ou suspeita de pneumonia foram analisadas. Os resultados microbiológicos obtidos por técnicas convencionais e por biologia molecular multiplex (painel de pneumonia) foram comparados. Resultados: foram incluídas 53 amostras obtidas de 51 pacientes. O multiplex detectou pelo menos um microrganismo em 38 (71,7%) amostras em comparação com 30 (56,6%) usando culturas tradicionais. A maioria das amostras foi obtida com antibioticoterapia prévia (86,8%). O painel de pneumonia mostrou uma concordância percentual positiva combinada de 100% e uma concordância percentual negativa de 94% para identificação bacteriana em comparação com métodos microbiológicos tradicionais. Em 27 (51%) casos, o resultado do painel de pneumonia determinou mudança no comportamento terapêutico. Conclusões: a técnica de PCR permite a identificação precoce de microrganismos causadores de pneumonia, otimizando a terapia empírica inicial e racionalizando o uso de antimicrobianos. Um painel negativo afasta a suspeita de infecção respiratória pelos germes usuais e permite considerar diagnósticos diferenciais em termos de foco e/ou etiologia.
Subject(s)
Pneumonia/microbiology , Pneumonia/drug therapy , Multiplex Polymerase Chain Reaction , Intensive Care Units , Pneumonia/diagnosis , Critical CareABSTRACT
Background & objectives: Coexistence of tick-borne diseases in some regions in Latin America makes the diagnosis difficult due to shared initial signs and symptoms. Rickettsiosis, Lyme disease and recently, scrub typhus are gaining more importance. The objective of this study is to develop a multiplex-PCR assay for a differential diagnosis of rickettsiosis, Lyme disease and scrub typhus. Methods: By using bibliographic and bioinformatic analysis, we identify candidate regions to perform the multiplexPCR assay for Rickettsia sp., Borrelia burgdorferi and Orientia tsutsugamushi as well as identify optimal melting temperature and sensibility analysis. Results: We identified specific primer pairs for Rickettsia sp, Borrelia burgdorferi and Orientia tsutsugamushi with different PCR fragment length but a common melting temperature, 58°C. Interpretation & conclusion: We successfully developed a Multiplex PCR assay for differential diagnosis of rickettsiosis, Lyme disease and scrub typhus that could be a rapid and easy option in clinical and epidemiological practice.Laboratorio de Enfermedades Infecciosas y Parasitarias 1. Unidad Interinstitucional de Investigación Clínica y Epidemiológica, Facultad de Medicina, Universidad Autónoma de Yucatán. Yucatán, Mexico
Laboratorio de Enfermedades Emergentes y Re-emergentes. Centro de Investigaciones Regionales “Dr. Hideyo Noguchi”. Universidad Autonoma de Yucatan. Yucatán, Mexico
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@#Soil-transmitted helminth (STH) infections, mainly caused by Ascaris lumbricoides, Trichuris trichiura, and hookworms, are among the most common intestinal parasites that infect humans. The infections are widely distributed throughout tropical and subtropical countries, including Malaysia, particularly in underprivileged communities. Microscopic and culture techniques have been used as a gold standard for diagnostic techniques. However, these methods yield low sensitivity and specificity, laborious and time-consuming. Therefore, simple, rapid, and accurate alternative methods are needed for the simultaneous detection of STH infections. Although advanced technologies such as real-time multiplex PCR have been established, the use of this technique as a routine diagnostic is limited due to the high cost of the instrument. Therefore, a single-round multiplex conventional PCR assay for rapid detection of four STH species in the fecal sample was developed in this study. To perform the single-round multiplex PCR, each pair of species-specific primers was selected from target genes, including Ancylostoma duodenale (Internal Transcribed Spacer 2; accession No. AJ001594; 156 base pair), Necator americanus (ITS 2; accession No. AJ001599; 225 base pair), Ascaris lumbricoides (Internal Transcribed Spacer 1; accession No. AJ000895; 334 base pair) and Trichuris triciura (partial ITS 1, 5.8s rRNA and partial ITS 2; accession No. AM992981; 518 base pair). The results showed that the newly designed primers could detect the DNA of STH at low concentrations (0.001 ng/μl) with no cross-amplification with other species. This assay enables the differentiation of single infections as well as mixed infections. It could be used as an alternative and is a convenient method for the detection of STHs, especially for the differentiation of N. americanus and A. duodenale.
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Objective:To analyze the molecular epidemiological characteristics of the Corona virus disease 2019 (COVID-19) cases in Shijiazhuang, which can reveal the origin of the outbreak and provide a scientific basis for COVID-19 prevention and control.Methods:From January 2 to January 8, 2021, a total of 404 samples from 170 COVID-19 cases were collected from the Shijiazhuang Fifth Hospital. The consensus sequence of 2019 novel Coronavirus(2019-nCoV) was obtained through multiplex polymerase chain reaction-based sequencing. The sequences of 170 COVID-19 cases were analyzed by the PANGOLIN, and the data were statistically analyzed by T-test.Results:Among the 404 COVID-19 samples, a total of 356 samples obtained high quality genome sequences (>95%,100×sequencing depth). The whole genome sequences of 170 COVID-19 cases were obtained by eliminating repeated samples. All 170 sequences were recognized as lineage B1.1 using PANGOLIN. The number of single nucleotide polymorphism arrange from 18-22 and most of the single nucleotide polymorphism were synonymous variants. All of 170 genomes could be classified into 48 sub-groups and most of the genomes were classified into 2 sub-groups (66 and 31, respectively).Conclusions:All cases in this study are likely originated from one imported case. The viruses have spread in the community for a long time and have mutated during the community transmission.
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Objective:To develop a single-tube one-step multiplex nested real-time reverse transcription polymerase chain reaction (RT-PCR) assay for the simultaneous detection of 2019-nCoV, influenza A virus, influenza B virus and internal-control with human-derived gene.Methods:This study included 30 positive specimens for 2019-nCoV nucleic acid detection and 336 screening specimens collected from the arrivals at Guangzhou Baiyun Airport between February 2020 and February 2022. Sixty-four positive specimens of other respiratory pathogens were also collected from the arrivals at Guangzhou Baiyun Airport during the three-year period before the occurrence of COVID19 outbreak in 2020, and 7 positive viral strains of respiratory pathogens were provided by collaborative laboratories. In order to establish a set of multiplex nested real-time RT-PCR assay, a group of primers and probe combinations for a multiplex nested real-time RT-PCR was designed and screened according to a selection of nucleotide conserved regions of the ORF and N genes of 2019-nCoV and the M gene of influenza A and B viruses, while nested amplification primers and probe for the internal-control with human-derived gene were introduced. Then the prepared pseudovirus-positive quality control and sample discs were applied to evaluate the sensitivity and specificity. Clinical specimens were performed to validate the applicability of the method.Results:The results show that the established one-step multiplex nested real-time RT-PCR assay can specifically detect 2019-nCoV and influenza A and B viruses, with the limit-of-detection of about 125 copies/ml for 2019-nCoV and about 250 copies/ml for influenza A and B viruses. Totally 101 positive samples of various respiratory pathogens were detected, showing that the detection sensitivities of 2019-nCoV and influenza A and B viruses were 96.67%, 92.86% and 96.15%, respectively, with the specificity of 100%. No false-positive detection was found in the applied detection of more than 300 clinical samples.Conclusions:A one-step multiplex nested real-time RT-PCR assay for 2019-nCoV, influenza A and B viruses and human-derived gene internal-control was developed. The assay has good sensitivity and specificity and can be used for rapid screening of 2019-nCoV and influenza A and B viruses in high-volume samples.
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ObjectiveTo resolve the problems related to the abnormal interpretations of real-time fluorescence polymerase chain reaction (PCR) results for tri-allele, to formulate the interpretation methods of real-time fluorescence PCR by referring to multiplex PCR fragment analysis, so as to obtain an accurate, simple and cheap detection method for ABCB1 tri-allele. MethodsA total of 2 794 DNA samples were collected from Xi'an Mental Health Center from March 2020 to March 2021, and 5% of which were selected as experiments. Real-time fluorescence PCR method and multiplex PCR fragment analysis method were performed respectively. According to the comparison of Ct values of PCR curves and the comparison of base peak intensity in multiplex PCR fragment analysis, comparison and analysis were conducted on the interpretation results of the two methods, and samples with different interpretation results were verified, thereafter, PCR interpretation method was formulated. ResultsA total of 139 samples were collected, of which 120 alleles and 19 tri-allele were detected. The results of allele detection by two methods were absolutely consistent. In combination with the results of multiplex PCR fragment analysis, a method for the interpretation of real-time fluorescence PCR for 19 cases of tri-allele was developed as follows: when ∣∣Ct.G-Ct.T∣-∣Ct.G-Ct.A∣∣ in amplification curve was less than 3, the interpretation results were the combination of the base pairs with small Ct values; when ∣∣Ct.G-Ct.T∣-∣Ct.G-Ct.A∣∣ was greater than or equal to 3, the interpretation results were homozygotes from the base pairs with minimum Ct values. According to the interpretation method, the results of real-time fluorescence PCR were revised, and it showed 1 case of G/G, 1 case of A/A, 4 cases of T/G, 5 cases of T/A and 8 cases of T/T, which were consistent with the results of multiplex PCR fragment analysis. ConclusionReferring to the multiplex PCR fragment analysis method, the interpretation of ABCB1 tri-allele by real-time fluorescence PCR is developed, and the two interpretation methods are in good agreement.
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Objective To characterize the species of invasive Pomacea snails that were discovered for the first time in Shandong Province. Methods Pomacea snails samples were collected in the field of Jining City, Shandong Province on October 2021 for morphological identification. Pomacea snails were randomly sampled and genomic DNA was extracted from foot muscle tissues of Pomacea snails for multiplex PCR amplification. The PCR amplification product was sequenced. Then, the sequence was aligned and a phylogenetic tree was created using the software MegAlign 7.1.0. In addition, Angiostongylus cantonensis infection was detected in Pomacea snails with the lung microscopy. Results A total of 104 living Pomacea snails were collected, and all were characterized as Pomacea spp. based on morphological features. Of 12 randomly selected adult Pomacea snails, multiplex PCR assay and sequencing identified eleven snails as P. canaliculata and one as P. maculata. No A. cantonensis infection was detected in 104 Pomacea snails. Conclusion This is the first report of invasive Pomacea snails in Shandong Province, where P. canaliculata and P. maculata are found.
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Aims@#This study was aimed to test the specificity of primers and probes with target genes by using multiplex PCR and multiplex real-time PCR methods. These methods were compared with traditional blood culture methods in detecting five bacteria causing sepsis, including Acinetorbacter baumannii, Klebsiella pneumoniae, Pseudomonas aeruginosa, Escherichia coli and Staphylococcus aureus.@*Methodology and results@#A total of 587 blood samples from patients diagnosed with sepsis and septic shock were collected at Thanh Nhan Hospital, Hanoi, Vietnam. Each sample was divided into three parts for bacterial culture, multiplex PCR and multiplex real-time PCR to detect the similarity of the two PCR methods with the bacterial culture method. Conditions in multiplex PCR and multiplex real-time PCR were optimized to ensure the successful amplification of target genes. Results showed that the primers and probes were tested completely specific to the target genes and using multiplex PCR and multiplex real-time PCR techniques could detect five pathogens causing sepsis, including A. baumannii, K. pneumoniae, P. aeruginosa, E. coli and S. aureus.@*Conclusion, significance and impact of study@#Both multiplex PCR and multiplex real-time PCR methods have high similarities with the culture method, showing potential in the application of bacteria detection in sepsis.
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Multiplex Polymerase Chain ReactionABSTRACT
Objective:To establish a sequencing method for the genome of severe fever with thrombocytopenia syndrome virus (SFTSV) based on next-generation sequencing (NGS).Methods:SFTSV RNA was extracted from serum samples of patients with severe fever with thrombocytopenia syndrome. SFTSV-specific primers were designed using Primer 5.0 software. A multiplex PCR method was constructed and used to amplify the nucleotide sequence of SFTSV. Whole-genome sequencing was performed on the NGS platform.Results:The whole genes of SFTSV isolates in 28 serum samples were amplified by the multiplex PCR with a coverage over 94%. Sequencing and phylogenetic analysis of those strains revealed that the predominant strains ( n=20) belonged to genotype A, followed by genotypes B ( n=4) and E ( n=3). Conclusions:A high-throughput sequencing method for SFTSV based on multiplex PCR was established in this study. This method was characterized by high specificity and good quality and could improve the sequencing efficiency.
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OBJECTIVES@#To compare the application effect of microwave digestion - vacuum filtration - automated scanning electron microscopy (MD-VF-Auto SEM) method and plankton gene multiplex PCR system in the diagnosis of drowning.@*METHODS@#Lung, liver and kidney tissue of 10 non-drowning cases and 50 drowning cases were prepared for further MD-VF-Auto SEM method analysis and plankton gene multiplex PCR system analysis. The positive detection rate of the two methods in each tissue was calculated.@*RESULTS@#The positive rate of the MD-VF-Auto SEM method detecting diatoms in drowning cases was 100%, and few diatoms were detected in the liver and kidney tissues of 6 non-drowning cases. By using the plankton gene multiplex PCR system, the diatom positive rate of drowning cases was 84%, and all the non-drowning cases were negative. There were significant differences in the positive rate of the liver, kidney tissues between MD-VF-Auto SEM method and plankton gene multiplex PCR system (P<0.05), as well as the total positive rate of cases. However, no significant differences were found in the positive rates of lung tissues (P>0.05).@*CONCLUSIONS@#MD-VF-Auto SEM method is more sensitive than plankton gene multiplex PCR system in diatom test. But the plankton gene multiplex PCR system can also detect plankton other than diatoms. Combination of the two methods can provide a more reliable basis for the diagnosis of drowning.