Setup, Validation, and Quality Control of a Centralized Whole-Genome-Sequencing Laboratory: Lessons Learned.

Routine use of whole-genome analysis for infectious diseases can be used to enlighten various scenarios pertaining to public health, including identification of microbial pathogens, relating individual cases to an outbreak of infectious disease, establishing an association between an outbreak of food poisoning and a specific food vehicle, inferring drug susceptibility, source tracing of contaminants, and study of variations in the genome that affect pathogenicity/virulence. We describe the setup, validation, and ongoing verification of a centralized whole-genome-sequencing (WGS) laboratory to carry out sequencing for these public health functions for the National Infection Services, Public Health England, in the United Kingdom. The performance characteristics and quality control metrics measured during validation and verification of the entire end-to-end process (accuracy, precision, reproducibility, and repeatability) are described and include information regarding the automated pass and release of data to service users without intervention.

Epidemiology of transmissible diseases: Array hybridization and next generation sequencing as universal nucleic acid-mediated typing tools.

The magnitude of interest in the epidemiology of transmissible human diseases is reflected in the vast number of tools and methods developed recently with the expressed purpose to characterize and track evolutionary changes that occur in agents of these diseases over time. Within the past decade a new suite of such tools has become available with the emergence of the so-called "omics" technologies. Among these, two are exponents of the ongoing genomic revolution. Firstly, high-density nucleic acid probe arrays have been proposed and developed using various chemical and physical approaches. Via hybridization-mediated detection of entire genes or genetic polymorphisms in such genes and intergenic regions these so called "DNA chips" have been successfully applied for distinguishing very closely related microbial species and strains. Second and even more phenomenal, next generation sequencing (NGS) has facilitated the assessment of the complete nucleotide sequence of entire microbial genomes. This technology currently provides the most detailed level of bacterial genotyping and hence allows for the resolution of microbial spread and short-term evolution in minute detail. We will here review the very recent history of these two technologies, sketch their usefulness in the elucidation of the spread and epidemiology of mostly hospital-acquired infections and discuss future developments.

Genomic Epidemiology of Tuberculosis.

The application of next generation sequencing technologies has opened the door to a new molecular epidemiology of tuberculosis, in which we can now look at transmission at a resolution not possible before. At the same time, new technical and analytical challenges have appeared, and we are still exploring the wider potential of this new technology. Whole genome sequencing in tuberculosis still requires bacterial cultures. Thus, although whole genome sequencing has revolutionized the interpretation of transmission patterns, it is not yet ready to be applied at the point-of-care. In this chapter, I will review the promises and challenges of genomic epidemiology, as well as some of the new questions that have arisen from the use of this new technology. In addition, I will examine the role of molecular epidemiology within the general frame of global tuberculosis control and how genomic epidemiology can contribute towards the elimination of the disease.

Efeito da vacina pneumocócica 10-valente em eventos de colonização nasofaríngea em crianças na cidade de Salvador-Bahia / Effect of pneumococcal 10-valent in nasopharyngeal colonization events in children in the city of Salvador, Bahia

Streptococcus pneumoniae é uma bactéria patogênica que afeta crianças e idosos em todo o mundo, sendo responsável por elevada morbidade e mortalidade, especialmente nos países em desenvolvimento onde o acesso às vacinas pneumocócicas conjugadas (PCVs) é limitado. A colonização da nasofaringe precede o desenvolvimento de infecções e as crianças são o principal reservatório deste patógeno na comunidade. As vacinas pneumocócicas conjugadas reduzem a taxa de colonização e de doenças causadas por sorotipos vacinais, entretanto, pouco se sabe sobre seu efeito em eventos na substituição de sorotipos. Os objetivos deste estudo foram determinar o efeito da vacina pneumocócica conjugada 10-valente (PCV10) na colonização nasofaríngea por pneumococos em crianças menores que um ano, saudáveis e que apresentaram doença crônica ou desordem imunológica nos períodos pré- e pós esquema vacinal primário entre maio de 2011 a janeiro de 2014 e determinar a influência desta vacina na distribuição de sorotipos, da susceptibilidade antimicrobiana e do perfil genotípico dos pneumococos. Foram investigadas 168 crianças, sendo 63 do grupo de portadores de doenças clínicas (Grupo I) e 105 do grupo de crianças sadias (Grupo II). O isolamento, a identificação e a avaliação da resistência antimicrobiana do pneumococo foram realizados através de técnicas microbiológicas convencionais. A determinação dos sorotipos capsulares foi realizada através das técnicas de reação de polimerase em cadeia multiplex e reação de Quellung. A taxa de colonização pneumocócica total foi de 24%, sendo 17% (11/63) e 28% (29/105) para os grupos I e II, respectivamente...

Streptococcus pneumoniae is a pathogenic bacterium that affects children and elderly throughout the world, accounting for high morbidity and mortality, especially in developing countries where acess to pneumococcal conjugate vaccines (PCVs) is limited. Nasopharyngeal colonization precedes the development of infections and children are the main reservoir of this pathogen in the community. The pneumococcal conjugate vaccine has been effective in reducing colonization and disease by vaccine serotypes, however, little is known about its effect on the overall rate of colonization due to serotypes replacement events. The study aims to evaluate the effect of pneumococcal conjugate vaccine on nasopharyngeal carriage in children younger than one years old, healthy, suffering from crhonic diseases or immune disorders during vaccine primary immunization with PCV-10 between may 2011 and jaanuary 2014 and the influence of this vaccine in the distribution of serotypes, antimicrobial susceptibility and genotypic profile of pneumococcus. A total of 168 children were enrolled, 63 with chronic diseases (Group I) and 105 of the group of healthy children (Group II). The isolation, identification and evaluation of antimicrobial resistance of pneumococci were made using conventional microbiological techniques. The determination of capsular serotypes was performed using the multiplex-PCR and/or Quellung reaction. Overal, the pneumococcal colonization rate was 24%, being 17% (11/63) and 28% (29/105) to group I and II, respectively...

Estudios de epidemiología molecular en población inmigrante en España / Molecular epidemiology studies on the immigrant population in Spain

Fundamentos: La epidemiología molecular es una nueva disciplina que permite la integración de la información sobre la variabilidad genética de patógenos infecciosos con su difusión en la población y subgrupos de la misma incluyendo, por ejemplo, las mutaciones de resistencia a antibióticos y antivirales. El objetivo es conocer qué posibles diferencias existe en las características genéticas de los agentes infecciosos que afectan a las poblaciones inmigrante y autóctoctona en España.. Métodos: Se revisaron artículos originales publicados entre 1998- 2013, con las palabras clave "epidemiología molecular", "tipado molecular", "secuenciación", "inmigrante", "España". Resultados: De un total de 267 artículos identificados inicialmente, 50 pasaron los diferentes filtros establecidos. De ellos, 36 analizan las infecciones por Mycobacterium tuberculosis y VIH, seguidos de los que analizan infecciones por Staphylococcus aureus (3) y el Virus de la Hepatitis B (3). Conclusiones: Los objetivos principales de estos trabajos fueron el tipado del patógeno y la determinación de la frecuencia de mutaciones de resistencia. Los estudios más frecuentes correspondieron a cohortes retrospectivas, seguidos por los estudios ecológicos y los ensayos clínicos. En general los estudios son descriptivos y su ámbito por el tipo y tamaño de muestra es bastante restringido. En varios se determina que las cepas o variantes del patógeno encontradas en inmigrantes tienen su origen más probable en sus países de origen, si bien otros también ponen de manifiesto la transmisión desde la población autóctona a la inmigrante (AU)

Background: Molecular epidemiology is a new scientific discipline which allows to integrate information on the genetic variation of infectious pathogens with their diffusion in a population and its subgroups including, for instance, resistance mutations to antibiotics and antiretrovirals. We present the results of an analysis of scientific publications that analyze the health status of the immigrant population in Spain from a molecular epidemiology perspective. Methods:We reviewed original articles published in 1998-2014 with he keywords "molecular epidemiology", "molecular typing", "sequencing", "immigrant", and "Spain". Results: Froma total of 267 articles identified initially, only 50 passed through the established filters. Most of them (36) analyzed infections by Mycobacterium tuberculosis (3) and HIV (3), followed at a large distance by Staphylococcus aureus and hepatitis B virus. The main goal of these works was the typing of the pathogen and to determine the frequency of resistance mutations. Conclusion: Is difficult to generalize the conclusions from the analyzed articles because most of them have a purely descriptive and quite restricted scope, considering the type and size of the samples studied. Several studies are focused on the most likely origin for the strains or variants of the pathogen but others also reveal transmissions from the local to the immigrant populations (AU)

Phylogenetic studies of transmission dynamics in generalized HIV epidemics: an essential tool where the burden is greatest?

Efficient and effective HIV prevention measures for generalized epidemics in sub-Saharan Africa have not yet been validated at the population level. Design and impact evaluation of such measures requires fine-scale understanding of local HIV transmission dynamics. The novel tools of HIV phylogenetics and molecular epidemiology may elucidate these transmission dynamics. Such methods have been incorporated into studies of concentrated HIV epidemics to identify proximate and determinant traits associated with ongoing transmission. However, applying similar phylogenetic analyses to generalized epidemics, including the design and evaluation of prevention trials, presents additional challenges. Here we review the scope of these methods and present examples of their use in concentrated epidemics in the context of prevention. Next, we describe the current uses for phylogenetics in generalized epidemics and discuss their promise for elucidating transmission patterns and informing prevention trials. Finally, we review logistic and technical challenges inherent to large-scale molecular epidemiological studies of generalized epidemics and suggest potential solutions.

Trends in plant virus epidemiology: opportunities from new or improved technologies.

This review focuses on new or improved technologies currently being applied, or likely to be applied in the future, to worldwide research on plant virus epidemiology. Recent technological advances and innovations provide many opportunities to improve understanding of the way diverse types of plant virus epidemics develop and how to manage them. The review starts at the macro level by considering how recent innovations in remote sensing and precision agriculture can provide valuable information about (i) virus epidemics occurring at continental, regional or district scales (via satellites) and within individual crops (mostly via lightweight unmanned aerial vehicles), and (ii) exactly where to target control measures. It then considers recent improvements in information systems and innovations in modelling that improve (i) understanding of virus epidemics and ability to predict them, and (ii) delivery to end-users of critical advice on control measures, such as Internet-based Decision Support Systems. The review goes on to discuss how advances in analysis of spatiotemporal virus spread patterns within crops can help to enhance understanding of how virus epidemics develop and validate potentially useful virus control measures. At the micro level, the review then considers the many insights that advances in molecular epidemiology can provide about genetic variation within plant virus populations involved in epidemics, and how this variation drives what occurs at the macro level. Next, it describes how recent innovations in virus detection technologies are providing many opportunities to collect and analyse new types, and ever increasing amounts, of data about virus epidemics, and the genetic variability of the virus populations involved. Finally, the implications for plant virus epidemiology of technologies likely to be important in the future are considered. To address looming world food insecurity and threats to plant biodiversity resulting from climate change and rapid population growth, it is important that new and improved technologies that help understand and control epidemics of damaging plant viruses are adopted as smoothly and speedily as possible.

Identificación de factores de riesgo para tuberculosis mediante epidemiologia molecular en el Departamento de La Paz, Bolivia, diciembre de 1998 a mayo de 2000 / Identification of risk factors for tuberculosis throgh molecular epidemiology in the Departament of La Paz, Bolivia, december 1998 to may 2000

Tomando en cuenta la situación de la tuberculosis (TB) en Bolivia y en La Paz y con el afán de poder hallar soluciones al problema de la salud pública que representa, se pretende implementar un estudio de epidemiologia molecular con el empleo de la técnica llamada reacción en cadena de la Polimerasa de doble elemento repetitivo (DRE-PCR). tomando en cuenta las ventajas que proporcionael empleo del DRE-PCR para la subtipificación de capas de M. tuberculosis y aplicando epidemiologia molecular con un modelo de investigación de casos y controles, se pretende identificar los factores de riesgo principales que son responsables de la diseminación de la TB en el departamento de La Paz...