23 research outputs found

    Biomonitoring of metals in children living in an urban area and close to waste incinerators

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    The impact of waste incinerators is usually examined by measuring environmental pollutants. Biomonitoring has been limited, until now, to few metals and to adults. We explored accumulation of a comprehensive panel of metals in children free-living in an urban area hosting two waste incinerators. Children were divided by georeferentiation in exposed and control groups, and toenail concentrations of 23 metals were thereafter assessed. The percentage of children having toenail metal concentrations above the limit of detection was higher in exposed children than in controls for Al, Ba, Mn, Cu, and V. Exposed children had higher absolute concentrations of Ba, Mn, Cu, and V, as compared with those living in the reference area. The Tobit regression identified living in the exposed area as a significant predictor of Ba, Ni, Cu, Mn, and V concentrations, after adjusting for covariates. The concentrations of Ba, Mn, Ni, and Cu correlated with each other, suggesting a possible common source of emission. Exposure to emissions derived from waste incinerators in an urban setting can lead to body accumulation of specific metals in children. Toenail metal concentration should be considered a noninvasive and adequate biomonitoring tool and an early warning indicator which should integrate the environmental monitoring of pollutants

    Occurrence of fungi in the potable water of hospitals: A public health threat

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    Since the last decade, attention towards the occurrence of fungi in potable water has increased. Commensal and saprophytic microorganisms widely distributed in nature are also responsible for causing public health problems. Fungi can contaminate hospital environments, surviving and proliferating in moist and unsterile conditions. According to Italian regulations, the absence of fungi is not a mandatory parameter to define potable water, as a threshold value for the fungal occurrence has not been defined. This study evaluated the occurrence of fungi in potable water distribution systems in hospitals. The frequency of samples positive for the presence of fungi was 56.9%; among them, filamentous fungi and yeasts were isolated from 94.2% and 9.2% of the samples, respectively. The intensive care unit (87.1%) had the highest frequency of positive samples. Multivariable model (p < 0.0001), the variables of the period of the year (p < 0.0001) and type of department (p = 0.0002) were found to be statistically significant, suggesting a high distribution of filamentous fungi in the potable water of hospitals. Further studies are necessary to validate these results and identify the threshold values of fungi levels for different types of water used for various purposes to ensure the water is safe for consumption and protect public health

    Legionella anisa or Legionella bozemanii? Traditional and molecular techniques as support in the environmental surveillance of a hospital water network

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    Understanding the actual distribution of different Legionella species in water networks would help prevent outbreaks. Culture investigations followed by serological agglutination tests, with poly/monovalent antisera, still represent the gold standard for isolation and identification of Legionella strains. However, also MALDI-TOF and mip-gene sequencing are currently used. This study was conducted to genetically correlate strains of Legionella non pneumophila (L-np) isolated during environmental surveillance comparing different molecular techniques. Overall, 346 water samples were collected from the water system of four pavilions located in a hospital of the Apulia Region of Italy. Strains isolated from the samples were then identified by serological tests, MALDI-TOF, and mip-gene sequencing. Overall, 24.9% of water samples were positive for Legionella, among which the majority were Legionella pneumophila (Lpn) 1 (52.3%), followed by Lpn2-15 (20.9%), L-np (17.4%), Lpn1 + Lpn2-15 (7.1%), and L-np + Lpn1 (2.3%). Initially, L-np strains were identified as L. bozemanii by monovalent antiserum, while MALDI-TOF and mip-gene sequencing assigned them to L. anisa. More cold water than hot water samples were contaminated by L. anisa (p < 0.001). PFGE, RAPD, Rep-PCR, and SAU-PCR were performed to correlate L. anisa strains. Eleven out of 14 strains identified in all four pavilions showed 100% of similarity upon PFGE analysis. RAPD, Rep-PCR, and SAU-PCR showed greater discriminative power than PFGE

    First detection of severe acute respiratory syndrome coronavirus 2 on the surfaces of tourist-recreational facilities in Italy

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    A Coronavirus disease (COVID-19), caused by a new virus called severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), spreads via direct contact through droplets produced by infected individuals. The transmission of this virus can also occur via indirect contact if objects and surfaces are contaminated by secretions from individuals with COVID-19 or asymptomatic carriers. Environmental contamination with SARS-CoV-2 is high in hospital settings; on the contrary, surface contamination in non-healthcare settings is still poorly studied. In this study, the presence of SARS-CoV-2 on the surfaces of 20 tourist-recreational facilities was investigated by performing a total of 100 swabs on surfaces, including refrigerator handles, handrails, counters, tables, and bathroom access doors. Six (6%) swabs from four (20%) tourist-recreational facilities tested positive for SARS-CoV-2; the surfaces that were involved were toilet door handles, refrigerator handles, handrails, and bar counters. This study highlights that SARS-CoV-2 is also present in non-healthcare environments; therefore, in order to limit this worrying pandemic, compliance with behavioral rules and the adoption of preventive and protective measures are of fundamental importance not only in healthcare or work environments but also in life environments

    A Possible Outbreak by Serratia Marcescens: Genetic Relatedness between Clinical and Environmental Strains

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    Serratia marcescens (SM) is a Gram-negative bacterium that is frequently found in the environment. Since 1913, when its pathogenicity was first demonstrated, the number of infections caused by SM has increased. There is ample evidence that SM causes nosocomial infections in immunocompromised or critically ill patients admitted to the intensive care units (ICUs), but also in newborns admitted to neonatal ICUs (NICUs). In this study, we evaluated the possible genetic correlation by PFGE between clinical and environmental SM strains from NICU and ICU and compared the genetic profile of clinical strains with strains isolated from patients admitted to other wards of the same hospital. We found distinct clonally related groups of SM strains circulating among different wards of a large university hospital. In particular, the clonal relationship between clinical and environmental strains in NICU and ICU 1 was highlighted. The identification of clonal relationships between clinical and environmental strains in the wards allowed identification of the epidemic and rapid implementation of adequate measures to stop the spread of SM

    Potential use of untreated wastewater for assessing COVID-19 trends in southern Italy

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    As a complement to clinical disease surveillance, the monitoring of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) in wastewater can be used as an early warning system for impending epidemics. This study investigated the dynamics of SARS-CoV-2 in untreated wastew-ater with respect to the trend of coronavirus disease 2019 (COVID-19) prevalence in Southern Italy. A total of 210 wastewater samples were collected between May and November 2020 from 15 Apulian wastewater treatment plants (WWTP). The samples were concentrated in accordance with the stan-dard of World Health Organization (WHO, Geneva, Switzerland) procedure for Poliovirus sewage surveillance, and molecular analysis was undertaken with real-time reverse-transcription quantitative PCR (RT-(q) PCR). Viral ribonucleic acid (RNA) was found in 12.4% (26/210) of the samples. The virus concentration in the positive samples ranged from 8.8 × 102 to 6.5 × 104 genome copies/L. The receiver operating characteristic (ROC) curve modeling showed that at least 11 cases/100,000 inhabitants would occur after a wastewater sample was found to be positive for SARS-CoV-2 (sensi-tivity = 80%, specificity = 80.9%). To our knowledge, this is the first study in Italy that has applied wastewater-based epidemiology to predict COVID-19 prevalence. Further studies regarding methods that include all variables (meteorological phenomena, characteristics of the WWTP, etc.) affecting this type of wastewater surveillance data would be useful to improve data interpretation

    Water safety in healthcare facilities. The Vieste Charter

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    The Study Group on Hospital Hygiene of the Italian Society of Hygiene, Preventive Medicine and Public Health (GISIO-SItI) and the Local Health Authority of Foggia, Apulia, Italy, after the National Convention "Safe water in healthcare facilities" held in Vieste-Pugnochiuso on 27-28 May 2016, present the "Vieste Charter", drawn up in collaboration with experts from the National Institute of Health and the Ministry of Health. This paper considers the risk factors that may affect the water safety in healthcare facilities and reports the current regulatory frameworks governing the management of installations and the quality of the water. The Authors promote a careful analysis of the risks that characterize the health facilities, for the control of which specific actions are recommended in various areas, including water safety plans; approval of treatments; healthcare facilities responsibility, installation and maintenance of facilities; multidisciplinary approach; education and research; regional and national coordination; communication

    Indirizzi operativi per la sorveglianza clinica e ambientale della legionellosi nelle strutture sanitarie e assistenziali della Regione Puglia

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    La prima epidemia di legionellosi, verificatasi nel luglio del 1976 durante l'American Legion Annua/ Convention a Philadelphia, fece registrare oltre 200 casi con 34 decessi. Solo un anno più tardi, nei laboratori dei Centers far Disease Contrai and Prevention (CDC) dì Atlanta , fu isolato e identificato il microrganismo che, in memoria della prima epidemia, fu chiamato Legionella pneumophila. la sorgente dell' infezione fu individuata nell' impianto di aria condizionata presente nell'hotel. La scoperta suscitò un grande interesse, tale da incoraggiare alcuni studiosi ad effettuare indagini sierologiche retrospettive su campioni di siero provenienti da soggetti affetti da polmonite di origine sconosciuta. Fu possibile in tal modo risalire ad altri episodi epidemici, quali gli eventi accaduti nel 1965 tra i pazienti dell'Ospedale Psichiatrico St. Elisabeth di Washington e nel 1968 tra coloro che lavoravano nel Servizio di Sanità Pubblica di Pontiac (in Michigan). In seguito, si verificarono altre epidemie che hanno contribuito ad approfondire le conoscenze scientifiche non solo sull'etiologia, patogenesi, diagnosi e terapia della legionellosi, ma anche sulle caratteristiche biochimiche, morfologiche e immunologiche dell'agente patogeno, compreso il suo habitat natura le. In Italia, il primo focolaio epidemico risale al 1978 sul Lago di Garda ed interessò 10 soggetti. Da allora le segnalazioni di casi, sia sporadici sia epidemici , sono diventate sempre più frequ enti, anche se è difficile stabilire se questo incremento sia dovuto ad un reale aumento dell' incidenza, al perfezionam ento delle tecniche diagnostiche o ad una maggiore att enzione alla diagnosi e segnalazione dei casi. Nel Sud Italia, la Puglia è tra le regioni con il maggior numero di casi di legionellosi notificati [Notiziar io ISS 2017]. I fattori che rendono diff icile il controllo e la gestione del probl ema sono la disomogeneità nelle procedure di campionamento, le difformità negli intervent i di bonif ica, la scarsa esperienza nella gestione del rischio associato alle diverse concentrazioni di Legionella rilevate nelle reti idriche. L'entità del problema, per la sua complessità, richiede sempre piu un'accurata attenzione a causa delle pesanti conseguenze legali e di immagine che possono coinvolgere sia le strutture sanitarie sia quelle turistico-ricettive, pertanto la Giunta regionale ha approvato nel 2012 il documento Indirizzi per l'Adozione di un Sistema per la sorveglianza e il controllo delle infezioni da Legionella in Puglia, con il quale ha istituito un sistema di rete regionale formato da due livelli organizzativi: uno centrale e l'altro periferico [D.G.R. n. 2261/2012] . Il livello organizzativo centrale è rappresentato da un apposito Nucleo di Riferimento Regionale che definisce percorsi comun i e codificati nell'ambito delle attività di prevenzione e controllo della malattia ed esercita funzioni chiave per la governance del sistema . Il mandato strategico è quello di assumere l'impegno di "regolare" la rete, attraverso un ruolo di att ivazione, sviluppo e manutenzione di procedure codificate tra i componenti della rete stessa. Il livello organizzativo periferico , costituito dal Nucleo Operativo Territo riale presso ogni Azienda Sanitaria Locale, è incaricato delle attività in materia di prevenzione e controllo della legionellosi e rappresenta, a livello aziendale, il momento d'incontro e condivisione tra il Dipartimento di Prevenzione, la Direzione Sanitaria, i reparti di ricovero, i laborato ri di analisi aziendali, oltre che di coordinamento e collaborazione con l'Agenzia Regionale per la Prevenzione e la Protezione dell'Ambiente (ARPA) provinciale. I punti deboli di ogni strategia di controllo della legionellosi sono riportabili alla mancanza di una chiara correlazione dose-effetto e di una soglia limi te ben definita , ancora oggi associate all'impossibilità di bonificare il sistema idrico in maniera definitiva. Per ridurre il rischio e il numero dei casi di malattia , il presente documento si propone di pianificare un iter omogeneo di procedure da applicare per il controllo e la prevenzione della legionellosi, ponendosi nella linea della prevenzione primaria piuttosto che in quella dell'intervento al verificarsi dei casi. - Il presente documento è rivolto a tutte le strutture sanitarie e assistenziali della Regione Puglia e fornisce indicazioni su: 1. metodi più appropriati per lo screening e la diagnosi della legionellosi; 2. modalità di campionamento per la ricerca di Legionella negli impianti idrici e aeraulici; 3. sistemi efficaci per la sorveglianza e il controllo delle reti idriche; 4. procedure e mezzi per la bonifica e la ridu zione del rischio; 5. attività di comunicaz ione e formazione degli operatori sanitari e degli addetti al controllo; 6. responsabilità medico-legali connesse al verificarsi di casi di malattia associati alle strutture coinvolte
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