C. Ossi

Cross-Reactivity of Fusarium spp. in the Aspergillus Galactomannan Enzyme-Linked Immunosorbent Assay

ABSTRACT Nine of 11 hematological patients with disseminated/deep-seated Fusarium infection tested at least twice for Aspergillus galactomannan (GM) had repeated positive results in the absence of Aspergillus isolation in culture. The centrifuged supernatants of 12 Fusarium isolates were tested by a GM enzyme-linked immunosorbent assay (EIA). All the isolates produced positive reactions when tested undiluted. These results show cross-reactivity of Fusarium spp. with Aspergillus GM that may constitute a drawback with respect to the specificity of the Platelia EIA.

INVASIVE FUNGAL INFECTIONS IN THE INTENSIVE CARE UNIT: A MULTICENTRE, PROSPECTIVE, OBSERVATIONAL STUDY IN ITALY (2006-2008)

Critically ill patients admitted to intensive care units (ICU) are highly susceptible to healthcare‐associated infections caused by fungi. A prospective sequential survey of invasive fungal infections was conducted from May 2006 to April 2008 in 38 ICUs of 27 Italian hospitals. A total of 384 fungal infections (318 invasive Candida infections, three cryptococcosis and 63 mould infections) were notified. The median rate of candidaemia was 10.08 per 1000 admissions. In 15% of cases, the infection was already present at the time of admission to ICU. Seventy‐seven percent of Candida infections were diagnosed in surgical patients. Candida albicans was isolated in 60% of cases, Candida glabrata and Candida parapsilosis in 13%, each. Candida glabrata had the highest crude mortality rate (60%). Aspergillus infection was diagnosed in 32 medical and 25 surgical patients. The median rate was 6.31 per 1000 admissions. Corticosteroid treatment was the major host factor. Aspergillosis was demonstrated to be more severe than candidiasis as the crude mortality rate was significantly higher (63% vs. 46%), given an equal index of severity, Simplified Acute Physiology Score (SAPS‐II). The present large nationwide survey points out the considerable morbidity and mortality of invasive fungal infections in surgical as well as medical patients in ICU.

Species Distribution and In Vitro Antifungal Susceptibility Patterns of 75 Clinical Isolates of Fusarium spp. from Northern Italy

ABSTRACT Fusarium isolates from 75 Italian patients were identified by molecular methods, and their susceptibilities to antifungals were tested in vitro. Fusarium verticillioides was the species most frequently isolated from deep-seated infections, and F. solani was the species most frequently isolated from superficial infections. F. solani isolates showed high azole MICs, while F. verticillioides isolates showed low posaconazole MICs.

Zygomycosis in Italy: a Survey of FIMUA-ECMM (Federazione Italiana di Micopatologia Umana ed Animale and European Confederation of Medical Mycology)

Abstract The aims of the study were to analyze the clinical and epidemiological characteristics and treatments for patients who developed zygomycosis enrolled in italy during the european Confederation of medical mycology survey. This prospective multicenter study was performed between 2004 and 2007 at 49 italian Departments. 60 cases of zygomycosis were enrolled: the median age was 59.5 years (range 1-87), with a prevalence of males (70%). The majority of cases were immunocompromised patients (42 cases, 70%), mainly hematological malignancies (37). Among non-immunocompromised (18 cases, 30%), the main category was represented by patients with penetrating trauma (7/18, 39%). The most common sites of infection were sinus (35%) with/without CNS involvement, lung alone (25%), skin (20%), but in 11 cases (18%) dissemination was observed. According to EORTC criteria, the diagnosis of zygomycosis was proven in 46 patients (77%) and in most of them it was made in vivo (40/46 patients, 87%); in the remaining 14 cases (23%) the diagnosis was probable. 51 patients received antifungal therapy and in 30 of them surgical debridement was also performed. The most commonly used antifungal drug was liposomal amphotericin b (L- AmB), administered in 44 patients: 36 of these patients (82%) responded to therapy. Altogether an attributable mortality rate of 32% (19/60) was registered, which was reduced to 18% in patients treated with L-AmB (8/44). Zygomycosis is a rare and aggressive filamentous fungal infection, still associated with a high mortality rate. This study indicates an inversion of this trend, with a better prognosis and significantly lower mortality than that reported in the literature. It is possible that new extensive, aggressive diagnostic and therapeutic procedures, such as the use of L-AmB and surgery, have improved the prognosis of these patients.

Clostridium difficile PCR Ribotype 018, a Successful Epidemic Genotype

ABSTRACT Clostridium difficile infection (CDI) became a public health problem for the global spreading of the so-called hypervirulent PCR ribotypes (RTs) 027 and 078, associated with increases in the transmission and severity of the disease. However, especially in Europe, several RTs are prevalent, and the concept of hypervirulence is currently debated. We investigated the toxin and resistance profiles and the genetic relatedness of 312 C. difficile strains isolated in a large Italian teaching hospital during a 5-year period. We evaluated the role of CDI-related antibiotic consumption and infection control practices on the RT predominance in association with their molecular features and transmission capacity. Excluding secondary cases due to nosocomial transmission, RT018 was the predominant genotype (42.4%) followed by RT078 (13.6%), while RT027 accounted for 0.8% of the strains. RT078 was most frequently isolated from patients in intensive care units. Its prevalence significantly increased over time, but its transmission capacity was very low. In contrast, RT018 was highly transmissible and accounted for 95.7% of the secondary cases. Patients with the RT018 genotype were significantly older than those with RT078 and other RTs, indicating an association between epidemic RT and age. We provide here the first epidemiological evidence to consider RT018 as a successful epidemic genotype that deserves more attention in clinical practice.

Molecular Diagnosis of Polymicrobial Sepsis

The recognition of sepsis is a crucial aspect in the management of critically ill patients. Recent guidelines strongly recommend the initiation of broad-spectrum antibiotic therapy within 1 hour after the recognition of a case of sepsis (1). The adjustment of antibiotic therapy is also recommended once the involved pathogen is identified (1). The current microbiological diagnosis of sepsis is based on blood culture. However, blood culture systems suffer from several limitations such as lack of rapidity and, in cases such as polymicrobial infections, low sensitivity (6). Support for cultural approaches is therefore needed, and well-designed molecular assays could improve the diagnostic flowchart (5, 6). Under this perspective, we have recently evaluated a molecular assay for the diagnosis of sepsis (LightCycler SeptiFast test; Roche Molecular Systems) (3). SeptiFast is a multiplex real-time PCR-based assay, allowing for the detection of a wide panel of bacterial and mycotic pathogens directly from blood (2). DNA is extracted by mechanical lysis with ceramic beads in a Magnalyzer instrument (Roche Molecular Systems), and after purification, it is processed in three parallel real-time PCRs (gram-positive, gram-negative, fungi). The detection of amplicons is based on dual fluorescent resonance energy transfer probes targeting the internal transcribed spacer (ITS) regions. ITS regions are species-specific multicopy noncoding sequences interspaced among conserved bacterial and fungal ribosomal DNA (4, 7). Finally, a dedicated software (SeptiFast identification software) calculates the specific melting profile of ITS-amplified products, thus allowing identification of the pathogen at the species level (2). From our experience with a cohort of neutropenic patients, SeptiFast featured sensitivity at least comparable to that observed with blood culture and a dramatically shorter turnaround time (3). For example, in a case of polymicrobial sepsis, the rapid identification of involved pathogens allowed for a prompt adjustment of therapy. Blood cultures and intravascular catheter tip culture were performed on a persistently febrile patient with multiple myeloma. Empirical intravenous antibiotic therapy with linezolid (600 mg every 12 h) and ceftriaxone (2 g once a day [QD]) was then started. In parallel, 1.5 ml of KEDTA-treated blood was also taken to perform SeptiFast. After only 6 hours, the presence of DNA belonging to Pseudomonas aeruginosa, Stenotrophomonas maltophilia, and Candida albicans was reported to the department (Fig. ​(Fig.1).1). Levofloxacin (500 mg QD) and fluconazole (400 mg QD) were then promptly added to the therapy. In the following days, the molecular results were then confirmed by culture-based approaches. Blood cultures turned positive on day 1 for gram-negative rods with Pseudomonas sp.-like morphology. Only on day 3 was the definitive identification for Pseudomonas aeruginosa and Stenotrophomonas maltophilia obtained. No growth of Candida albicans was detected in blood culture bottles after 5 days of incubation. Notwithstanding, on day 3, Candida albicans was detected on plates from catheter tip culture. The susceptibility profiles were obtained for all pathogens and confirmed the appropriateness of the therapeutic adjustment performed after the molecular results were obtained.

Factors Contributing to Epidemic MRSA Clones Replacement in a Hospital Setting

The mechanisms governing the epidemiology dynamics and success determinants of a specific healthcare-associated methicillin-resistant S. aureus (HA-MRSA) clone in hospital settings are still unclear. Important epidemiological changes have occurred in Europe since 2000 that have been related to the appearance of the ST22-IV clone. Between 2006 and 2010, we observed the establishment of the ST22-IV clone displacing the predominant Italian clone, ST228-I, in a large Italian university hospital. To investigate the factors associated with a successful spread of epidemic MRSA clones we studied the biofilm production, the competitive behavior in co-culture, the capacity of invasion of the A549 cells, and the susceptibility to infection in a murine model of acute pneumonia of the two major HA-MRSA clones, ST22-IV and ST228-I. We showed that persistence of ST22-IV is associated with its increased biofilm production and capacity to inhibit the growth of ST228-I in co-culture. Compared to ST228-I, ST22-IV had a significantly higher capacity to invade the A549 cells and a higher virulence in a murine model of acute lung infection causing severe inflammation and determining death in all the mice within 60 hours. On the contrary, ST228-I was associated with mice survival and clearance of the infection. ST22-IV, compared with ST228-I, caused a higher number of persistent, long lasting bacteremia. These data suggest that ST22-IV could have exploited its capacity to i) increase its biofilm production over time, ii) maintain its growth kinetics in the presence of a competitor and iii) be particularly invasive and virulent both in vitro and in vivo, to replace other well-established MRSA clones, becoming the predominant European clone.

New Role for Human α-Defensin 5 in the Fight against Hypervirulent Clostridium difficile Strains

ABSTRACT Clostridium difficile infection (CDI), one of the most common hospital-acquired infections, is increasing in incidence and severity with the emergence and diffusion of hypervirulent strains. CDI is precipitated by antibiotic treatment that destroys the equilibrium of the gut microbiota. Human α-defensin 5 (HD5), the most abundant enteric antimicrobial peptide, is a key regulator of gut microbiota homeostasis, yet it is still unknown if C. difficile, which successfully evades killing by other host microbicidal peptides, is susceptible to HD5. We evaluated, by means of viability assay, fluorescence-activated cell sorter (FACS) analysis, and electron microscopy, the antimicrobial activities of α-defensins 1 and 5 against a panel of C. difficile strains encompassing the most prevalent epidemic and hypervirulent PCR ribotypes in Europe (012, 014/020, 106, 018, 027, and 078). Here we show that (i) concentrations of HD5 within the intestinal physiological range produced massive C. difficile cell killing; (ii) HD5 bactericidal activity was mediated by membrane depolarization and bacterial fragmentation with a pattern of damage peculiar to C. difficile bacilli, compared to commensals like Escherichia coli and Enterococcus faecalis; and (iii) unexpectedly, hypervirulent ribotypes were among the most susceptible to both defensins. These results support the notion that HD5, naturally present at very high concentrations in the mucosa of the small intestine, could indeed control the very early steps of CDI by killing C. difficile bacilli at their germination site. As a consequence, HD5 can be regarded as a good candidate for the containment of hypervirulent C. difficile strains, and it could be exploited in the therapy of CDI and relapsing C. difficile-associated disease.

Epidemic MRSA clone ST22-IV is more resistant to multiple host- and environment-related stresses compared with ST228-I

BACKGROUND ST22-IV is a successful hospital-associated MRSA clone. Due to its known ability to replace other MRSA clones in hospitals, it became a dominant clone in Europe and beyond. So far, there are no studies investigating the relationship between the epidemiological success of MRSA clones and their capacity to withstand commonly encountered stresses. METHODS We investigated the fitness of ST22-IV in comparison with the replaced clone ST228-I, evaluating its resistance to oxidative stress, autolytic activity, growth at high osmolarity and in acid and alkaline environments and survival under desiccation and heat shock. We also compared their phenotypic characteristics and examined the impact of antibiotic consumption on epidemiological success. RESULTS Here we demonstrate that the dominance of ST22-IV is linked neither to changes in antibiotic consumption nor to acquisition of additional resistances over time. Strong α-haemolysin activity, the production of β-haemolysin and the presence of an active agr could partly explain the virulence of ST22-IV previously observed in a murine model of pneumonia. Most importantly, we show that ST22-IV compared with ST228-I, besides retaining susceptibility to most antibiotics over time, has a superior capacity to survive under all stress conditions tested, which bacteria commonly face during their life cycle. CONCLUSIONS Our results support our hypothesis that ST22-IV has a fitness advantage over ST228-I. This fitness advantage could have allowed ST22-IV to displace ST228-I without acquiring additional resistances and could help explain its epidemic success in hospital settings and its spread in Europe and beyond.

Molecular mycological diagnosis and correct antimycotic treatments.

In a recent report, Schaenman and colleagues (5) describe a case of a Scedosporium apiospermum soft tissue infection in an immunocompromised patient successfully treated with voriconazole. The article focuses on one of the hottest topics in current medical mycology, the emergence of antimycotic-resistant fungal isolates (3). Indeed, Scedosporium apiospermum is, also in our direct experience, one of the emerging fungal pathogens frequently endowed with resistance against drugs used as first-line agents (i.e., amphotericin B and fluconazole) (2). Therefore, we agree to the general message of the paper regarding the need of a prompt and well designed antifungal therapy. However, we would like to address a major point on how this could be achieved. In fact, we disagree that presumptive fungal identification based on aspecific morphological aspects is sufficient to take into account a new drug such as voriconazole as a first-line agent in the management of fungal infections. As admitted by the authors and clearly shown in Fig. 2 of their case report, many fungal genera feature morphological characteristics difficult to discriminate and the identification is not straightforward, especially if specific structures are not usually evident, as may be the case upon direct examination of clinical samples. A clinician making the same assumption as the authors might feel free to treat critically ill patients with voriconazole in the majority of cases, thus putting the whole community at risk for the emergence of new resistances to this valuable drug, as has already and inevitably happened for narrow-spectrum triazoles. Moreover it is still far from being proven that the toxicity profile of the new extended-spectrum triazoles is really safer than that of narrow-spectrum drugs, with severe side effects reported in up to 10% of patients receiving voriconazole (1). We think that a rapid and precise identification, at least at the genus level, is crucial for the prescription of a well designed empirical therapy, but we are convinced that it should be based on objective data. Recently, we addressed the diagnosis of mycotic keratitis using, in parallel with cultural methodologies, a molecular approach based on direct amplification from the biological sample and sequencing, by means of universal fungal primers (4, 6), of genus- and species-specific targets on the fungal genome. In our opinion this molecular approach allowing unequivocal identification of a fungal pathogen, at least at the genus level, in only one day is, together with a more thorough understanding of mechanisms of drug resistance, a real improvement of the conventional mycological diagnosis and represents a correct answer to the clinical questions posed by the availability of multiple classes of antifungal agents.