Management Of Severe Infections Research Articles

Rapid Molecular Diagnosis of Sporotrichosis Directly from Biological Samples from a Reference Center in Brazil.

The gold standard diagnosis of sporotrichosis is the isolation of Sporothrix sp. in culture media, but this is a time-consuming test that is susceptible to contamination and can be affected by the fungal load. Molecular methods such as nested PCR are gaining more ground in the management of several infections as they are tools for the rapid and accurate identification of microorganisms from pure cultures or directly from biological samples. This study aimed to apply a nested PCR molecular protocol for the rapid detection of Sporothrix spp. directly from clinical samples. Thirteen samples-six from skin biopsies, five from skin exudates, and two from conjunctival secretions-were obtained from patients diagnosed with sporotrichosis due to S. brasiliensis. Calmodulin gene sequencing identified all the isolates as S. brasiliensis. Nested PCR was able to detect all the Sporothrix sensu lato directly from clinical samples as well as the CBS 120339 reference strain. The nested PCR protocol stands out as a diagnostic alternative, as it allows the identification of Sporothrix spp. directly from clinical samples without the need for fungal isolation.

Blood calprotectin as a biomarker for infection and sepsis – the prospective CASCADE trial

BackgroundEarly in the host-response to infection, neutrophils release calprotectin, triggering several immune signalling cascades. In acute infection management, identifying infected patients and stratifying these by risk of deterioration into sepsis, are crucial tasks. Recruiting a heterogenous population of patients with suspected infections from the emergency department, early in the care-path, the CASCADE trial aimed to evaluate the accuracy of blood calprotectin for detecting bacterial infections, estimating disease severity, and predicting clinical deterioration.MethodsIn a prospective, observational trial from February 2021 to August 2022, 395 patients (n = 194 clinically suspected infection; n = 201 controls) were enrolled. Blood samples were collected at enrolment. The accuracy of calprotectin to identify bacterial infections, and to predict and identify sepsis and mortality was analysed. These endpoints were determined by a panel of experts.ResultsThe Area Under the Receiver Operating Characteristic (AUROC) of calprotectin for detecting bacterial infections was 0.90. For sepsis within 72 h, calprotectin’s AUROC was 0.83. For 30-day mortality it was 0.78. In patients with diabetes, calprotectin had an AUROC of 0.94 for identifying bacterial infection.ConclusionsCalprotectin showed notable accuracy for all endpoints. Using calprotectin in the emergency department could improve diagnosis and management of severe infections, in combination with current biomarkers.Clinical trial registration numberDRKS00020521

Preparation and Characterization of Alginate Nanocarriers as Mucoadhesive Intranasal Delivery Systems for Ameliorating Antibacterial Effect of Rutin Against Pasteurella Multocida Infection in Mice

Rutin is a natural product has various biological activities. Pasteurellosis is crucial bacterial infection of respiratory system caused by Pasteurella multocida. This study aimed to investigate the improved antibacterial effect of Rutin nanocarriers as mucoadhesive intranasal delivery against Pasteurella multocida. Different formulations of Rutin niosomes and nanostructure lipid carriers (NLCs) were formulated and well characterized. The in vivo antibacterial performance of the developed formulations against Pasteurella multocida in infected mice was conducted. Further, cytokines levels of Interferon Gamma (INF-γ) and Interlukin-12 (IL -12) in mice sera were assessed. The results revealed that developed Rutin nanocarriers were in nanosized range and exhibited high drug encapsulation. However, Rutin NLCs showed smaller particle size (240.34 ± 5.5 nm), higher encapsulation% (97.34 ± 0.15%), and higher drug release of 94.5% within 12 h comparing with Rutin niosomes. Further, Rutin NLCs presented the highest antibacterial effect against P. multocida infection compared with other treated groups. The bacterial count in lungs and livers was reduced in treated groups compared to the infected non treated one. Our results indicate that mucoadhesive Rutin nanocarriers introduce a new promising antibacterial agent for intranasal delivery against P. multocida and open vision for veterinary applications to utilize advanced nanocarriers in the management of several infections.

Diagnostic and Prognostic Roles of Procalcitonin and Other Tools in Community-Acquired Pneumonia: A Narrative Review.

Community-acquired pneumonia (CAP) is among the most common causes of death and one of the leading healthcare concerns worldwide. It can evolve into sepsis and septic shock, which have a high mortality rate, especially in critical patients and comorbidities. The definitions of sepsis were revised in the last decade as "life-threatening organ dysfunction caused by a dysregulated host response to infection". Procalcitonin (PCT), C-reactive protein (CRP), and complete blood count, including white blood cells, are among the most commonly analyzed sepsis-specific biomarkers also used in pneumonia in a broad range of studies. It appears to be a reliable diagnostic tool to expedite care of these patients with severe infections in the acute setting. PCT was found to be superior to most other acute phase reactants and indicators, including CRP as a predictor of pneumonia, bacteremia, sepsis, and poor outcome, although conflicting results exist. In addition, PCT use is beneficial to judge timing for the cessation of antibiotic treatment in most severe infectious states. The clinicians should be aware of strengths and weaknesses of known and potential biomarkers in expedient recognition and management of severe infections. This manuscript is intended to present an overview of the definitions, complications, and outcomes of CAP and sepsis in adults, with special regard to PCT and other important markers.

Development and applications of nanobiosensors for sustainable agricultural and food industries: Recent developments, challenges and perspectives

The increasing global population and limited natural resources are amongst major challenges in the sustainability of agricultural and food industries, together with the rapid shrinking of land and increasing production cost. Based on the application of nanobiosensors, natural resources can be utilised more efficiently. Particularly, nanobiosensors can be used in a wide range of applications throughout the agri-food route, ranging from detection of soil condition, crop diseases caused by pest/pathogen, management of severe infections, and diagnostic tools for detection of pests during storage and ensures final quality assurance. Here, we review the various recent applications of nanobiosensors in agricultural and food industries. The advantages and limitations are also discussed to provide useful insights to both academic and industrial researchers. Moreover, recent patents have been discussed to provide the latest trends in biosensors for agri-food industry to maintain sustainable development. • Nanobiosensors are the advanced technologies as compared to conventional biosensors. • Versatility of nanomaterials offer the innovativeness in the design of the nanobiosensor. • Nanobiosensors provide quick detection response to challenging contaminants present in agri-food industries. • Applications of reported patents demonstrate the outstanding developments of nanobiosensors in the agri-food industries.

Biofilm Production and its Association with Multi Drug Resistance in Pseudomonas aeruginosa among ICU Patients with Special Reference to ESBL, AmpC and MBL production

Multidrug resistant Pseudomonas aeruginosa is an alarming and emerging public health problem globally across the developing countries. Pseudomonas aeruginosa is still a major cause for nosocomial infection and approx 10-20% of these patients are admitted to the ICU’s. Bacterial isolates those are biofilm producers are more drug resistant than biofilm Non-producers. The aim of the present study was to evaluate the production of biofilm and β-lactamases (ESBL, MBL, AmpC) in multi drug resistant Pseudomonas aeruginosa isolated from ICU patients. The present cross-sectional prospective study was carried out in the Department of Microbiology, Santosh Medical College & Hospital, Ghaziabad, Uttar-Pradesh, India. A total of 115 isolates of P. aeruginosa were isolated from 502 clinical samples. After confirmation of MDR status of P. aeruginosa further processing for biofilm and beta lactamases was performed accordingly. Biofilm production was done by test tube method and tissue culture plate method along with phenotypic profiling of ESBL, MBL and AmpC was performed by disc potentiation test; IMP-EDTA combined disc test and Cefoxitin Cloxacillin Double Disc synergy test (CC-DDST) respectively. Out of 502 total human clinical samples 115 isolates were Pseudomonas aeruginosa giving the prevalence rate of 23%. Among 115 isolates of P. aeruginosa 60 (52%) were MDR phenotypes, Out of 60 MDR isolates 23 (38.3%) were ESBL producers, 22 (36.6%) were MBL producers, and 3(5%) were AmpC producers. Out of total 115 isolates 68(59%) isolates were biofilm producers and 47 (40.8%) were biofilm non-producers. Strict antibiotic policies with early detection of beta lactamases and detection of biofilm production should be performed regularly for all clinical isolates of Pseudomonas aeruginosa so as to guide antibiotic selection along with better management of severe infection in ICU patients.

The effect of inoculum size on the activity of different ratios of Ceftriaxone – Sulbactam [(1:1) vs. (2:1)] against ESBL producing organisms

Background and Objective: Antibiotic resistance has become the most importunate health issue and remains a major public health concern worldwide. Production of extended spectrum β-lactamases (ESBL) is one of the major causes of resistance to β-lactam antibiotics. Several in-vitro studies have demonstrated the significant impact of inoculum size on the effectiveness of β-lactam-β-lactamase inhibitor combination. Higher concentration of β-lactamase inhibitor (Sulbactam) will be needed to combat the increased production of ESBLs in infections with high inoculum. The primary objective of the present study is to evaluate Minimum Inhibitory Concentration (MICs) of ESBL producing Enterobacteriaceae, against Ceftriaxone alone and Ceftriaxone with Sulbactam combination (1:1 and 2:1) in presence of normal and higher inoculum of these bacteria. The secondary objective of the study is to demonstrate the in-vitro efficacy of Ceftriaxone-Sulbactam (CS) in presence of higher inoculum of bacteria. Method: ESBL producing strains of Enterobacteriaceae (E. coli, K pneumoniae 30 each) were isolated from patient samples. MIC of Ceftriaxone and Sulbactam alone and in combination (1:1 and 2:1) was determined in presence of both normal (105CFU/ml) and higher inoculum (107CFU/ml) of these bacteria using micro broth dilution method of antimicrobial susceptibility testing. Resultsand Conclusion: The study finds an inoculum effect with Ceftriaxone. After addition of Sulbactam, MIC value for Ceftriaxone was reduced by 4-128 folds and 2-32 folds in ESBL producing strains of E. coli and K. pneumoniae respectively. The findings of the present study demonstrated that CS at 1:1 ratio has better in-vitro activity against ESBL producing strains of E. coli and K. pneumoniae than at a 2:1 ratio in both normal bacterial inoculum and higher bacterial inoculum. This is suggestive of the need for the 1:1 ratio combination of Ceftriaxone-Sulbactam in management of severe infections caused by ESBL producing organisms.

Prognostic Accuracy of Soluble Triggering Receptor Expressed on Myeloid Cells (sTREM-1)-based Algorithms in Febrile Adults Presenting to Tanzanian Outpatient Clinics.

The inability to identify individuals with acute fever at risk of death is a barrier to effective triage and management of severe infections, especially in low-resource settings. Since endothelial and immune activation contribute to the pathogenesis of various distinct life-threatening infections, we hypothesized that measuring mediators of these pathways at clinical presentation would identify febrile adults at risk of death. Plasma concentrations of markers of endothelial (angiopoetin-1/2, soluble fms-like tyrosine kinase-1, soluble vascular cell adhesion molecule-1, soluble intercellular adhesion molecule-1) and immune (soluble triggering receptor expressed on myeloid cells [sTREM-1], interleukin-6, interleukin-8, chitinase-3-like protein-1, soluble tumor necrosis factor receptor-1, procalcitonin [PCT], C-reactive protein [CRP]) activation pathways were determined in consecutive adults with acute fever (≥38°C) at presentation to outpatient clinics in Dar es Salaam, Tanzania. We evaluated the accuracy of these mediators in predicting all-cause mortality and examined whether markers could improve the prognostic accuracy of clinical scoring systems, including the quick sequential organ failure assessment (qSOFA) and Glasgow coma scale (GCS). Of 507 febrile adults, 32 died (6.3%) within 28 days of presentation. We found that sTREM-1 was the best prognostic marker for 28-day mortality (area under the receiver operating characteristic [AUROC] 0.87, 95% confidence interval [CI] 0.81-0.92) and was significantly better than CRP (P < .0001) and PCT (P = .0001). The prognostic accuracy of qSOFA and the GCS were significantly enhanced when sTREM-1 was added (0.80 [95% CI 0.76-0.83] to 0.91 [95% CI 0.88-0.94; P < .05] and 0.72 [95% CI 0.63-0.80] to 0.94 [95% CI 0.91-0.97; P < .05], respectively). Measuring sTREM-1 at clinical presentation can identify febrile individuals at risk of all-cause febrile mortality. Adding severity markers such as sTREM-1 to simple clinical scores could improve the recognition and triage of patients with life-threatening infections in resource-limited settings.

Surgeons' Dilemma: Treatment of Implant-Associated Infection in the Cosmetic Breast Augmentation Patient.

Augmentation mammaplasty is the most common plastic surgical procedure performed in the USA. The management of severe implant-associated infection is a challenge, and the traditional two-stage treatment is associated with significant limitations. The aim of this literature review is to provide a comprehensive analysis of all studies dealing with the management of severe infection or implant exposure following cosmetic breast augmentation. The PubMed and Cochrane databases were searched through February 2018 for studies on the management of severe infection and threatened or actual implant exposure following primary augmentation mammaplasty. Search terms used were "breast implant," "breast prosthesis," "breast augmentation," "breast augmentation complications," "infected implant," "implant salvage" and "implant exposure." Five articles met inclusion criteria. There was inconsistency in the reporting of several key factors, such as the antibiotic regimens employed, culture sensitivities, time from diagnosis to treatment, implant characteristics, as well as the precise treatment of the capsule and pocket. A total of 58 implants were treated, of which 37 (63.8%) were exposed in the setting of infection and 21 (36.2%) were infected without exposure. One-stage implant salvage was employed in 31 implants and was successful in all. The capsular contracture rate with this approach was 6.5%. Antibiotic-alone, non-operative treatment was employed in the salvage of 22 implants, with success and capsular contracture rates of 77.3 and 13.6%, respectively. In the setting of severe periprosthetic infection in the absence of implant exposure, antibiotic-alone treatment was successful in the salvage of 13 out of 14 implants (92.9%). The inconsistency and paucity of the data in the literature preclude definitive conclusions with regard to the optimal management of the threatened implant following augmentation mammaplasty. Given the excellent salvage rates in this setting, a more prominent role and liberal utilization of implant salvage are proposed. This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .

Evaluation of the impact of a nationwide massive online open course on the appropriate use of antimicrobials.

To evaluate the impact of a massive online open course (MOOC) design on the appropriate use of antimicrobial agents, to determine specific study areas with better learning outcomes and to identify weak points. A pre- and post-intervention study in the context of a training course on infectious diseases aimed at health professionals. We designed a questionnaire with 30 questions related to the management of infectious diseases in different clinical situations. Participants had to answer the questions based on their competencies and training for these situations. We analysed the scores obtained before and after the course and the resulting progress. In addition, an open response section was provided to enable a qualitative evaluation. Two thousand one hundred and forty-eight health professionals were enrolled in the course. The questionnaire was completed before and after the course by 606 participants, mainly physicians (81.2%) and pharmacists (15.4%). The mean overall scores for the pre- and post-course questionnaires were 6.2 (SD 1.38) and 7.9 (SD 0.88), respectively (overall score increase = 1.8, SD 1.21, P < 0.001). A significant increase in self-assessment was detected (P < 0.001) for all the questions. Qualitative assessments were provided by 218 participants with 225 comments, most of which were very positive. The course with a MOOC design showed a great teaching capacity in the infectious diseases area for all the clinical situations analysed, notably in the management of severe infections with higher mortality. For future editions of this training activity, the need to include other infectious diseases, especially infections in primary care, was highlighted.

Life-Threatening Pneumopathy and U urealyticum in a STAT3-Deficient Hyper-IgE Syndrome Patient

A deficiency in signal transducer and activator of transcription 3 (STAT3) is responsible for autosomal dominant hyperimmunoglobulin E syndrome, an immunodeficiency syndrome causing Staphylococcus aureus, Streptococcus pneumonia, Haemophilus influenzae, and, rarely, Pseudomonas aeruginosa and Aspergillus sp infections. Currently, intracellular pathogens are not targeted in the management of severe infections. The pathophysiologic mechanism of hyperimmunoglobulin E syndrome immunodeficiency has recently been linked to a disorder in the T helper 17 pathway and disruption of the interleukin -23/interleukin-17 axis. We report an unusual case of severe pleuropneumopathy by Ureaplasma urealyticum in a teenage girl with STAT3-deficient hyperimmunoglobulin E syndrome (STAT3 HIES). A previous case of severe lung infection by Mycoplasma pneumoniae has already been described in a STAT3-deficient patient, but U urealyticum has never been reported in patients with STAT3 HIES. After a review of the literature, it seems that the specific immunodeficiency pathway of STAT3 HIES exposes STAT3 HIES patients to Ureaplasma lung infections because the pathophysiology of STAT3 HIES and Ureaplasma is based on STAT3 and T helper 17 cells.

Individualized antibiotic strategies.

Infections are common complications in critically ill patients and are frequently treated with antibiotics. Unfortunately, delivery of optimal therapy is complicated because efficacy of antimicrobials is influenced by the timing of treatment initiation, the use of combination therapy, and the optimization of drug dosing. Early diagnosis of infection is mandatory to provide a rapid and appropriate antibiotic therapy. The presence of less susceptible strains, in particular for hospital-acquired infections, or patients with severe disease, such as the presence of septic shock, may need combination antibiotic therapy. Antibiotic pharmacokinetics, notably volume of distribution and total body clearance, are significantly altered in these critically ill patients and can influence the attainment of adequate circulating levels when standard dosage regimens are administered. Higher dosing should be considered in such patients, although in case of renal impairment and reduced clearance, drug accumulation could also result in some side-effects. Nebulized antibiotics may provide a better clinical response than systemic antibiotics in ventilator-associated pneumonia because of multidrug-resistant pathogens. The optimal use of antibiotics in the management of severe infections is an important challenge for ICU physicians. Antimicrobial therapy needs to be individualized according to specific patient characteristics, infecting organisms, and susceptibility patterns.

Clinical metagenomics for the management of hospital- and healthcare-acquired pneumonia.

The increasing burden of multidrug-resistant bacteria affects the management of several infections. In order to prescribe adequate antibiotics, clinicians facing severe infections such as hospital-acquired pneumonia (HAP) need to promptly identify the pathogens and know their antibiotic susceptibility profiles (AST), which with conventional microbiology currently requires 24 and 48 h, respectively. Clinical metagenomics, based on whole genome sequencing of clinical samples, could improve the diagnosis of HAP, however, many obstacles remain to be overcome, namely the turn-around time, the quantification of pathogens, the choice of antibiotic resistance determinants (ARDs), the inference of the AST from metagenomic data and the linkage between ARDs and their host. Here, we propose to tackle those issues in a bottom-up, clinically driven approach.

Colistin in the management of severe infections with multidrug resistant Gram-negative bacilli

1933 – Boivin A, Mesrobeanu I and Mesrobeanu L describe a toxic factor enclosed in the outer membrane of Gram-negative bacteria – nowadays known as endotoxin (C.R. Soc. Biol. Paris 1933;114:307). Ever since, researchers have tried to employ mechanisms to neutralize this endotoxin and thus limit the progression of disease in patients with sepsis due to Gram-negative bacilli. Meanwhile, the use of antibiotics over the past decades has lead to the emergence of resistance, multidrug resistance, extensive resistance and pan resistance. One particular antibiotic is known to display anti-endotoxin activity by binding to the lipid A component of the bacterial lipopolysaccharide. This old antibiotic, colistin, is now reevaluated against multidrug resistant Gram-negative germs. The research on polymyxins A through E started back in 1947 and this class currently includes only two drugs of human use: polymyxin A and polymyxin E (colistin). First isolated and identified in Japan in 1949 as a product of Bacillus polymyxa var. colistinus, colistin was used until the '80s, when it was replaced by other drugs, because of its adverse reaction profile. A few decades later, during 2003-2005, colistin reentered clinical practice after a reevaluation of its nephrotoxicity (Falagas et al. Clin Infect Dis. 2005;40:1333-41). Colistin has brought 3 C's to the medical world: Confusion of terms, Complexity of pharmacology, Contradiction of posology. Confusion of terms: there are two forms of colistin available: colistin sulfate for topical and digestive use, and colistimethate sodium (CMS), for parenteral use; these are not interchangeable. Complexity of pharmacology: CMS is a prodrug that undergoes hydrolysis to active colistin and sulfomethylated derivatives in aqueous environments. While CMS is eliminated through the kidney, its main byproduct –colistin– undergoes tubular reabsorption and is eliminated through non-renal mechanisms. Contradiction of posology: there are different nomenclatures for units and labeling conventions. Labels present different dosage information, for either the prodrug (CMS) or the active substance (colistin base), with the doses differing by almost 2.5-fold. Also, different measurement units are used: milligrams for CMS and for colistin base versus million international units (IU) for biological standardization. In 2011 the US Institute for Safe Medication Practices issued a warning on the risk of fatal error with confusion between CMS versus colistin base doses. A hypothetical correspondence between differently labeled doses thus becomes an important clinical and theoretical instrument. (Falagas et al., Antimicrob Agents Chemother. 2006;50(6):2274-5). To complicate the issue even further, different guidelines calculate and recommend different doses based on body weight, renal function, and other parameters. However, despite these contradictions, the past decade has made it possible to study the pharmacokinetic properties of colistin within a mathematical model for preventing the emergence of bacterial resistance. A first important aspect is the need for a loading dose: the administered quantity of CMS needs to ensure a circulating concentration of active colistin above the MIC of the pathogenic agent. In 2009 Plachouras et al. have shown that the optimal loading dose is 9 million IU (Antimicrob Agents Chemother. 2009;53:3430-6). Second, the half-life of colistin, the area under the curve, and the time needed to reach a steady state also plead for the use of a loading dose, to decrease the time span when bacteria are exposed to suboptimal antibiotic concentrations and undergo selective resistance pressure. Last but not least, the in vitro study of colistin administration once, twice, or three times per day has shown that the bactericidal rate can be sustained with drug administration at 8/12/24 hours, but that the Q8h administration regimen appears to be more effective in preventing emergence of resistance (Bergen et al., J Antimicrob Chemother. 2008;61:636-42). When it comes to administering colistin in a critical patient, a new approach is needed: it is essential to avoid subtherapeutic concentrations in the first hours of therapy to reduce the odds of therapeutic failure or induction of resistance (Plachouras, Antimicrob Agents Chemother. 2009;53:3430-6). Therefore, colistin should be administered with a loading dose of 9 million IU as 2-hour infusion, followed by two administrations of 3 million IU at 12 hours and then by 3 million IU maintenance doses every 8 hours. To avoid the risk of overdosing or nephrotoxicity, in obese patients the doses are calculated based on ideal body weight and new data come to show that the loading dose can be adjusted from 9 to 6 million IU based on body weight (above and below 60 kg) – see Figure. Figure. Colistin administration regimen Notably, colistin should never be used as monotherapy, but rather it should be associated with potent drugs, active on Gram-negative bacilli (e.g. carbapenems), particularly in combinations that display documented synergy, as is the case with colistin increasing the susceptibility to meropenem. In conclusion, this old drug has been reevaluated and reintroduced into clinical practice, particularly in the management of severe infections with multidrug resistant Gram-negative bacilli.

Management of Severe Infections: A Time to Keep a Cool Head or a Hot Topic for Clinical Trials?

We believe that the study by Mourvillier et al (6) is an important addition to the infectious diseases literature and serves to guide our management of patients with severe meningitis. Based on this study and others, it is evident that hypothermia is a pathological state and prompt resuscitation to normothermia is warranted in patients with severe infections. In contrast, fever is an adaptive host response to infection and its presence is associated with improved outcome in neurologically intact, infected patients admitted to ICUs. While it may appear ridiculous to the many clinicians who insist on treating all fevers in infected patients, it is our contention that therapeutic hyperthermia requires (re-)exploration as an adjunctive therapy for selected patients with infection (25).

Propionibacterium acnes: an underestimated pathogen in implant-associated infections.

The role of Propionibacterium acnes in acne and in a wide range of inflammatory diseases is well established. However, P. acnes is also responsible for infections involving implants. Prolonged aerobic and anaerobic agar cultures for 14 days and broth cultures increase the detection rate. In this paper, we review the pathogenic role of P. acnes in implant-associated infections such as prosthetic joints, cardiac devices, breast implants, intraocular lenses, neurosurgical devices, and spine implants. The management of severe infections caused by P. acnes involves a combination of antimicrobial and surgical treatment (often removal of the device). Intravenous penicillin G and ceftriaxone are the first choice for serious infections, with vancomycin and daptomycin as alternatives, and amoxicillin, rifampicin, clindamycin, tetracycline, and levofloxacin for oral treatment. Sonication of explanted prosthetic material improves the diagnosis of implant-associated infections. Molecular methods may further increase the sensitivity of P. acnes detection. Coating of implants with antimicrobial substances could avoid or limit colonization of the surface and thereby reduce the risk of biofilm formation during severe infections. Our understanding of the role of P. acnes in human diseases will likely continue to increase as new associations and pathogenic mechanisms are discovered.

Monotherapy for Patients with Severe Sepsis

The necessity of combined antibiotic therapy for the management of severe infection has been debated for decades. Given recent data indicating

Plasmid-Mediated Resistance in Enterobacteriaceae

Antimicrobial resistance is increasing worldwide, and pathogenic microorganisms that are resistant to all available antimicrobial agents are increasingly reported. Emerging plasmid-encoded extended-spectrum β-lactamases (ESBLs) and carbapenemases are increasingly reported worldwide. Carbapenemase production encoded by genes located on mobile genetic elements is typically accompanied by genes encoding resistance to other drug classes, often but not necessarily located on the same mobile element. Multiple plasmid-mediated mechanisms of resistance against the fluoroquinolones and aminoglycosides have been described, and the combination of plasmid-mediated resistance with chromosomally encoded resistance mechanisms of multiple drug classes now results in strains that are resistant to all of the main classes of commonly used antimicrobial drugs. Clinical studies of antimicrobial therapy and outcome of patients infected with ESBL- or carbapenemase-producing strains of Enterobacteriaceae compared with patients infected with susceptible strains are limited in their design but suggest a worse outcome after infection with resistant strains. Alternative options for the treatment of infections caused by carbapenem-resistant strains of Enterobacteriaceae are limited. Current strategies include colistin, fosfomycin, tigecycline and temocillin. Although in vitro testing suggests strong activity for each of these drugs against a large proportion of carbapenem-resistant strains of Enterobacteriaceae, clinical evaluations do not provide strong evidence for equivalent or improved outcome. Oral treatment with fosfomycin tromethamine is effective against lower urinary tract infections (UTIs) caused by ESBL-producing Escherichia coli. Intravenous fosfomycin may be beneficial and safe for patients when used as part of a combination therapy in the management of severe infections caused by carbapenem-resistant Klebsiella pneumoniae. Tigecycline is only indicated for the treatment of complicated skin and skin structure infections and complicated intra-abdominal infections in Europe, and is also approved for treatment of community-acquired pneumonia in the US. Clearly, further research on the clinical and safety outcomes in the treatment of multidrug-resistant Enterobacteriaceae with these existing alternative drugs, and the development of new and unrelated drugs, are urgently warranted.

Macrocycle Molecules for the Management of Systemic Infections: the Clarithromycin Paradigm

Macrolides currently play a major role in the management of severe infections. Evidence derives from several retrospective studies have shown a significant reduction of mortality from community-acquired pneumonia upon treatment with a macrolide. Apart from other explanations, their effect is probably mediated through modulation of the immune function of the host. Supporting this inference are results from various studies which have shown that macrolides, such as clarithromycin, prolonged survival and modulate monocytes functions in both animal models and clinical presentation of pyelonephritis and sepsis of Gram-negative pathogens. The present review focuses on how the concept of macrolide function within the human immune system has evolved in recent years. Particular emphasis is on the role of macrolides in the treatment of sepsis syndrome. Many of the findings herein discussed have created a novel perspective for the management of sepsis syndrome with 14-membered macrolide, specifically clarithromycin.

Retrovirus gene therapy for X-linked chronic granulomatous disease can achieve stable long-term correction of oxidase activity in peripheral blood neutrophils

AbstractChronic granulomatous disease (CGD) is associated with significant morbidity and mortality from infection. The first CGD gene therapy trial resulted in only short-term marking of 0.01% to 0.1% of neutrophils. A recent study, using busulfan conditioning and an SFFV retrovirus vector, achieved more than 20% marking in 2 patients with X-linked CGD. However, oxidase correction per marked neutrophil was less than normal and not sustained. Despite this, patients clearly benefited in that severe infections resolved. As such, we initiated a gene therapy trial for X-CGD to treat severe infections unresponsive to conventional therapy. We treated 3 adult patients using busulfan conditioning and an MFGS retroviral vector encoding gp91phox, achieving early marking of 26%, 5%, and 4% of neutrophils, respectively, with sustained long-term marking of 1.1% and 0.03% of neutrophils in 2 of the patients. Gene-marked neutrophils have sustained full correction of oxidase activity for 34 and 11 months, respectively, with full or partial resolution of infection in those 2 patients. Gene marking is polyclonal with no clonal dominance. We conclude that busulfan conditioning together with an MFGS vector is capable of achieving long-term correction of neutrophil oxidase function sufficient to provide benefit in management of severe infection. This study was registered at www.clinicaltrials.gov as #NCT00394316.