Non-antibiotic Interventions Research Articles

Nonantibiotic prophylaxis for urinary tract infections: a network meta-analysis of randomized controlled trials.

Recent guidelines indicated that, in addition to antibiotics, nonantibiotic interventions serve as available preventive options for urinary tract infections (UTIs). This study aimed to compare the efficacy and safety of various nonantibiotic interventions in preventing UTIs. The authors systematically searched databases for eligible studies. The inclusion criteria encompassed randomized controlled trials (RCTs) focusing on one or more nonantibiotic interventions for UTI prevention, with the incidence of UTIs being a key outcome measure. Subgroup analyses were performed according to age, sex, and follow-up. 50 RCTs comprising 10,495 subjects and investigating 14 interventions, were included. Nearly 80% of the RCTs utilized double-blind or triple-blind designs. In the whole group, D-mannose (risk ratio [RR] 0.34, 0.21 to 0.56), vaccine (RR 0.65, 0.52 to 0.82), probiotics (RR 0.69, 0.50 to 0.94), cranberry (RR 0.72, 0.60 to 0.87), and triple therapy (cranberry plus probiotics plus vitamin A) (RR 0.27, 0.09 to 0.87), exhibited a significant reduction in UTI incidence compared to the placebo. Probiotics (RR 0.50, 0.28 to 0.89) were the most effective in the nonadult group, while vitamin D (RR 0.46, 0.27 to 0.81) showed the highest efficacy in the long follow-up group (≥ 1 year). There was no significant difference in the incidence of adverse events between the interventions and the placebo group. D-mannose, triple therapy, vaccine, probiotics, and cranberry serve as potential nonantibiotic intervention options for clinical UTI prevention.

Biotransformation of phytochemicals: Way forward to gut microbial, nutraceuticals and herbal therapeutics advancements

Mammalian gastrointestinal tract is inhabited by trillions of symbiotic microbiotas representing viruses, bacteria, archaea and eukaryotes including yeasts, fungi and protozoa. Compared to humans, the herbivores harbor a complex and metabolically efficient microbes which not only detoxify inadvertently consumed anti-nutritional phytochemicals, but also convert ingested tannin-polyphenols, saponins, phytoestrogens and alkaloids into metabolites which are more available and bioactive than their precursors. Some microbes detoxify toxicants and eliminate them from body. The resulting metabolites display a range of nutritional and therapeutic benefits besides their direct impact on enhancing diversity and functioning of the gut microbiome. Metabolically active gut microbiota and the metabolites generated might be the futuristic alternative biotherapeutics to develop nutraceuticals and plant-based health formulations primarily for ‘metabotype 0’ individuals. Further insights into novel microbial species, modes of microbial biotransformation of phytochemicals and botanicals will pave the way to develop futuristic non-antibiotic interventions to avert infections and boost human and veterinary health. Keywords: Gut microbiome; Phytochemicals; Biotransformation; Biotherapeutics Highlights: Gut microbes and dietary phytochemicals prevent host against chronic diseases and infections. Little is known about metabolism and modes of action of the GI metabolites of botanicals and herbal supplements. Gut microbial metabolites having anti-inflammatory, anti-oxidative and anti-carcinogenic properties might be the futuristic therapeutics.

Medicinal Plants and Natural Substances for Poultry Health: A Review

The global poultry industry relies heavily on antibiotics to prevent and treat diseases and promote growth. However, the rise of antibiotic-resistant bacteria poses significant risks to both animal and human health, necessitating alternative approaches to maintain health and productivity. This review systematically examines the evidence for medicinal plants and their bioactive components as non-antibiotic interventions and growth promoters in poultry species. Numerous herbs, spices, plant extracts, essential oils, and isolated phytochemicals demonstrate beneficial bioactivities relevant to poultry production in vitro and in vivo, including antimicrobial, anti-inflammatory, immunomodulatory, and antioxidant effects. While considerable research confirms positive impacts on performance under experimental conditions, questions remain regarding bioavailability, mechanisms, efficacy, safety, feasibility, and suitability for commercial integration that currently impede widespread adoption as antibiotic alternatives. Further high-quality controlled trials directly analyzing physiological responses, production impacts, safety profiles, and cost-effectiveness analysis are warranted to support the integration of evidence-based phytogenic feed additives in poultry production systems.

1199. Implementation of a Nasal Antiseptic Decolonization Program Reduces the Occurrence of Healthcare-Associated Infections in the Adult Intensive Care Unit Setting

Abstract Background Universal decolonization programs effectively reduce methicillin-resistant Staphylococcus aureus (MRSA) infections, bloodstream infections, and healthcare costs. However, universal decolonization programs that utilize mupirocin may promote antimicrobial resistance. Non-antibiotic interventions, such as nasal antiseptic decolonization, can contribute to the prevention of healthcare-associated infections (HAIs). A large hospital system sought to evaluate the impact of a universal nasal antiseptic program on HAIs in the adult intensive care unit (ICU) setting. Methods A nasal antisepsis decolonization quality improvement project (QIP) was implemented to reduce ICU HAIs by applying a 62% nasal antiseptic swab with emollients bilaterally to the nares every 12 hours for all adult ICU patients. The program was piloted across nine ICUs at three large hospitals from November 2021 to January 2022 and captured data from 12,404 patient days and 4,058 treatment days. Central line-associated blood stream infection (CLABSI), catheter-associated urinary tract infection (CAUTI), and MRSA bacteremia rates were compared a) between treated and non-treated patients during the QIP period and b) to rates during a three-month period prior to the QIP. Results The results of the pilot program indicated that patients who received treatment with the 62% nasal swab developed fewer HAIs than patients who did not receive the treatment. Two HAIs occurred in the treatment group (two CAUTIs) compared to 14 HAIs in the non-treatment group (three CAUTIs, nine CLABSIs, and two MRSA bacteremia). Figures 1 and 2 below demonstrate HAI rates in the non-treatment and the treatment groups. Figure 1Figure 2 Conclusion Based on pilot results, the system approved implementation of a universal nasal antisepsis program using the 62% alcohol based nasal swab with emollients for expansion to all adult critical care units. Considerations for the future implementation of the program include broadening patient inclusion and performing ongoing HAI surveillance of treated and untreated patient groups. Disclosures All Authors: No reported disclosures.

Novel expansion of a well-established antimicrobial stewardship program: Enhancing program efficiency and reach.

To evaluate efficiency and impact of a novel antimicrobial stewardship program (ASP) prospective-audit-with-feedback (PAF) review process using the Cerner Multi-Patient Task List (MPTL). Retrospective cohort study. A 367-bed free-standing, pediatric academic medical center. The ASP PAF review process expanded to monitor all systemic and inhaled antibiotics through use of the MPTL on July 23, 2020. Average number of daily ASP reviews, absolute number of monthly interventions, and time to conduct ASP reviews were compared between the preimplementation period and the postimplementation period following expansion. Antibiotic days of therapy (DOT) per 1,000 patient days for overall and select antibiotics were compared between periods. ASP intervention characteristics were assessed. Average daily ASP reviews significantly increased following program expansion (9 vs 14 reviews; P < .0001), and the absolute number of ASP interventions each month also increased (34 vs 52 interventions; P ≤ .0001). Time to conduct daily ASP reviews increased in the postimplementation period (1.03 vs 1.32 hours). Overall antibiotic DOT per 1,000 patient days significantly decreased in the postimplementation period (457.9 vs 427.9; P < .0001) as well as utilization of select, narrow-spectrum antibiotics such as ampicillin and clindamycin. Intervention type and antibiotics were similar between periods. The ASP documented 128 "nonantibiotic interventions" in the postimplementation period, including culture and/or susceptibility testing (32.8%), immunizations (25.8%), and additional diagnostic testing (22.7%). Implementation of an ASP PAF review process using the MPTL allowed for efficient expansion of a pre-existing ASP and a decrease in overall antibiotic utilization. ASP documentation was enhanced to fully track the impact of the program.

Flurofamide Prevention and Treatment of Ureaplasma-Induced Hyperammonemia.

ABSTRACTHyperammonemia (HA) syndrome caused by respiratory infection with ammonia (NH3)-producing Ureaplasma species occurs in 4% of lung transplant recipients (LTRs) and is associated with high mortality. Although Ureaplasma-targeted antibiotic intervention is effective, the threat of antibiotic resistance development and pre-existing resistance make an alternative to antibiotics desirable. Considering that the underlying pathology of Ureaplasma-induced hyperammonemia (UIHA) is dependent upon ureaplasmal urease converting urea to NH3, urease inhibition could represent a targeted treatment approach. Here, the ability of the urease inhibitor, flurofamide, to prevent and treat UIHA was investigated. To confirm that flurofamide is broadly active against Ureaplasma respiratory isolates, the minimum urease inhibitory concentration against 4 isolates of Ureaplasma parvum and 5 isolates of Ureaplasma urealyticum was first determined in vitro. NH3 production by all isolates was inhibited by ≤2 μM flurofamide. To test the ability of flurofamide to prevent and treat UIHA, a mouse model of Ureaplasma respiratory infection was utilized. When animals were administered 6 mg/kg flurofamide via intraperitoneal injection 1 h prior to infection with U. parvum, flurofamide-administered animals exhibited significantly lower blood NH3 levels than did non-prophylaxed animals (10.9 ± 4.0 μmol/L compared to 26.5 ± 17.7 μmol/L; P = 0.0146) 24 h post-treatment. When U. parvum-infected hyperammonemic mice were treated with 6 mg/kg flurofamide, treated animals had significantly greater decreases in blood-NH3 levels 6 h post-treatment than did untreated mice (56.4 ± 17.1% compared to 9.1 ± 33.5% reduction; P = 0.0152). Together, these results indicate that flurofamide is a promising non-antibiotic treatment for UIHA in LTRs.IMPORTANCE Ureaplasma-associated hyperammonemia syndrome occurs in 4% of lung transplant recipients and has historically been almost universally fatal. While Ureaplasma-targeted antibiotics have been shown to be protective, the possibility of underlying resistance and resistance selection render non-antibiotic interventions an interesting approach.

Contribution of Uremia to Ureaplasma-Induced Hyperammonemia.

ABSTRACTLung transplant recipients (LTRs) are vulnerable to hyperammonemia syndrome (HS) in the early postoperative period, a condition typically unresponsive to nonantibiotic interventions. HS in LTRs is strongly correlated with Ureaplasma infection of the respiratory tract, although it is not well understood what makes LTRs preferentially susceptible to HS compared to other immunocompromised hosts. Ureaplasma species harbor highly active ureases, and postoperative LTRs commonly experience uremia. We hypothesized that uremia could be a potentiating comorbidity, providing increased substrate for ureaplasmal ureases. Using a novel dialyzed flow system, the ammonia-producing capacities of four isolates of Ureaplasma parvum and six isolates of Ureaplasma urealyticum in media formulations relating to normal and uremic host conditions were tested. For all isolates, growth under simulated uremic conditions resulted in increased ammonia production over 24 h, despite similar endpoint bacterial quantities. Further, transcripts of ureC (from the ureaplasmal urease gene cluster) from U. urealyticum IDRL-10763 and ATCC-27816 rose at similar rates under uremic and nonuremic conditions, with similar endpoint populations under the two conditions (despite markedly increased ammonia concentrations under uremic conditions), indicating that the difference in ammonia production by these isolates is due to increased urease activity, not expression. Lastly, uremic mice infected with an Escherichia coli strain harboring a U. urealyticum serovar 8 gene cluster exhibited higher blood ammonia levels compared to nonuremic mice infected with the same strain. Taken together, these data show that U. urealyticum and U. parvum produce more ammonia under uremic conditions compared to nonuremic conditions. This implies that uremia is a plausible contributing factor to Ureaplasma-induced HS in LTRs.IMPORTANCE Ureaplasma-induced hyperammonemia syndrome is a deadly complication affecting around 4% of lung transplant recipients and, to a lesser extent, other solid organ transplant patients. Understanding the underlying mechanisms will inform patient management, potentially decreasing mortality and morbidity. Here, it is shown that uremia is a plausible contributing factor to the pathophysiology of the condition.

Effect of Antibiotics in Preventing Hospitalizations From Respiratory Tract Infections in Children With Down Syndrome

To determine the impact of antibiotic prescription for respiratory tract infections (RTIs) on the subsequent risk of RTI-related hospitalizations in children with Down syndrome (DS).Children aged ≤18 years (defined in groups: 0–1 years; 1–5 years; 5–10 years; and 10–18 years), with DS (as identified by Read and International Statistical Classification of Diseases and Related Health Problems 10th Revision, codes) were included. Each child with DS in the cohort were frequency matched by general practitioner (GP), sex, birth year (+/− 5 years), and start of follow-up age ≤18 years (follow-up was defined as a period of 28 days from the initial RTI-related GP consultation or until the first RTI-related hospitalization).Information regarding health care use was extrapolated from Clinical Disease Research Using Linked Bespoke Studies and Electronic Health Records, an electronic health records database in the United Kingdom, on the basis of Read and International Statistical Classification of Diseases and Related Health Problems 10th Revision, codes, to classify types of RTIs (lower respiratory tract infection; upper respiratory tract infection; unclassified) and probable versus possible RTI, identify diagnosis of DS and other comorbidities, and determine admission and discharge dates. Extracted data were reviewed and confirmed by a committee of clinicians and academic professionals. Logistic regression models were used to assess the impact of antibiotic prescriptions on the risk of subsequent RTI-related hospitalization in DS patients with RTI-related GP consultations. In subgroup analyses, the researchers further explored the effect of antibiotics across different age groups and type of RTI.Both cohorts (DS: 992; control: 4874) had similar demographic characteristics for sex and age. There were more White individuals in the group with DS versus in the control group (58.5% vs 41.8%) and more comorbidities in the group with DS. Antibiotic prescriptions after an RTI-related GP consultation did not significantly reduce the risk of the 28-day RTI-related hospitalization for either group, even after adjusting for antibiotic prescription, age group, sex, presence of congenital heart disease, presence of asthma, and number of previous RTI-related hospitalizations and RTI-related GP consultations in the previous 6 months. When adjusted for the same covariates, RTI-related hospitalizations were significantly reduced in DS individuals aged 0–1 years who were prescribed antibiotics for RTI-related concerns (adjusted odds ratio: 0.260; 95% confidence interval: 0.077 to 0.876) but not in other age groups. This protective effect was also not seen by type of RTI or in the control group.Aside from infants aged 0 to 1 years with DS, antibiotic prescriptions did not reduce RTI-related hospitalizations.It appears that children with DS are frequently prescribed antibiotics for viral infections in the United Kingdom. Although antibiotics have not been shown to reduce hospitalizations for RTI in the general pediatric population, in previous studies, researchers did not include children with comorbidities, prompting these authors to specifically examine children with DS. It is unclear how antibiotic prescribing behavior for this special population compares between the United Kingdom and the United States, thus limiting the generalizability of these results. Nevertheless, the authors surmise that nonantibiotic interventions to manage RTIs in medically complex children can be effective, which is consistent with our outpatient stewardship efforts to combat antibiotic misuse and resistance in the United States.

Control of Escherichia coli Serotype O157:H7 Motility and Biofilm Formation by Salicylate and Decanoate: MarA/SoxS/Rob and pchE Interactions.

Prophage-encoded Escherichia coli O157:H7 transcription factor (TF), PchE, inhibits biofilm formation and attachment to cultured epithelial cells by reducing curli fimbriae expression and increasing flagella expression. To identify pchE regulators that might be used in intervention strategies to reduce environmental persistence or host infections, we performed a computational search of O157:H7 strain PA20 pchE promoter sequences for binding sites used by known TFs. A common site shared by MarA/SoxS/Rob TFs was identified and the typical MarA/Rob inducers, salicylate and decanoate, were tested for biofilm and motility effects. Sodium salicylate, a proven biofilm inhibitor, but not sodium decanoate, strongly reduced O157:H7 biofilms by a pchE-independent mechanism. Both salicylate and decanoate enhanced O157:H7 motility dependent on pchE using media and incubation temperatures optimum for culturing human epithelial cells. However, induction of pchE by salicylate did not activate the SOS response. MarA/SoxS/Rob inducers provide new potential agents for controlling O157:H7 interactions with the host and its persistence in the environment. IMPORTANCE There is a need to develop E. coli serotype O157:H7 nonantibiotic interventions that do not precipitate the release and activation of virulence factor-encoded prophage and transferrable genetic elements. One method is to stimulate existing regulatory pathways that repress bacterial persistence and virulence genes. Here we show that certain inducers of MarA and Rob have that ability, working through both pchE-dependent and pschE-independent pathways.

Non-antibiotic interventions for prevention of urinary tract infections in children: a systematic review and meta-analysis of randomized controlled trials.

A considerable proportion of children experience a recurrence of urinary tract infection (UTI) following the first episode. While low-dose antibiotic prophylaxis has been the mainstay for the prevention of UTI, recent evidence raised concerns over their efficacy and safety. Hence, we aim to systematically synthesize evidence on the efficacy and safety of non-antibiotic prophylactic interventions for UTI. Using keywords related to study population (children) and intervention (non-antibiotic), we searched CENTRAL, Embase, PubMed, and Web of Science for randomized controlled trials (RCTs) published until August 2020. RCTs comparing any non-antibiotic interventions with placebo/antibiotics for prevention of UTIs in children were considered eligible. We used a random-effect model to provide pooled estimates. Sixteen trials evaluating 1426 participants were included. Cranberry was as effective as antibiotic prophylaxis (RR: 0.92; 95% CI: 0.56-1.50) but better than placebo/no therapy (RR: 0.48; 95% CI: 0.28-0.80) in reducing UTI recurrence. Probiotic therapy was more effective in reducing UTI recurrence (RR: 0.52; 95% CI: 0.29-0.94) when compared with placebo. While probiotic therapy was not better than antibiotics prophylaxis in preventing UTI (RR: 0.82; 95% CI: 0.56-1.21), they have a lower risk of antibiotic resistance (RR: 0.38; 95% CI: 0.21-0.69).Conclusion: Cranberry products and probiotics are the two non-antibiotic interventions that have been chiefly evaluated, reduce the risk of UTI recurrence when compared with placebo in children with a normal urinary tract. The findings from this systematic review suggest that while cranberry and probiotics may be used, there is a definite need to identify better and more acceptable non-antibiotic interventions. What is Known: • Efficacy of the low-dose antibiotic is controversial in preventing UTI and it is associated with increase in the risk of antimicrobial resistance. • Non-antibiotic interventions such as cranberry products are effective in preventing UTI recurrence in adults. What is New: • Cranberry products are effective in reducing the recurrence of UTI in children with normal urinary tract. • Low-quality evidence suggests that probiotics can be a potential prophylactic measure to reduce recurrence of UTI in the pediatric population.

263. An Evaluation of Quality Indicators for the Management of Staphylococcus aureus Bacteremia: A Nested Case-Control Study

BackgroundCommunity-acquired Staphylococcus aureus bacteremia (CA SAB) is a common infection with high mortality. Ten Oever et al. recently used expert consensus methods to develop a set of 25 quality indicators for SAB care in five domains (i.e., follow up blood cultures, echocardiography, non-antibiotic interventions including source control, antibiotic treatment, and other management aspects). Associations between these quality indicators and patient outcomes have not been evaluated. We assessed associations between proposed quality indicators and all-cause 30-day mortality among patients with CA SAB.MethodsWe conducted a nested case-control study within a described national multicenter cohort of patients with SAB in the Veterans Health Administration (VHA). The cohort included 2,093 patients who were: 1) admitted to acute care hospitals between 1/2012 and 12/2014 for CA SAB (the first positive blood culture before or within 48 hours of admission with no recent healthcare exposure); 2) survived at least 96 hours after the SAB onset. We identified paired cases (who died within 30 days) and controls (who survived an equal time), matched 1:1 for age (+/- 5 years), gender, admission year and month, and methicillin susceptibility of isolates. We reviewed charts to extract information for quality indicators. We estimated associations between quality indicators and mortality using logistic regression, adjusting for patient demographics and comorbidity.Results164 patients (82 cases and 82 controls) were included. The median patient age was 68.5 (IQR: 62–80) years, and 74 (45.1%) had methicillin-resistant isolates. All patients received at least one domain of quality indicator (median: 3 [IQR: 2–4]). When analyzed individually, only two domains (follow-up blood cultures: OR 0.27 [95% CI: 0.11–0.68]; source control: OR: 0.13 [0.05–0.31]) were associated with mortality. There was a dose-response relationship in which more domains received was associated with decreased mortality (Figure).Association Between the Number of Satisfied Quality Indicator Domains and All-Cause 30-day Mortality ConclusionAmong patients with CA-SAB, the number of satisfied quality indicator domains was associated with 30-day mortality with a dose-response relationship. This finding supports the relevance of these quality indicators for SAB management.Disclosures All Authors: No reported disclosures

Nonantibiotic Strategies for the Prevention of Infectious Complications following Prostate Biopsy: A Systematic Review and Meta-Analysis.

We identify which nonantibiotic strategies could reduce the risk of infectious complications following prostate biopsy. We performed a literature search on MEDLINE®, Embase® and the Cochrane Database for randomized controlled trials (inception to May 2020) assessing nonantibiotic interventions in prostate biopsy. Primary outcome was pooled infectious complications (fever, sepsis and symptomatic urinary tract infection) and secondary outcome was hospitalization. Cochrane risk of bias tool and GRADE approach were used to assess the bias and the certainty of evidence. The study protocol was registered with PROSPERO (CRD42015026354). A total of 90 randomized controlled trials (16,941 participants) were included in the analysis, with 83 trials being categorized into one of 10 different interventions. Transperineal biopsy was associated with significantly reduced infectious complications as compared to transrectal biopsy (RR 0.55, 95% CI 0.33-0.92, p=0.02, I2=0%, 1,330 participants, 7 studies). Rectal preparation with povidone-iodine was also shown to reduce infectious complications (RR 0.50, 95% CI 0.38-0.65, p <0.000001, I2=27%, 1,686 participants, 8 studies) as well as hospitalization (RR 0.38, 95% CI 0.21-0.69, p=0.002, I2=0%, 620 participants, 4 studies). We found no difference in infectious complications/hospitalization for 6 other interventions, ie number of biopsy cores, periprostatic nerve block, number of injections for periprostatic nerve block, needle guide type, needle type and rectal preparation with enema. In 2 interventions (needle diameter, rectal preparation with chlorhexidine) meta-analysis was not possible. Finally, 7 studies had unique interventions. The certainty of evidence was rated as low/very low for all interventions. Transperineal biopsy significantly reduces infectious complications compared to transrectal biopsy and should therefore be preferred. If transrectal biopsy is performed, rectal preparation with povidone-iodine is highly recommended. The other investigated nonantibiotic strategies did not significantly influence infection and hospitalization after prostate biopsy.

Salmonella Bacteriophage Diversity According to Most Prevalent Salmonella Serovars in Layer and Broiler Poultry Farms from Eastern Spain.

Simple SummaryThere is a lack of knowledge about the impact that phages present in the environment may have against certain Salmonella serovars. Thus, an improved understanding of Salmonella phage diversity will provide a better insight into the role of phages in Salmonella ecology and diversity. The results of this study showed that the poultry farm environment could represent a valuable source of Salmonella phages, which are more varied in broiler than in layer farms.The exploration of novel nonantibiotic interventions in the field, such as the use of bacteriophages, is necessary to avoid the presence of Salmonella. Bacteriophages are a group of viruses widely distributed in nature, strictly associated with the prokaryotic cell. Researchers have demonstrated the success of phage therapy in reducing Salmonella counts in poultry products. However, the impact that phage concentration in the environment may have against certain Salmonella serovars is not well understood. Therefore, the aim of this study was to assess Salmonella phage prevalence in commercial poultry farms in terms of the production type: layers or broilers. The most prevalent Salmonella serovars isolated in poultry production were used for phage isolation. Salmonella specific phages were isolated from 141 layer and broiler farms located in the Valencia region during 2019. Analysis of the samples revealed that 100% presented Salmonella phages, the most prevalent being against serovar S. Enteritidis (93%), followed by S. Virchow (59%), S. Typhimurium (55%), S. Infantis (52%) and S. Ohio (51%). These results indicate that poultry farms could represent an important source of Salmonella phages. Nevertheless, further studies are needed to assess the epidemiology of phages against other serovars present in other countries and their diversity from the point of view of molecular studies.

Non-antibiotic approaches for disease prevention and control in beef and veal production: a scoping review.

Livestock producers are encouraged to reduce the use of antibiotics belonging to classes of medical importance to humans. We conducted a scoping review on non-antibiotic interventions in the form of products or management practices that could potentially reduce the need for antibiotics in beef and veal animals living under intensive production conditions. Our objectives were to systematically describe the research on this broad topic, identify specific topics that could feasibly support systematic reviews, and identify knowledge gaps. Multiple databases were searched. Two reviewers independently screened and charted the data. From the 13,598 articles screened, 722 relevant articles were charted. The number of relevant articles increased steadily from 1990. The Western European research was dominated by veal production studies whereas the North American research was dominated by beef production studies. The interventions and outcomes measured were diverse. The four most frequent interventions included non-antibiotic feed additives, vaccinations, breed type, and feed type. The four most frequent outcomes were indices of immunity, non-specific morbidity, respiratory disease, and mortality. There were seven topic areas evaluated in clinical trials that may share enough commonality to support systemic reviews. There was a dearth of studies in which interventions were compared to antibiotic comparison groups.

The Microbial Pecking Order: Utilization of Intestinal Microbiota for Poultry Health.

The loss of antibiotics as a tool to improve feed efficiency in poultry production has increased the urgency to understand how the microbiota interacts with animals to impact productivity and health. Modulating and harnessing microbiota-host interactions is a promising way to promote poultry health and production efficiencies without antibiotics. In poultry, the microbiome is influenced by many host and external factors including host species, age, gut compartment, diet, and environmental exposure to microbes. Because so many factors contribute to the microbiota composition, specific knowledge is needed to predict how the microbiome will respond to interventions. The effects of antibiotics on microbiomes have been well documented, with different classes of antibiotics having distinctive, specific outcomes on bacterial functions and membership. Non-antibiotic interventions, such as probiotics and prebiotics, target specific bacterial taxa or function to enhance beneficial properties of microbes in the gut. Beneficial bacteria provide a benefit by displacing pathogens and/or producing metabolites (e.g., short chain fatty acids or tryptophan metabolites) that promote poultry health by improving mucosal barrier function or immune function. Microbiota modulation has been used as a tool to reduce pathogen carriage, improve growth, and modulate the immune system. An increased understanding of how the microbiota interacts with animal hosts will improve microbiome intervention strategies to mitigate production losses without the need for antibiotics.

Studies of selective digestive decontamination as a natural experiment to evaluate topical antibiotic prophylaxis and cephalosporin use as population-level risk factors for enterococcal bacteraemia among ICU patients.

Selective digestive decontamination (SDD) and selective oropharyngeal decontamination (SOD) regimens appear protective against ICU-acquired overall bacteraemia. These regimens can be factorized as topical antibiotic prophylaxis (TAP) with (SDD) or without (SOD) protocolized parenteral antibiotic prophylaxis (PPAP) using cephalosporins. Both TAP and cephalosporins are risk factors for enterococcal colonization although their impact on enterococcal bacteraemia within studies of SDD/SOD remains unclear. To benchmark the enterococcal bacteraemia incidence within component (control and intervention) groups of SDD/SOD studies among ICU patients versus studies without intervention (observational groups). The literature was searched for SDD/SOD studies reporting enterococcal bacteraemia incidence data. In addition, component groups of studies of various non-antibiotic interventions served to provide additional points of reference. The mean incidence per 100 patients (and 95% CI) for enterococcal bacteraemia among 19 SDD/SOD studies was equally increased among concurrent control (2.1; 1.0%-4.7%) and intervention (2.3; 2.0%-2.7%) groups versus the benchmark incidence (0.8; 0.6%-1.2%) derived from 16 observational study groups and also versus 9 component groups from non-antibiotic studies. These higher incidences remained apparent (P < 0.02) in a meta-regression model adjusting for groupwide factors such as PPAP use, mechanical ventilation proportion, group mean length of stay >7 days and publication year. The incidences of enterococcal bacteraemia within both concurrent control and intervention groups of SDD/SOD studies are unusually high compared with the literature-derived benchmark. The impact of parenteral cephalosporin used as PPAP additional to TAP on enterococcal bacteraemia incidence was indeterminate in this analysis.

An Engineered Synthetic Biologic Protects Against Clostridium difficile Infection.

Morbidity and mortality attributed to Clostridium difficile infection (CDI) have increased over the past 20 years. Currently, antibiotics are the only US FDA-approved treatment for primary C. difficile infection, and these are, ironically, associated with disease relapse and the threat of burgeoning drug resistance. We previously showed that non-toxin virulence factors play key roles in CDI, and that colonization factors are critical for disease. Specifically, a C. difficile adhesin, Surface Layer Protein A (SlpA) is a major contributor to host cell attachment. In this work, we engineered Syn-LAB 2.0 and Syn-LAB 2.1, two synthetic biologic agents derived from lactic acid bacteria, to stably and constitutively express a host-cell binding fragment of the C. difficile adhesin SlpA on their cell-surface. Both agents harbor conditional suicide plasmids expressing a codon-optimized chimera of the lactic acid bacterium’s cell-wall anchoring surface-protein domain, fused to the conserved, highly adherent, host-cell-binding domain of C. difficile SlpA. Both agents also incorporate engineered biocontrol, obviating the need for any antibiotic selection. Syn-LAB 2.0 and Syn-LAB 2.1 possess positive biophysical and in vivo properties compared with their parental antecedents in that they robustly and constitutively display the SlpA chimera on their cell surface, potentiate human intestinal epithelial barrier function in vitro, are safe, tolerable and palatable to Golden Syrian hamsters and neonatal piglets at high daily doses, and are detectable in animal feces within 24 h of dosing, confirming robust colonization. In combination, the engineered strains also delay (in fixed doses) or prevent (when continuously administered) death of infected hamsters upon challenge with high doses of virulent C. difficile. Finally, fixed-dose Syn-LAB ameliorates diarrhea in a non-lethal model of neonatal piglet enteritis. Taken together, our findings suggest that the two synthetic biologics may be effectively employed as non-antibiotic interventions for CDI.

Treatment of Complicated Urinary Tract Infections in Individuals with Chronic Neurogenic Lower Urinary Tract Dysfunction: Are Antibiotics Mandatory?

Introduction: Urinary tract infections (UTI) in patients with neurogenic lower urinary tract dysfunction (NLUTD) are defined as complicated UTI requiring antibiotic treatment. As the emergence of multiresistant strains is a serious problem, we assessed the feasibility of nonantibiotic treatment of UTI in patients with NLUTD. Materials and Methods: In a prospective study evaluating the usefulness of UTI prophylaxis, participants could opt for either antibiotic or nonantibiotic treatment of breakthrough UTI. If either symptoms persisted for 48 h or a febrile UTI occurred, antibiotic treatment based on microbiological testing was mandatory. Treatment efficacy, complications, and emergency hospital visits were assessed. Results: Within the observation period (1 year), the 25 participants developed 206 UTI. Seven febrile UTI required immediate antibiotic treatment. Of the remaining 199 UTI, patients chose antibiotic treatment in 104 events, whereas in 95 events, patients chose either nonantibiotic interventions (n = 80) or no treatment at all (n = 15). Success rates were 78.8% for antibiotic treatment, 67.5% with nonantibiotic treatments, and 26% without therapy. Of the 7 patients with initially febrile UTI, 2 required hospitalization due to septicemia. Conclusions: Nonantibiotic treatment seems to be a feasible alternative to antibiotic therapy in patients with complicated UTI as well, provided there is no fever.

U.S. Food and Drug Administration Authors Publish Articles on Dermal Filler Materials, Injections, Methods, and Skin Preparation.

Sir: More than 90 percent of the patients receiving dermal filler implants are women. Infections are infrequent but have a devastating impact on quality of life. In particular, infections associated with permanent (nonbiodegradable) fillers are concerning because of the persistence of bacterial biofilm that colonizes these materials, which limits treatment options. Our research group at the Center for Devices and Radiological Health has been funded by the U.S. Food and Drug Administration Office of Women’s Health to research mechanisms that may be responsible for infections associated with dermal filler use. Over the past 3 years, we have studied how dermal filler materials, injection methods, and skin preparation techniques affect the safety of dermal filler use. Our project goal for dermal fillers is to PUT (i.e., prevent contamination, use safe materials, and treat infections effectively) an end to infections associated with the use of dermal fillers. Our research program plans to address all of these aspects of dermal filler–associated infections. We were encouraged by a recent article (“The Role of Bacterial Biofilm in Adverse Soft-Tissue Filler Reactions: A Combined Laboratory and Clinical Study” by Saththianathan et al.1) and accompanying discussion in Plastic and Reconstructive Surgery reporting a number of important findings about risk factors for dermal filler contamination and associated infections. In agreement with Saththianathan et al., the authors of this letter believe that it is important to research how the safety of dermal filler implants can be improved to continue to minimize risks to patients. In addition to commending the work done by Saththianathan et al., we want Plastic and Reconstructive Surgery readers to be aware of related work performed by the U.S. Food and Drug Administration on this important area of research. In April of 2016, we reported in Biomaterials that the elastic properties of a permanent dermal filler material (polyacrylamide) can significantly influence bacterial adhesion (approximately 3-log difference).2 Using electron and visible light microscopy to characterize the materials, we concluded that stiffer materials apparently did not self-seal as well after injection, resulting in micro cracks that bacteria could enter and colonize, forming biofilm within a few hours. We subsequently published an article in Nature Scientific Reports describing two in vitro models to study the process of dermal filler injection: a SimSkin model for studying injection styles, and a pigskin model for studying skin preparation.3 Using the SimSkin (SimSkin, Chicago, Ill.) model, we determined that multiple injections through the same site (the fanning style) increased the rate of bacterial transfer across the skin compared with other styles. Using the pigskin model, we determined that current skin preparation methods have poor efficacy to reduce biofilm bioburden. Combining the results from these two models, we concluded that the use of shallow injection depths and/or fanning, combined with current skin preparation methods, may increase the rate of potential bacterial transfer across the skin. We are currently completing studies exploring nonantibiotic interventions to reduce the biofilm bioburden on skin, and looking at biocompatible antimicrobials to determine whether they can protect dermal filler materials from colonization. With the health of women in the United States and worldwide in mind, we hope that together with Saththianathan et al. and others researching dermal filler–associated infections we can continue to improve the safety of dermal filler use. We applaud those innovators who are working to better understand these infections, and we hope to complement their work with models for testing potential mitigation strategies, and information gleaned from our research on how to interrupt pathogenesis. We encourage further feedback and discussion from the Plastic and Reconstructive Surgery community on this issue. DISCLAIMER The mention of commercial products, their sources, or their use in connection with material reported herein is not to be construed as either an actual or implied endorsement of such products by the Department of Health and Human Services. The findings and conclusions in this communication have not been formally disseminated by the U.S. Food and Drug Administration and should not be construed to represent any Agency determination or policy. ACKNOWLEDGMENTS This work was supported by the U.S. Food and Drug Administration Office of Women’s Health. This project was supported in part by an appointment to the Oak Ridge Institute for Science and Education Research Participation Program at the Center for Devices and Radiological Health, U.S. Food and Drug Administration, administered by the Oak Ridge Institute for Science and Education through an interagency agreement between the U.S. Department of Energy and U.S. Food and Drug Administration/Center. DISCLOSURE The authors have no financial interest to declare in relation to the content of this communication. K. Scott Phillips, Ph.D.Yi Wang, Ph.D.U.S. Food and Drug AdministrationOffice of Medical Products and TobaccoCenter for Devices and Radiological HealthOffice of Science and Engineering LaboratoriesDivision of Biology, Chemistry and Materials ScienceLaboratory of Microbiology and Infection ControlWashington, D.C.

A large animal model for a failed two-stage revision of intramedullary nail-related infection by methicillin-resistant Staphylococcus aureus.

The treatment of chronic orthopaedic device-associated infection (ODRI) often requires multiple surgeries and prolonged antibiotic therapy. Despite this extensive treatment protocol, the procedure is associated with significant failure rates. Currently, no large animal model is available that recapitulates a failed revision. Therefore, our aim was to establish a large animal model for failed treatment of an ODRI in order to serve as a testbed for future interventional strategies. Adult Swiss Alpine sheep received an intramedullary nail in the tibia and a localised inoculum of either a methicillin-sensitive or methicillin-resistant Staphylococcus aureus (MSSA, MRSA respectively). After 8 weeks, when chronic infection had been established, the animals underwent a staged revision with debridement and temporary placement of an antibiotic-loaded cement spacer. Antibiotics were delivered systemically in a standard or pathogen-adapted manner. Debridement and implant exchange alone failed to treat the MSSA infection. Neither local therapy alone nor systemic therapy alone were effective in resolving infection with MSSA, but a combination of local and systemic therapy was effective against it. MRSA infection was not resolved by the combination of local and systemic antibiotics (standard or pathogen-adapted). A model for failed revision of MRSA infection is described despite the use of local and systemic antibiotics. Novel interventions may be assessed using this model, including antibiotic and non-antibiotic interventions.