Evaluation of risk factors associated with mortality in patients with ventilator-associated pneumonia caused by Pseudomonas aeruginosa with difficult-to-treat resistance

Introduction: Evaluation of prognostic factors in patients with ventilator- associated pneumonia (VAP) due to P. aeruginosa. The effectiveness of novel antipseudomonal antibiotics was reviewed. Method(s): Retrospective, single-center cohort analysis between April 2018 and June 2022. Data were obtained from the ENVIN-HELICS and electronic medical records. Demographic variables, underlying diseases and diagnosis to admission were registered. We considered each treatment appropriate according to Tamma PD et al. [1] criteria. We registered ventilator-associated tracheobronchitis (VAT) and pneumonia (VAP) episodes together with the recurrency of the infection. Result(s): From 61 patients included, 77% were admitted for ARDS due to COVID-19. The mean APACHE-II was 14.3 +/- 6.6. 7 patients required ECMO and 4 required RRT. The median length of stay in the ICU was 52 (ICR 36-84) days. 91 respiratory infections were recorded: 60 VAP and 31 VAT. On the first episode, carbapenem-resistance to meropenem was 40%;rising up to 58% on the second one. 6 patients developed a third episode (VAT) with a 100% of carbapenem- resistance. 13 (14%) respiratory infections showed resistance to the novel beta-lactamase inhibitor cephalosporins (8 to ceftalozanetazobactam and 5 to ceftazidime-avibactam). No resistance to cefiderocol was detected. During ICU stay, 21 patients (34%) developed secondary bacteremia from other foci and 7 (11%) invasive mycoses. Overall mortality was 49.2%. On the univariate analysis we found statistical significant relationships between mortality and COVID-19 admission, SOFA >= 7 points on the first VAP or the development of secondary bacteremia (Table 1). Conclusion(s): COVID-19 admission, SOFA >= 7 points on the first VAP or other secondary bacteremia were associated with mortality. The 14.3% of respiratory infections were resistant to the new beta-lactamase inhibitor cephalosporins. No resistance to cefiderocol was detected.

Polytrauma patient with lateral thoracic spondyloptosis: case report and literature review

Background: Spondyloptosis is caused by high force trauma. The vast majority of cases occur in the sagittal plane and at transition points where ridged sections meet more flexible regions. Lateral thoracic spondyloptosis is extremely rare and there is no current consensus on the optimal treatment plan. Case Description: Here we present a case of a previously physically healthy 24-year-old polytrauma patient after he was struck as a pedestrian by a motor vehicle. Of note the patient was found to have lateral spondyloptosis between T9-10 with complete spinal cord transection. The patient also sustained multi-ligamentous left knee injury, pelvic fractures, open comminuted left tibia and fibular fracture, lacerated liver, bilateral renal lacerations, ischemic bowel, and an aortic arch pseudoaneurysm. Conclusion(s): Lateral thoracic spondyloptosis is a devastating injury with an extreme rate of persistent neurologic deficits. There is no unanimously accepted treatment because of the rarity if the injury and the poor outcomes that patients face. Additionally, patients who experience high level trauma often develop severe psychiatric illness, and the importance of identifying risk factors and implementing care early may improve patient outcomes.Copyright © AME Medical Journal.

Isolated tracheobronchial mucormycosis: Report of a case and systematic review of literature

Background: Isolated tracheobronchial mucormycosis (ITBM) is an uncommonly reported entity. Herein, we report a case of ITBM following coronavirus disease 2019 (COVID-19) and perform a systematic review of the literature. Case description and systematic review: A 45-year-old gentleman with poorly controlled diabetes mellitus presented with cough, streaky haemoptysis, and hoarseness of voice 2 weeks after mild COVID-19 illness. Computed tomography and flexible bronchoscopy suggested the presence of a tracheal mass, which was spontaneously expectorated. Histopathological examination of the mass confirmed invasive ITBM. The patient had complete clinical and radiological resolution with glycaemic control, posaconazole, and inhaled amphotericin B (8 weeks). Our systematic review of the literature identified 25 additional cases of isolated airway invasive mucormycosis. The median age of the 26 subjects (58.3% men) was 46 years. Diabetes mellitus (79.2%) was the most common risk factor. Uncommon conditions such as anastomosis site mucormycosis (in two lung transplant recipients), post-viral illness (post-COVID-19 [n = 3], and influenza [n = 1]), and post-intubation mucormycosis (n = 1) were noted in a few. Three patients died before treatment initiation. Systemic antifungals were used in most patients (commonly amphotericin B). Inhalation (5/26;19.2%) or bronchoscopic instillation (1/26;3.8%) of amphotericin B and surgery (6/26;23.1%) were performed in some patients. The case-fatality rate was 50%, primarily attributed to massive haemoptysis. Conclusion: Isolated tracheobronchial mucormycosis is a rare disease. Bronchoscopy helps in early diagnosis. Management with antifungals and control of risk factors is required since surgery may not be feasible. © 2022 Wiley-VCH GmbH.

eHealthResp: educational intervention to improve antibiotic use in primary care - a protocol for a pilot study

Introduction: Antibiotic resistances are among themost threatening public health issues worldwide, being highly associated with inadequate antibiotic use. To tackle this challenge, it is crucial to educate health professionals to appropriately prescribe and dispense antibiotics. Thus, out team developed eHealthResp, an educational intervention composed by two online courses and a clinical decision support system in the form of a mobile app directed to primary care physicians and community pharmacists, aiming to improve antibiotic prescribing and dispensing in respiratory tract infections. Objectives: The main goal of this pilot study is to validate the eHealthResp online courses and the clinical decision support system (mobile app), involving a small group of health professionals. Methods: Aproximately 15 physicians and 15 pharmacists will be recruited to participate in the study. Participants will have complete autonomy to explore and evaluate the eHealthResp mobile app and online courses, composed by six modules on respiratory tract infections for physicians (i) acute otitis media, ii) acute rhinosinusitis, iii) acute pharyngotonsilitis, iv) acute tracheobronchitis, v) community-acquired pneumonia, and vi) COVID-19), and three modules for pharmacists (i) common cold and flu, ii) acute rhinosinusitis, acute pharyngotonsilitis, and acute tracheobronchitis, and iii) acting protocol). Each online course is also composed by four clinical cases and the most recommended pharmacological therapy. Additionally, for the the global validation of the online course and the mobile app, participants will be invited to complete a questionnaire including three sections of questions. The first part, consisting of five brief questions, will allow the collection of sociodemographic data. The second part contains four groups of closed questions, and the third part consists of four open-answer questions, both aiming to evaluate the online course and mobile app elements. Results: After the assessment made by the physicians and pharmacists who agreed to participate in the pilot study, the data obtained will be duly analyzed and integrated by the research team. The appropriate changes will be incorporated into the e-Health platforms to improve the quality of both the online courses and the eHealthResp mobile app. Conclusions: The findings of this pilot study will provide important information for the next stage of the project, ensuring the feasibility of the educational interventions in a group of primary care physicians and community pharmacists from the Centre region of Portugal, using a randomized controlled trial designed by clusters.

A Narrative Review on the Approach to Antimicrobial Use in Ventilated Patients with Multidrug Resistant Organisms in Respiratory Samples-To Treat or Not to Treat? That Is the Question.

Multidrug resistant organisms (MDRO) are commonly isolated in respiratory specimens taken from mechanically ventilated patients. The purpose of this narrative review is to discuss the approach to antimicrobial prescription in ventilated patients who have grown a new MDRO isolate in their respiratory specimen. A MEDLINE and PubMed literature search using keywords "multidrug resistant organisms", "ventilator-associated pneumonia" and "decision making", "treatment" or "strategy" was used to identify 329 references as background for this review. Lack of universally accepted diagnostic criteria for ventilator-associated pneumonia, or ventilator-associated tracheobronchitis complicates treatment decisions. Consideration of the clinical context including signs of respiratory infection or deterioration in respiratory or other organ function is essential. The higher the quality of respiratory specimens or the presence of bacteremia would suggest the MDRO is a true pathogen, rather than colonization, and warrants antimicrobial therapy. A patient with higher severity of illness has lower safety margins and may require initiation of antimicrobial therapy until an alternative diagnosis is established. A structured approach to the decision to treat with antimicrobial therapy is proposed.

Acquired infections in intensive care unit (ICU) COVID-19 patients

Introduction: Patients with COVID-19 admitted to the ICU are at high risk of developing infectious complications during their ICU stay. Data on acquired(AI) in Portuguese critical COVID-19 patients are scarce. The aim of this study was to investigate the characteristics and risk factors for AI in critical patients with COVID-19 pneumonia admitted to the ICU. Methods: Retrospective cohort of patients with COVID-19 pneumonia admitted to an ICU in a tertiary hospital, between September 2020 and June 2021. AI considered were ventilator-associated pneumonia (VAP) or tracheobronchitis (VAT), bacteremia, CVC associated infections, urinary tract infections and soft skin tissue infections. Baseline characteristics, 3-months previous antibiotic (ATB) exposure, ATB treatment at ICU-admission and clinical management of COVID-19 pneumonia were analyzed. Results: Of the 159 patients included, with a median (IQR) age of 66 (57-72) and 63.5% males, 14 (8.8%) had no known comorbidities. A total of 63 patients(39.6%) developed AI: 45(71.4%) VAP, 20(33.3%) VAT, 28 (45.2%) UTI, 6 (9.5%) CVC associated infections and 3(4.8%) soft skin tissue infections. In univariate analysis, both SOFA score at admission (p < 0.001), acute cardiovascular (p = 0.003) and neurologic (p = 0.006) disfunction at ICU admission were associated with the development of AI. AI were also correlated to need of tracheostomy(p < 0.001), development of delirium (p < 0.001) or shock (p < 0.001);and with longer ICU and in-hospital stay (p < 0.001) and ICU and hospital mortality (p = 0.011 and p = 0.011, respectively). None of the COVID-19 pharmacologic treatments considered (remdesivir, steroids and tocilizumab), neither different regimens of ATB therapy at ICU admission were significantly associated with AI. Conclusions: In this cohort, almost 40% of the patients developed AI, that was associated with 4 times higher hazard of needing mechanical ventilation and higher rate of adverse events such as delirium, shock during in-ICU stay and longer length of ICU and in-hospital stay.

Relationship between SARS-CoV-2 infection and the incidence of ventilator-associated lower respiratory tract infections: a European multicenter cohort study.

PURPOSE: Although patients with SARS-CoV-2 infection have several risk factors for ventilator-associated lower respiratory tract infections (VA-LRTI), the reported incidence of hospital-acquired infections is low. We aimed to determine the relationship between SARS-CoV-2 pneumonia, as compared to influenza pneumonia or no viral infection, and the incidence of VA-LRTI. METHODS: Multicenter retrospective European cohort performed in 36 ICUs. All adult patients receiving invasive mechanical ventilation > 48 h were eligible if they had: SARS-CoV-2 pneumonia, influenza pneumonia, or no viral infection at ICU admission. VA-LRTI, including ventilator-associated tracheobronchitis (VAT) and ventilator-associated pneumonia (VAP), were diagnosed using clinical, radiological and quantitative microbiological criteria. All VA-LRTI were prospectively identified, and chest-X rays were analyzed by at least two physicians. Cumulative incidence of first episodes of VA-LRTI was estimated using the Kalbfleisch and Prentice method, and compared using Fine-and Gray models. RESULTS: 1576 patients were included (568 in SARS-CoV-2, 482 in influenza, and 526 in no viral infection groups). VA-LRTI incidence was significantly higher in SARS-CoV-2 patients (287, 50.5%), as compared to influenza patients (146, 30.3%, adjusted sub hazard ratio (sHR) 1.60 (95% confidence interval (CI) 1.26 to 2.04)) or patients with no viral infection (133, 25.3%, adjusted sHR 1.7 (95% CI 1.2 to 2.39)). Gram-negative bacilli were responsible for a large proportion (82% to 89.7%) of VA-LRTI, mainly Pseudomonas aeruginosa, Enterobacter spp., and Klebsiella spp. CONCLUSIONS: The incidence of VA-LRTI is significantly higher in patients with SARS-CoV-2 infection, as compared to patients with influenza pneumonia, or no viral infection after statistical adjustment, but residual confounding may still play a role in the effect estimates.

Signs of tracheobronchitis may constitute the principal finding on the lung SPECT/CT images of COVID-19 patients.

BACKGROUND: This study aimed to analyze the rates of tracheobronchitis signs observed on the ventilation scans of COVID-19 patients with shortness of breath, with comparisons to a non-COVID population. METHODS: Lung scintigraphy was collected in 10 such COVID patients, as well as from a non-COVID population investigated outside the epidemic wave period, on a CZT-SPECT/CT system, with ventilation images recorded with 99mTc-labeled Technegas® and perfusion images with 99mTc-labeled albumin macroaggregates. RESULTS: A diffuse tracheobronchial uptake was observed on the ventilation scans from 3 COVID patients (30%), whereas this rate was 3% (3/90) in the non-COVID group (P = 0.013). These 3 patients had no laryngeal extension of Technegas® uptake and limited parenchymal lung abnormalities. Follow-up scintigraphy demonstrated the withdrawal of tracheobronchitis signs in two cases, and the advent of a severe pulmonary embolism in one. CONCLUSION: Signs of tracheobronchitis may constitute the principal finding on lung SPECT/CT images of COVID-19 patients with shortness of breath.