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OBJECTIVE: To analyze the role of nosocomial infection informatics surveillance system in the prevention and control of multidrug-resistant organisms(MDROs) infections. METHODS: The First Affiliated Hospital of Guangdong Pharmaceutical University was selected as the study subjects, which had adopted the nosocomial infection informatics surveillance system since Jan.2020. The period of Jan.to Dec.2020 were regarded as the study period, and Jan.to Dec.2019 were regarded as the control period. The situation of nosocomial infection and MDROs infections in the two periods were retrospectively analyzed. RESULTS: The incidence of nosocomial infections and underreporting of nosocomial infection cases in this hospital during the study period were 2.52%(1 325/52 624) and 1.74%(23/1 325), respectively, and the incidences of ventilator associated pneumonia(VAP), catheter related bloodstream infection(CRBSI), catheter related urinary tract infection(CAUTI)were 4.10(31/7 568), 2.11(14/6 634), and 2.50(25/9 993) respectively, which were lower than those during the control period(P< 0.05). The positive rate of pathogenic examination in the hospital during the study period was 77.95%(1 269/1 628), which was higher than that during the control period(P<0.05), the overall detection rate of MDROs was 15.77%(206/1 306), the detection rates of MDROs in Escherichia coli, Acinetobacter baumannii, Klebsiella pneumoniae, Staphylococcus epidermidis, Pseudomonas aeruginosa and Staphylococcus aureus were lower than those during the control period(P<0.05). CONCLUSION: The development and application of the informatics technology-based surveillance system of nosocomial infection could effectively reduce the incidence of nosocomial infections and device related infections, decrease the under-reporting of infection cases, and also reduce the detection rate of MDROs as well as the proportion of MDROs detected in common pathogenic species.
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We conducted a review and evaluated the already documents reports for the relationship among diabetes and COVID-19. The review outcome shows that the COVID-19 severity seems to be greater among patients with diabetes as comorbidity. So, strict glycemic control is imperative in patients infected with COVID-19. Thus, world-wide diabetes burden and COVID-19 pandemic must be deliberated as diabetes increases the COVID-19 severity. Established on this, it is precise significant to follow specific treatment protocols and clinical management in COVID-19 patients affected with diabetes to prevent morbidity and mortality.Copyright © 2023 The Authors.
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Background: Improving basic infection control (IC) practices, diagnostics and anti-microbial stewardship (AMS) are key tools to handle antimicrobial resistance (AMR). Material(s) and Method(s): This is a retrospective study done over 6 years (2016-2021) in an oncology centre in North India with many on-going interventions to improve IC practices, diagnostics and AMS. This study looked into AMR patterns from clinical isolates, rates of hospital acquired infections (HAI) and clinical outcomes. Result(s): Over all, 98,915 samples were sent for culture from 158,191 admitted patients. Most commonly isolated organism was E. coli (n = 6951;30.1%) followed by Klebsiella pneumoniae (n = 5801;25.1%) and Pseudomonas aeroginosa (n = 3041;13.1%). VRE (Vancomycin resistant Enterococcus) rates fell down from 43.5% in Jan-June 2016 to 12.2% in July-Dec 2021, same was seen in CR (carbapenem resistant) Pseudomonas (23.0%-20.6%, CR Acinetobacter (66.6%-17.02%) and CR E. coli (21.6%-19.4%) over the same study period. Rate of isolation of Candida spp. from non-sterile sites also showed reduction (1.68 per 100 patients to 0.65 per 100 patients). Incidence of health care associated infections also fell from 2.3 to 1.19 per 1000 line days for CLABSI, 2.28 to 1.88 per 1000 catheter days for CAUTI. There was no change in overall mortality rates across the study period. Conclusion(s): This study emphasizes the point that improving compliance to standard IC recommendations and improving diagnostics can help in reducing the burden of antimicrobial resistance.Copyright © 2023 Indian Association of Medical Microbiologists
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Lymphangitis carcinomatosa refers to pulmonary interstitial involvement by cancer and is a dreaded clinical finding in oncology because it is a late manifestation indicative of metastatic malignancy, from either a lung or a nonlung primary cancer, and is associated with poor prognosis. Its presentation is nonspecific, often with subacute dyspnoea and a nonproductive cough in a person with a known history of malignancy, but in some cases is the first manifestation of cancer. CT imaging can be suggestive, typically demonstrating thickening of the peribronchovascular interstitium, interlobular septa and fissures. However, a biopsy may be required to confirm the pathological diagnosis as these changes can also be due to concurrent disease such as heart failure, ILD, infection, radiation pneumonitis and drug reactions. Diagnosis allows symptomatic treatment, with personalised treatment directed towards the primary cancer most likely to provide a meaningful benefit. Future research should focus on prospective clinical trials to identify new interventions to improve both diagnosis and treatment of lymphangitis carcinomatosa.Copyright © ERS 2021.
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BACKGROUND: The coronavirus disease 2019 (COVID-19) pandemic has influenced hospital infection control practices. AIM: To evaluate the impact of the COVID-19 pandemic on healthcare-associated infections (HAIs) in intensive care units (ICUs). METHODS: A retrospective analysis using data from the Korean National Healthcare-Associated Infections Surveillance System was conducted. Comparisons between incidence rates and micro-organism distributions of bloodstream infection (BSI), central line-associated bloodstream infections (CLABSI), catheter-associated urinary tract infection (CAUTI), and ventilator-associated pneumonia (VAP) before and during the COVID-19 pandemic were performed according to hospital size. FINDINGS: The incidence rate of BSI significantly decreased during the COVID-19 pandemic compared to the pre-COVID-19 period (1.38 vs 1.23 per 10,000 patient-days, relative change -11.5%; P < 0.001). The incidence rate of VAP (1.03 vs 0.81 per 1000 device-days, relative change -21.4%; P < 0.001) significantly decreased during the COVID-19 pandemic compared to the pre-COVID-19 period, whereas rates of CLABSI (2.30 vs 2.23 per 1000 device-days; P = 0.19) and CAUTI (1.26 vs 1.26 per 1000 device-days; P = 0.99) were similar between the two periods. The rates of BSI and CLABSI significantly increased during the COVID-19 pandemic compared to the pre-COVID-19 period in large-sized hospitals, whereas these rates significantly decreased in small-to-medium-sized hospitals. The rates of CAUTI and VAP significantly decreased in small-sized hospitals. There were no significant changing trends in the rates of multidrug-resistant pathogens isolated from patients with HAI between the two periods. CONCLUSION: The incidence rates of BSI and VAP in ICUs decreased during the COVID-19 pandemic compared to the pre-COVID-19 period. This decrease was mainly seen in small-to-medium-sized hospitals.
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Pseudomonas aeruginosa can cause severe nosocomial infections and sepsis, especially in immunocompromised comorbid patients. The purpose of the study was to assess the frequency, clinical course, and the possibility of antimicrobial therapy for bloodstream infections caused by P. aeruginosa in patients with COVID-19. Material and methods. A retrospective single-center uncontrolled study was performed from October 1, 2020 to September 31, 2021 on the basis of a temporary infectious diseases hospital for patients with COVID-19 at the City Clinical Hospital No. 52, Moscow. During the analyzed period, 16 047 patients were admitted to the infectious diseases hospital. The study included 46 patients over 18 years of age with a diagnosis of COVID-19 confirmed by PCR RNA SARS-CoV-2 nasopharyngeal swab (U 07.1) and/or computed tomography (CT) of the lungs (U 07.2). Statistical data processing was carried out using the BioStat, 2009 program (AnalystSoft, USA). Results and discussion. P. aeruginosa has been isolated from the blood of 0.29% of patients with COVID-19. In the structure of bacteremia, P. aeruginosa accounted for 6.1%. In 87% of cases, pathogens were isolated from the blood of patients in the ICU. Most strains are classified as XDR phenotypes - 74% and MDR - 21.7%. The sensitivity of hospital strains of P. aeruginosa was: to colistin - 97%, to amikacin - 39.1%, meropenem - 32.6%. All patients had concomitant diseases: cardiovascular (60%), oncological (27.5%), diabetes mellitus (20%), obesity (22.5%) and others. In 47.5% of cases (19/40), the cause of bloodstream infections was ventilator-associated pneumonia. The mortality rate among patients with COVID-19 with P. aeruginosa bacteremia is 80%. Conclusion. The wide distribution of multidrug-resistant strains of P. aeruginosa limits the number of therapeutic options. In severe bloodstream infections caused by P. aeruginosa XDR, combined antibiotic therapy regimens with the inclusion of polymyxin B are advisable.Copyright © 2022 Tomsk Polytechnic University, Publishing House. All rights reserved.
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Objectives: The probability of detecting viral and atypical agents in pneumonia patients has increased with the molecular methods used in recent years. We aimed to investigate pneumonia pathogens in endotracheal aspiration samples (ETA) of patients with severe community-acquired (CAP), hospital-acquired pneumonia (HAP), and ventilator-associated pneumonia (VAP) by multiplex polymerase chain reaction (m-PCR) and culture method. Methods: A prospective study was performed between December 2019 and October 2020. Patients 18 years and older with pneumonia followed in ICU on the mechanical ventilator were included. COVID-19 patients were excluded. Patients were grouped as CAP, HAP, and VAP. Two ETA samples were obtained from patients within 48 hours of the pneumonia diagnosis. Respiratory pathogens were investigated in samples by viral-bacterial m-PCR and bacterial culture methods. Results: 74 patients were included in the study. m-PCR of ETA samples achieved pathogen detection in 87.8% of patients compared with 58.1% with culture methods. The most common pathogen detected by m-PCR was Streptococcus pneumoniae in both CAP and HAP patients and Klebsiella spp. in VAP patients. The most common pathogen isolated by culture was Staphylococcus aureus in both CAP and HAP patients and Klebsiella spp. in VAP patients. Atypical pneumonia pathogens were positive for 14.9% of the patients. Atypical pathogens were recovered from 28.5% of CAP patients and 23.1% of HAP patients. Viruses constituted all of the atypical pathogens recovered from HAP patients. No atypical pathogen was found in VAP patients. Conclusion: In this study, S. pneumoniae was the most common pathogen detected with m-PCR, and S. aureus and Klebsiella spp. were the most common pathogens detected with culture. Determination of microbial etiology of lower respiratory tract samples by molecular methods for diagnosing severe CAP and HAP may be beneficial in terms of treatment.
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Intro: Kodamaea ohmeri, previously known as Pichia ohmeri, is an ascomycetous yeast that has emerged as an important cause of fungemia in immunocompromised patients. During the anamorphic stage this organism is also known as Candida guillermondii var. membranaefaciens. Method(s): We report five cases of Kodamaea ohmeri encountered from multicenter in Malaysia. Antifungal agent of choice will be discussed based on literature review. Finding(s): The cases were: (1) a contaminated peritoneal fluid in an adult patient on peritoneal dialysis;(2) a 60-year-old man with infected diabetic foot isolated K. ohmeri from a bone sample. Both cases discharged well without active antifungal fungal therapy. We observed fatality cases involving (3) an old man with underlying gastric adenocarcinoma who complicated with catheter- related bloodstream infection caused by K. ohmeri;(4) a patient with ventilator- associated pneumonia and septicaemic shock secondary to perforated terminal ileum;(5) and a severely ill COVID-19 stage 5b patient who passed away due to systemic fungaemia caused by K. ohmeri. Discussion(s): All three fatal cases received either amphotericin B or caspofungin as active antifungal agent. Literature evidence has shown that 40% of patient met demise despite on active antifungal agent, suggesting that currently no definitive antifungal agent proven to be a superior treatment option for K. ohmeri infection. Removal of indwelling medical device combined with antifungal therapy has favorable clinical outcome. Conclusion(s): Therefore, K. ohmeri infection in severely ill patients should be considered as a critical condition. Potential of alternative antifungal combinations need to be explored for an effective treatment option.Copyright © 2023
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Treatment of COVID-19 patients and their extreme numbers represented an unprecedented challenge for the intensive care system in healthcare facilities throughout the Czech Republic, a country particularly affected by the new coronavirus SARS-CoV-2 pandemic. A steep increase in the need for intensive care placed an excess burden on bed and staff capacity. For a severe and critical course of COVID-19, bilateral pneumonia with acute hypoxemic respiratory failure is pathognomonic. In the intensive care setting, COVID-19 therapy is primarily symptomatic, supporting failing respiratory function to gain time needed to restore it and to repair the lungs. The aggressiveness and comprehensiveness of respiratory support depend on the severity of failure, ranging from simple oxygen therapy, to non-invasive support and mechanical ventilation, to extracorporeal support. By contrast, specific COVID-19 therapy is directly targeted against SARS-CoV-2 or modulates the organism's response to the virus. Primary, virus-induced lung injury may be secondarily complicated by coinfection or superinfection, most commonly bacterial, increasing the severity and lethality of the disease. Therefore, anti-infective therapy is crucial for the prognosis and outlook of intensive care COVID-19 patients. Among nosocomial infections com-plicating COVID-19, ventilator-associated pneumonia (developing in mechanically ventilated patients) is particularly important and challenging, and so are issues related to bacterial resistance and rational antibiotic therapy.Copyright © 2021, Trios spol. s.r.o.. All rights reserved.
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The mortality rate of patients with COVID-19 pneumonia requiring mechanical ventilation remains high. This study determined the percentage and characteristics of patients who developed lung abscesses or pyothorax and their mortality rates among adult patients with COVID-19 admitted to the ICU who required mechanical ventilation. Of the 64 patients with COVID-19 assessed, 30 (47%) developed ventilator-associated pneumonia (VAP), of whom 6 (20%) developed pyothorax or lung abscess. There were no statistically significant differences in patient characteristics, treatment after ICU admission, or outcomes between those with and without these complications, except for age. VAP complicated by Lung abscess or pyothorax was caused by a single organism, with Staphylococcus aureus (n = 4) and Klebsiella species (n = 2) being the primary causative agents. Occur infrequently in patients with COVID-19 requiring mechanical ventilation. Large-scale studies are required to elucidate their effects on clinical outcomes.
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Administration of aerolized drugs to patients diagnosed with COVID-19 leads to the risk of transmission of patient-generated infectious aerosols to healthcare providers.While the COVID-19 pandemic is ongoing, in order to provide the best treatment for patients and at the same time to protect healthcare providers at the highest level, it is necessary to increase access to information and pay maximum attention to preventive measures.Copyright © 2020 Bilimsel Tip Yayinevi. All rights reserved.
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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.
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Introduction: Diagnosis of ventilator-associated pneumonia (VAP) in COVID-19 patients remains challenging. Also, the lack of gold standard for microbiological sampling undermines clinical judgement and management. We studied incidences of microbiologically-confirmed VAP comparing endotracheal aspirate (ETA) and bronchoalveolar lavage (BAL) in COVID-19 patients. Etiological agreement between ETA and BAL was then assessed. Method(s): Single-center prospective cohort study (NCT04766983). Patients were enrolled within 48 h from intubation;surveillance ETA ( ETASURV) was performed twice weekly. ETA ( ETACX) and BAL ( BALCX) samples were collected upon VAP suspicion (Johanson's criteria). CDC definitions were used for microbiological confirmation. ETA-BAL agreement (interrater reliability and Cohen's kappa) and clinical/microbiological data were assessed for the first episodes of suspected VAP per patients. Result(s): Ninety intensive care (ICU) patients enrolled from 01/2021 to 05 06/2022, of which 26 females (28.9%);median age was 60 [52-66] years. In-ICU mortality was 30/90 (33.3%), median length of stay in survivors 19 (10-32) days. Fifty-three patients (58.9%) had >= 1 episode of suspected VAP after 6 [5;10] days from ICU admission. ETASURV were available in 52 cases, 2 [1;3] days before VAP suspect, and tested positive in 28 (53.8%). ETACX and BALCX resulted positive in 35 (66.0%) and 29 (54.7%) of episodes. Main microbiological results are displayed in Fig. 1, panel A. Etiological agreement between techniques is shown in Fig. 1, panel B. Incidence rate of VAP suspicions per 1000 ventilator-days was 60.2 (95% CI 43.9-76.4), while incidence rates of microbiologically-confirmed VAP were 27.4 (18.3-36.5) with ETACXand 18.9 (95% CI 12.0-25.8) with BALCX, respectively. Conclusion(s): We observed different incidence of VAP in COVID-19 ICU patients depending on sampling method. Etiological agreement between techniques yielded limited interrater reliability. The potential clinical impact needs further studies.
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Background: Ventilator-associated pneumonia (VAP) is frequent in critical COVID-19 patients. Its early diagnosis is essential for its prognosis. Aim: To demonstrate the usefulness of the FilmArray Pneumo panel (FAP-P) in confirming or ruling out VAP in these patients. Methods: Retrospective study of 71 critical COVID-19 patients with suspected VAP in whom cultures and FAP-P were performed for diagnostic confirmation. Clinical characteristics, microbiology and mortality are described. The validity and safety of FAP-P is defined. Results: The use of FAP-P and cultures ruled out VAP in 29 patients (40.8%). In 41 patients, VAP was confirmed and the 30-day mortality was 48.8%. Forty-eight samples were studied, the cultures were positive in 30 (62.5%) and 33 bacteria were detected, FAP-P detected 32 of these 33 bacteria;37 bacteria were exclusively detected by PFA-P. The most prevalent bacteria were Klebsiella pneumoniae (31.4%), Pseudomonas aeruginosa (21.4%) and Acinetobacter calcoaceticus-baumannii (14.2%). The sensitivity, specificity, positive predictive value and negative predictive value of FAP-P with respect to cultures were 96.9%, 92.5%, 46.4% and 99.8%, respectively. One patient had VAP due to Burkholderia cepacia bacteria not detected by FAP-P. Conclusions: FAP-P is an effective molecular technique to rule out and diagnose VAP, allowing rapid suspension of antibiotics or early targeted treatment.
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Introduction: It is important to know the risk factors for death in reducing mortality in patients with Stenotrophomonas maltophilia infections. The purpose of this study was to examine the risk factors associated with mortality in hospitalized patients with S. maltophilia infections. Material(s) and Method(s): Patients with S. maltophilia infections aged 18 years and older who were hospitalized in Haseki Research and Training between January 1, 2017, and April 30, 2022, were included in the study. The patients were divided into two groups, non-survivors and survivors, and the clinical features and laboratory parameters of the groups were compared. Mortality risk factors were analyzed by logistic and Cox regression analyses. Result(s): A total of 75 patients with S. maltophilia infections were included. The mortality rate was 38.6% (n= 29). Advanced age (OR= 1.05, 95% CI= 1.012-1.085, p= 0.009), COVID-19 pneumonia (OR= 9.52, 95% CI= 1.255-72.223, p= 0.029), and presence of central venous catheter (CVC) (OR= 18.25, 95% CI= 2.187-152.323, p= 0.007) were risk factors for death. Conclusion(s): Physicians should be aware of the potential risk of S. maltophilia infections for mortality, particularly in patients with predefined risk factors such as advanced age, the presence of CVC, and COVID-19. Performing CVC care in accordance with infection prevention and control measures and timely removal of CVC may be beneficial in reducing deaths due to S. maltophilia infection.Copyright © 2023 Bilimsel Tip Yayinevi. All rights reserved.
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Objective. To review a literature published over the past 5 years and our own data on the etiology of lower respiratory tract infections (LRTI), antimicrobial resistance and its relationships between sepsis and choice of appropriate antibiotic therapy. Materials and methods. National Nosocomial Infections Surveillance (NNIS) criteria were used to diagnose LRTI. A review of the articles regarding LRTI from the Russian and international English language journals published over 6 years was performed. Identification of microorganisms was performed by culture over the period of 2003-2013;since 2014, MALDI-TOF MS method was used for this purpose. Results. Despite the ongoing policy to limit the use of antimicrobial therapy in the ICUs, there is an increase in carbapenemase-producing isolates in the ICUs from 2.2% (2018) to 11.7% (2020, 9 months). Along with the trend to increase in carbapenemase-producing pathogens causing LRTI, their variability is also increasing. In particular, it applies to strains producing carbapenemases OXA-48 or combination of OXA- 48 with KPC;with the trend to combined production of carbapenemase beginning at 2019. Conclusions. Carbapenemase producers are becoming more widespread in the ICU settings, including the lower respiratory tract in mechanically ventilated patients. Practitioners didn't get used to associate VAP with the Sepsis-3 criteria. The changes in etiology include the increased rate of carbapenem-resistant Enterobacterales and non-fermenting Gram-negative bacteria, primarily Acinetobacter spp., in Russia. It's due to improved quality of respiratory support and increased consumption of carbapenems, tigecycline and polymyxins. Significant increase of OXA-48-producing pathogens is likely to be associated with a poor compliance with temporary guidelines on COVID-19 with regard to antibiotic therapy.Copyright © 2021, Interregional Association for Clinical Microbiology and Antimicrobial Chemotherapy. All rights reserved.
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Mechanical ventilation (MV) is a life-support therapy that may predispose to morbid and lethal complications, with ventilator-associated pneumonia (VAP) being the most prevalent. In 2013, the Center for Disease Control (CDC) defined criteria for ventilator-associated events (VAE). Ten years later, a growing number of studies assessing or validating its clinical applicability and the potential benefits of its inclusion have been published. Surveillance with VAE criteria is retrospective and the focus is often on a subset of patients with higher than lower severity. To date, it is estimated that around 30% of ventilated patients in the intensive care unit (ICU) develop VAE. While surveillance enhances the detection of infectious and non-infectious MV-related complications that are severe enough to impact the patient's outcomes, there are still many gaps in its classification and management. In this review, we provide an update by discussing VAE etiologies, epidemiology, and classification. Preventive strategies on optimizing ventilation, sedative and neuromuscular blockade therapy, and restrictive fluid management are warranted. An ideal VAE bundle is likely to minimize the period of intubation. We believe that it is time to progress from just surveillance to clinical care. Therefore, with this review, we have aimed to provide a roadmap for future research on the subject.Copyright © 2022 The Author(s)
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Treatments for acute respiratory distress syndrome are still unavailable, and the prevalence of the disease has only increased due to the COVID-19 pandemic. Mechanical ventilation regimens are still utilized to support declining lung function but also contribute to lung damage and increase the risk for bacterial infection. The anti-inflammatory and pro-regenerative abilities of mesenchymal stromal cells (MSCs) have shown to be a promising therapy for ARDS. We propose to utilize the regenerative effects of MSCs and the extracellular matrix (ECM) in a nanoparticle. Our mouse MSC (MMSC) ECM nanoparticles were characterized using size, zeta potential, and mass spectrometry to evaluate their potential as pro-regenerative and antimicrobial treatments. The nanoparticles had an average size of 273.4 nm (±25.6) and possessed a negative zeta potential, allowing them to surpass defenses and reach the distal regions of the lung. It was found that the MMSC ECM nanoparticles are biocompatible with mouse lung epithelial cells and MMSCs, increasing the wound healing rate of human lung fibroblasts while also inhibiting the growth of Pseudomonas aeruginosa, a common lung pathogen. Our MMSC ECM nanoparticles display characteristics of healing injured lungs while preventing bacterial infection, which can increase recovery time.
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Background: Secondary bacterial infections are an important cause of mortality in patients with coronavirus disease 2019 (COVID-19). All healthcare providers acted with utmost care with the reflex of protecting themselves during the COVID-19 period. We aimed to compare the rates of ventilator-associated pneumonia (VAP) and bloodstream infections (BSIs) in our intensive care units (ICUs) before and during the COVID-19 outbreak surges. Methods: This multicenter, retrospective, cross-sectional study was performed in six centers in Turkey. We collected the patient demographic characteristics, comorbidities, reasons for ICU admission, mortality and morbidity scores at ICU admission, and laboratory test data. Results: A total of 558 patients who required intensive care from six centers were included in the study. Four hundred twenty-two of these patients (males (62%), whose mean age was 70 [IQR, 58-79] years) were followed up in the COVID period, and 136 (males (57%), whose mean age was 73 [IQR, 61-82] years) were followed up in the pre-COVID period. BSI and VAP rates were 20.7 (19 events in 916 patient days) and 17 (74 events in 4361 patient days) with a -3.8 difference (P = 0.463), and 33.7 (31 events in 919 patient days) and 34.6 (93 events in 2685 patient days) with a 0.9 difference (P = 0.897), respectively. The mortality rates were 71 (52%) in pre-COVID and 291 (69%) in COVID periods. Conclusion: Protective measures that prioritize healthcare workers rather than patients and exceed standard measures made no difference in terms of reducing mortality.