Purpose of review: The present review draws our attention to ventilator-associated tracheobronchitis (VAT) as a distinct clinical entity that has been associated with progression to ventilator-associated pneumonia (VAP) and worse patient outcomes. In contrast to VAP, which has been extensively investigated for over the past 30 years, most VAT studies have been conducted in the past decade. There are ample data which demonstrate that VAT may progress to VAP, have more ventilator days, and have longer ICU stay that may translate into higher healthcare costs. Recent findings: The article focuses on the diagnostic criteria for VAT, causative agents, and studies analyzing associations between VAT and patient outcomes in relation to early, appropriate intravenous, and/or aerosolized antibiotic therapy. Aerosolized antibiotic treatment delivered by improved device technology is a novel approach that has proved to be effective for the treatment and eradication of multidrug-resistant bacterial pathogens. Aerosolized antibiotics are effective in decreasing the use of systemic antibiotics, reducing bacterial resistance, and may also facilitate clinical resolution of infection. Summary: Evidence presented in this review supports treatment of VAT with early and appropriate antibiotic therapy as a standard of care to reduce VAP, ventilator days, and duration of ICU stay in high-risk patient population.

Purpose of review: Pathogen-directed therapy targeting multidrug-resistant bacteria in pneumonia can be a challenge. We reviewed the recent literature on bacterial resistance, diagnostic methods, and treatment strategies to guide pathogen-directed therapy of respiratory infections. Recent findings: Antibiotic resistance is a growing problem in both community and nosocomial settings. Macrolide resistance in Streptococcus pneumoniae varies geographically, ranging from 45 to 88%, and has been associated with prior antibiotic use. Methicillin-resistant Staphylococcus aureus and multidrug-resistant Gram-negative bacilli remain the main targets for pathogen-directed therapy in patients with hospital-acquired and ventilator-associated pneumonia. Rapid molecular tests show promise to facilitate pathogen-directed therapy. Improved antibiotic use with the right drug and optimal dose is a key strategy in tackling antimicrobial resistance. Evidence supporting de-escalation for hospital-acquired and ventilator-associated pneumonia has been increasing. To date, no convincing evidence exists to support combination therapy for severe infections due to carbapenem-resistant Gram-negative bacilli. Aerosolized therapy might provide additive benefits to parenteral therapy, but requires further study. Summary: Pathogen-directed therapy guided by in-vitro microbiological data is a safe approach for the treatment of respiratory infections due to antibacterial-resistant bacteria. Further research should focus on the role of rapid diagnostic tools, new antibiotics, and novel immunotherapy for respiratory infection.

Purpose of review: Community-acquired pneumonia (CAP) is the most common infectious disease cause of death. We summarize recent findings regarding the epidemiology of CAP in adults, efficacy of vaccines against Streptococcus pneumoniae, diagnostics, and discuss the current controversy between CAP and healthcare-associated pneumonia (HCAP). Recent findings: The emergence of the Middle East respiratory syndrome coronavirus and the avian influenza A strain H7N9 are of concern but still these are infrequent causes of CAP. Recent data indicate that vaccinating children also protects adults against CAP by generating significant herd immunity, and that the conjugated pneumococcal vaccine in adults may offer some efficacy in preventing CAP caused by vaccine serotypes. The immunochromotagraphic urinary antigen test has improved the diagnostic yield for the aetiology of CAP, and initial data demonstrate that a novel multiplex urinary antigen test will further increase the sensitivity for detection of S. pneumoniae. There has been significant concern that a relatively recently described pneumonia category, HCAP, requires empirical treatment for potentially multidrug-resistant organisms (MDRO). However, new evidence shows that (at least in Europe) pneumonia caused by MDRO remains uncommon even in HCAP category patients. Summary: CAP remains a major cause of morbidity and mortality. Advances in vaccination and diagnosis should help reduce the amount of disease due to S. pneumoniae, the commonest cause of CAP. Outside of the United States, MDRO are relatively uncommon causes of CAP, and the increased mortality of HCAP category patients seems to be related to their comorbidities and age rather than microbial aetiology.

Purpose of review: Pneumonia is the leading cause of death among neutropenic cancer patients, particularly those with acute leukaemia. Even with empiric therapy, case fatality rates of neutropenic pneumonias remain unacceptably high. However, recent advances in the management of neutropenic pneumonia offer hope for improved outcomes in the cancer setting. This review summarizes recent literature regarding the clinical presentation, microbiologic trends, diagnostic advances and therapeutic recommendations for cancer-related neutropenic pneumonia. Recent findings: Although neutropenic patients acquire pathogens both in community and nosocomial settings, patients’ obligate healthcare exposures result in the frequent identification of multidrug-resistant bacterial organisms on conventional culture-based assessment of respiratory secretions. Modern molecular techniques, including expanded use of galactomannan testing, have further facilitated identification of fungal pathogens, allowing for aggressive interventions that appear to improve patient outcomes. Multiple interested societies have issued updated guidelines for antibiotic therapy of suspected neutropenic pneumonia. The benefit of antibiotic medications may be further enhanced by agents that promote host responses to infection. Summary: Neutropenic cancer patients have numerous potential causes for pulmonary infiltrates and clinical deterioration, with lower respiratory tract infections among the most deadly. Early clinical suspicion, diagnosis and intervention for neutropenic pneumonia provide cancer patients’ best hope for survival.