Clinical infectious diseases : an official publication of the Infectious Diseases Society of America
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Hospital-acquired pneumonia is the second most frequent nosocomial infection and the first in terms of morbidity, mortality, and cost. In recent years, international societies and, most recently, the American Thoracic Society jointly with the Infectious Disease Society of America, have developed guidelines for the management of hospital-acquired pneumonia, health care-associated pneumonia, and ventilator-associated pneumonia. These guidelines include recommendations for risk stratification, initial and definitive antibiotic treatment, and prevention. ⋯ A key issue for these studies is to modify recommendations according to local patterns of microbiology and drug resistance. In summary, implementation of guidelines for the management of hospital-acquired pneumonia and ventilator-associated pneumonia decreases the rate of initial inappropriate antibiotic treatment and decreased 14-day mortality in a study. More clinical studies to validate the influence of guidelines on outcome are warranted.
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Our thesis is a simple one: although a drug can fail in an individual patient for many reasons, appropriately sized and conducted drug-development programs often fail because of insensitive, uninformative end points, and/or poor a priori regimen decisions. The difficulty in successfully developing antimicrobial agents at present is often exacerbated by company decision-makers who are either uninformed or disregard the difference between empirical-based (ie, akin to playing pin-the-tail on the donkey) and quantitative model-based development plans. Frequently, the focus is on Gantt charts (project event schedules) and the on-time submission of a New Drug Application to a regulatory body, such as the US Food and Drug Administration. ⋯ We believe that the goal of drug development is not a New Drug Application submitted on time but, rather, an approved, differentiated, safe, and effective new medicine. Here, we focus on the pharmacokinetic-pharmacodynamic data needed to guide dosing regimen decisions for patients with hospital-acquired bacterial pneumonia or ventilator-associated bacterial pneumonia. Early consideration of these data in development programs will reduce risk not only to sponsors but also, most importantly, to the patients enrolled in the clinical trials.
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Lower respiratory tract infections in intubated patients include ventilator-associated tracheobronchitis (VAT) and ventilator-associated pneumonia (VAP). These infections are increasingly caused by multidrug-resistant bacteria, which colonize the patient's oropharynx and enter the lower respiratory tract around the endotracheal tube cuff or through the lumen. Progression of colonization to VAT and, in some patients, to VAP is related to the quantity, types, and virulence of invading bacteria versus containment by host defenses. ⋯ In addition, the diagnosis of VAP requires a new and persistent infiltrate on a chest radiograph, which may be difficult to assess in critically ill patients, and a significant bacterial culture of a endtotracheal aspirate or bronchoalveolar lavage specimen. Current guidelines for the management of VAP strongly recommend the use of early, appropriate empirical antibiotic therapy based on patient risk factors for multidrug-resistant pathogens. An alternative model focused on VAT, using serial surveillance of endotracheal aspirate specimens to identify multidrug-resistant pathogens and their antibiotic susceptibilities, would allow earlier, targeted antibiotic treatment that could improve outcomes in patients, prevent VAP, and provide an attractive model for clinical research trials.
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Appropriate end points are crucial for the successful interpretation of clinical trials. Choosing end points for therapeutic trials of ventilator-associated pneumonia (VAP) and hospital-acquired pneumonia (HAP) requires careful consideration, because they are complications of critical illness. It may be difficult to distinguish the consequences of VAP and HAP from manifestations of the underlying illnesses, and it is important to determine their incremental magnitude, to plan for possible treatment effects and, thus, sample size calculations. ⋯ Because of these findings, superiority trials of VAP treatment that use mortality as a primary end point are not possible. Equivalency studies are possible, but there are sample size implications. The use of time to clinical event end points, especially when combined with mortality, may be the best option for trial in the future.
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Background. A need exists for new antimicrobial agents to treat neonates, infants, and children for hospital-acquired pneumonia (HAP) and ventilator-associated pneumonia (VAP) caused by nosocomial antibiotic-resistant pathogens. Current and clear guidance on approval of new agents for all pediatric age groups is lacking. ⋯ Conclusions. Investigation and approval of new agents for HAP and VAP in all pediatric age groups is needed. A uniform definition of HAP and VAP is required that is relevant for clinical trials and balances the risks of experimental therapy and sampling procedures for study patients with potential benefits for both the patient under investigation and the hospitalized children who may develop nosocomial pneumonia.