Treat Ventilator-Associated Pneumonia for 8 days



Treat Ventilator-Associated Pneumonia for 8 days


B. Robert Gibson MD



Ventilator-associated pneumonia (VAP) refers to a pneumonia that arises after 48 hours of mechanical ventilation. Unfortunately, it is common, costly, and life threatening. It is the most frequent intensive care unit (ICU)–acquired infection among patients receiving mechanical ventilation, and it is the second most common nosocomial infection in the United States. VAP has also been found to increase hospital stay by an average of 7 to 9 days and results in an increase in health care–related costs of $12,000 to $40,000 per case. In addition, approximately 50% of all antibiotics prescribed in the ICU are administered for respiratory tract infections. Crude ICU mortality associated with VAP ranges from 30% to 70% with an increased relative risk of mortality of approximately 2.5.

Despite the undisputed clinical importance of VAP, little consensus exists regarding its prevention, diagnosis, or treatment. Some of the risk factors for VAP are clearly known: supine body positioning; transfusion of blood products; and duration of ventilation. Duration of ventilation has been closely associated with an increased risk of pneumonia as a direct function of time. The daily risk of VAP has been estimated to start at approximately 3% per day for the first five days, followed by 2% per day for days six through ten, before finally decreasing to 1% per day for every day of mechanical ventilation thereafter.


Signs and Symptoms

When it comes to diagnosing ventilator-associated pneumonia, there is little consensus in the literature because of different interpretation of the clinical signs and symptoms suggestive of lung infection, variable differentiation between colonization and infection of the lower respiratory tract, and poorly specified prior antibiotic use in the ICU. As clinical signs are nonspecific and subjective, no single clinical criterion has been specifically diagnostic for VAP. Fever, tachycardia, and leukocytosis are all relatively nonspecific. Chest radiographs are most helpful when normal, as they can rule out pneumonia. Air bronchograms or alveolar opacities on a chest radiograph in patients without acute respiratory distress syndrome (ARDS) are most
correlated with pneumonia and have a 68% diagnostic accuracy. When chest radiographs have been compared with subsequent autopsy findings, a localized infiltrate was 87% sensitive for VAP but only 25% specific. Furthermore, approximately 10% of the cases of pneumonia failed to have a new or worsening infiltrate at all.

The clinical pulmonary infection score (CPIS) was developed in an attempt to find more reliable criteria for the diagnosis of VAP. The CPIS combines clinical, radiographic, physiological, and micro-biologic data into a single numerical result. The score is derived by awarding 0, 1, or 2 points for each of seven variables: temperature; white blood count; volume and quality of tracheal suctions; oxygenation; chest radiograph findings; and semiquantitative culture of tracheal aspirate. When the CPIS exceeds 6, good correlation with the presence of pneumonia, as defined by quantitative cultures of bronchoscopic and nonbronchoscopic lavage specimens, has been found. When compared with postmortem quantitative lung cultures as the reference standard, the CPIS has a sensitivity of 77% and a specificity of 42% for VAP.

Increased specificity at the cost of sensitivity over the CPIS may be obtained by using diagnostic criteria of a radiographic infiltrate and at least two of the three following clinical features of VAP: fever greater than 38C; leukocytosis or leukopenia; and purulent tracheal secretions. Use of these criteria resulted in a 69% sensitivity and a 75% specificity for VAP, which represents the most accurate clinical criteria for starting empiric antibiotic therapy.

Once the diagnosis of VAP is being considered, a lower respiratory tract sample for culture to guide therapy should be collected before antibiotic administration. If cultures are obtained after initiation of antibiotics, a 40% false negative rate ensues. If there is a high pretest probability of pneumonia, or in the 10% of patients with evidence of sepsis, prompt therapy is required, regardless of whether bacteria are found on microscopic examination of lower respiratory tract samples.

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Jul 1, 2016 | Posted by in ANESTHESIA | Comments Off on Treat Ventilator-Associated Pneumonia for 8 days

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