Clinics in chest medicine
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The unique nature of the intensive care unit (ICU) environment makes this part of the hospital a focus for the emergence and spread of many antimicrobial-resistant pathogens. There are ample opportunities for the cross-transmission of resistant bacteria from patient to patient, and patients are commonly exposed to broad-spectrum antimicrobial agents. Rates of resistance have increased for most pathogens associated with nosocomial infections among ICU patients, and rates are almost universally higher among ICU patients compared with non-ICU patients. There are many opportunities, however, to prevent the emergence and spread of these resistant pathogens through improved use of established infection control measures (i.e., patient isolation, hand washing, glove use, and appropriate gown use), and implementation of a systematic review of antimicrobial use.
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In summary pleural complications in the ICU are common. Pneumothorax in a mechanically ventilated patient is a medical emergency that requires prompt diagnosis and therapy. Correct diagnosis and therapy of pleural effusions will assist in improving pulmonary physiology and outcome in the ICU patient.
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Muscle weakness, particularly impairment of the respiratory muscles, is a frequent abnormality in ICU patients. This is more relevant in some clinical situations--for example, in weaning patients from mechanical ventilation. Intensive care procedures that are designed to "rest" respiratory muscles, such as mechanical ventilation, may also contribute to impaired muscle function. ⋯ The techniques developed have a poor predictive value because of the difficulty in making the measurements in uncooperative patients and the lack of standardization. Furthermore, it is likely that some voluntary maneuvers underestimate muscle strength. Invasive procedures such as phrenic nerve stimulation or EMG recording are also of limited value.
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Although life-saving, mechanical ventilation may be associated with many complications, including consequences of positive intrathoracic pressure, the many aspects of volutrauma, and adverse effects of intubation and tracheostomy. Optimal ventilatory care requires implementing mechanical ventilation with attention to minimizing adverse hemodynamic effects, averting volutrauma, and effecting freedom from mechanical ventilation as quickly as possible so as to minimize the risk of airway complications.