Anales de pediatría : publicación oficial de la Asociación Española de Pediatría (A.E.P.)
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In the era of lung-protective ventilation strategies, high frequency oscillatory ventilation (HFOV) has attracted renewed interest and its use has dramatically increased in neonatal and pediatric intensive care units. HFOV is able to reduce ventilator-induced lung injury by limiting the incidence of volutrauma, atelectrauma, barotrauma and biotrauma. During HFOV, adequate oxygenation and ventilation is achieved by using low tidal volumes and small pressure swings at supraphysiologic frequencies. ⋯ However, the elective use of HFOV requires further studies to identify its benefits over conventional modes of mechanical ventilation and to support its routine use as a first line therapy. In the present article, the Respiratory Working Group of the Spanish Society Pediatric Critical Care reviews the main issues in the pediatric application of HFOV. In addition, a general practical protocol and specific management strategies, as well as the monitoring, patient care and other special features of the use of HFOV in the pediatric setting, are discussed.
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Weaning from mechanical ventilation can be defined as the process that allows the transition from mechanical ventilation to spontaneous breathing. This process can account for a significant proportion of total ventilation time and failure to resume spontaneous breathing affects patient outcome. Thus, to ensure maximum success, patient readiness for weaning and extubation should be evaluated through the following steps: the patient must fulfill pre-established clinical and ventilatory support criteria for extubation, the patient should be observed during a breathing trial on minimal or no ventilatory support, and variables used to predict weaning success should indicate a favorable outcome. ⋯ Neither of these methods has proved superior to the other. The best prognostic indicator of weaning outcome is clinical assessment of respiratory effort. Once mechanical ventilation is discontinued, it may be necessary to treat post-extubation complications or even to resume ventilatory support.
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Mechanical ventilation can produce multiple complications. The most important acute complications are mechanical problems (respirator failure, problems with the connections and circuit, incorrect parameters or alarms), problems in the airway (disconnection, extubation, mal-positioning of the endotracheal tube, leaks, nose erosions, obstruction of the endotracheal tube due to secretions or kinking, mainstem bronchus intubation, bronchospasm, postextubation croup), pulmonary complications (ventilator-induced lung injury with barotrauma, volutrauma and biotrauma), hemodynamic complications, nosocomial infections (tracheobronchitis, pneumonia, otitis, sinusitis), failure of adjustment of the respirator to the patient, and nutritional complications. The most important chronic problems are subglottal stenosis, chronic pulmonary injury, and psychological alterations.
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Microalbuminuria screening is justified on the grounds of its cost-benefit ratio in patients at risk of kidney damage while the process is still reversible. The aim of the present study was to evaluate the DCA 2000 analyser and the Clinitek 50 system (Bayer), which simultaneously measure urinary albumin and creatinine levels to adopt them as rapid methods for microalbuminuria detection. ⋯ The data obtained with the DCA 2000 system showed close agreement with those obtained with reference laboratory methods. The immediate availability of results is a great advantage in clinical practice. The Clinitek-Microalbumin dipstick system is a semiquantitative method that is easy to use, low in cost, simple and useful for screening, but it is less reliable as a follow-up method.
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Noninvasive ventilation (NIV), i.e. without tracheal intubation, has been reintroduced for the treatment of respiratory failure to reduce the complications of mechanical ventilation. Nowadays, NIV with positive pressure is the preferred method, applied through a mask held in place by a harness. Several masks can be used (nasal, bucconasal facial) and a variety of means can be used to keep them in place. ⋯ The advantages of NIV derive mainly from avoiding the complications associated with invasive ventilation. NIV also presents some disadvantages, especially the greater workload involved to ensure good patient adaptation to the respirator. The most common sequelae of NIV are skin lesions due to pressure on the nasal bridge.