Items in AFP with MESH term: Positive-Pressure Respiration
Acute Respiratory Distress Syndrome - Article
ABSTRACT: Acute respiratory distress syndrome is a manifestation of acute injury to the lung, commonly resulting from sepsis, trauma, and severe pulmonary infections. Clinically, it is characterized by dyspnea, profound hypoxemia, decreased lung compliance, and diffuse bilateral infiltrates on chest radiography. Provision of supplemental oxygen, lung rest, and supportive care are the fundamentals of therapy. The management of acute respiratory distress syndrome frequently requires endotracheal intubation and mechanical ventilation. A low tidal volume and low plateau pressure ventilator strategy is recommended to avoid ventilator-induced injury. Timely correction of the inciting clinical condition is essential for preventing further injury. Various medications directed at key stages of the pathophysiology have not been as clinically efficacious as the preceding experimental trials indicated. Complications such as pneumothorax, effusions, and focal pneumonia should be identified and promptly treated. In refractory cases, advanced ventilator and novel techniques should be considered, preferably in the setting of clinical trials. During the past decade, mortality has declined from more than 50 percent to about 32 to 45 percent. Death usually results from multisystem organ failure rather than respiratory failure alone.
ABSTRACT: Obstructive sleep apnea should be suspected in patients who are overweight snore loudly, and have chronic daytime sleepiness. The diagnosis of sleep apnea may be confirmed by sleep laboratory studies. Patients' symptoms and the frequency of respiratory events on laboratory testing are important factors in determining the severity of disease. In patients with mild sleep apnea, conservative treatment measures include getting sufficient sleep, abstaining from the use of alcohol and sedatives, losing weight, and avoiding the supine position during sleep. Continuous positive airway pressure (CPAP) is the most consistently effective treatment for clinically significant obstructive sleep apnea. In general, heavier patients with thicker necks require higher pressure settings. As patients age or gain weight, additional pressure may be necessary. Bilevel pressure machines or machines that slowly ramp up the pressure may increase patient acceptance of CPAP therapy. Complications of CPAP use include nasal dryness and congestion, claustrophobia, facial skin abrasions, air leaks, and conjunctivitis. Strategies to improve patient compliance include allowing patients to try a number of masks to find the most comfortable fit, adding humidification, treating nasal disease and, most importantly, providing close follow-up and encouragement. Oral appliances are inconsistently effective in the management of obstructive sleep apnea but may be an option in patients with mild disease who cannot tolerate CPAP. Palatal surgery often decreases snoring but may not reduce the occurrence of sleep apnea. Patients with severe disease and intolerance of CPAP may be candidates for more invasive surgical procedures. Supplemental oxygen and drug therapy may have limited, adjunctive roles in the treatment of obstructive sleep apnea.
Neonatal Resuscitation: An Update - Article
ABSTRACT: Appropriate resuscitation must be available for each of the more than 4 million infants born annually in the United States. Ninety percent of infants transition safely, and it is up to the physician to assess risk factors, identify the nearly 10 percent of infants who need resuscitation, and respond appropriately. A team or persons trained in neonatal resuscitation should be promptly available to provide resuscitation. The Neonatal Resuscitation Program, which was initiated in 1987 to identify infants at risk of needing resuscitation and provide high-quality resuscitation, underwent major updates in 2006 and 2010. Among the most important changes are to not intervene with endotracheal suctioning in vigorous infants born through meconium-stained amniotic fluid (although endotracheal suctioning may be appropriate in nonvigorous infants); to provide positive pressure ventilation with one of three devices when necessary; to begin resuscitation of term infants using room air or blended oxygen; and to have a pulse oximeter readily available in the delivery room. The updated guidelines also provide indications for chest compressions and for the use of intravenous epinephrine, which is the preferred route of administration, and recommend not to use sodium bicarbonate or naloxone during resuscitation. Other recommendations include confirming endotracheal tube placement using an exhaled carbon dioxide detector; using less than 100 percent oxygen and adequate thermal support to resuscitate preterm infants; and using therapeutic hypothermia for infants born at 36 weeks’ gestation or later with moderate to severe hypoxic-ischemic encephalopathy.