Respiratory care
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Noninvasive respiratory support has been a proven intervention for patients with acute respiratory failure. CPAP, noninvasive ventilation, and high-flow nasal cannula have been effectively used to support the respiratory needs of this patient population. ⋯ This paper reviews these factors, along with other issues that may impact tolerance of these devices. By addressing these factors and tailoring the intervention to the needs of the individual patient, the clinician can improve the likelihood of successful management of the respiratory condition in the patient with acute respiratory failure who receives noninvasive respiratory support.
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Neuromuscular diseases are a heterogeneous group of neurologic diseases that affect a number of neural structures including the motor nerves, neuromuscular junctions, or the muscles themselves. Although many of the diseases are rare, the total number of individuals who present to a pulmonologist or respiratory care provider is significant. Approaches to care include regular and careful clinical follow-up of symptoms of sleep-disordered breathing, daytime hypoventilation, as well as cough and swallowing effectiveness. ⋯ Support of cough function with manual assistance, a resuscitator bag, and/or mechanical insufflation-exsufflation can help prevent and treat infection. Referral for swallowing evaluation and treatment is very important for those with impaired bulbar function. This comprehensive respiratory care approach to individuals with neuromuscular disease and respiratory system involvement is essential to maintaining the health and longevity of these individuals.
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Noninvasive ventilation is well established as the ventilatory modality of first choice to treat acute or acute-on-chronic hypercapnic respiratory failure in patients with COPD by improving dyspnea and gas exchange, avoiding the need for intubation, and reducing morbidity and mortality rates. Noninvasive ventilation also offers benefit for patients with COPD and with accompanying pneumonia or with hypercapnic respiratory failure in postextubation, postoperative, and do not intubate settings. ⋯ A newer form of noninvasive ventilatory assistance, high-flow nasal cannula, has emerged in recent years as a technique to not only oxygenate effectively but also to improve ventilatory efficiency and reduce the work of breathing in patients with severe COPD. Results of recent studies indicate that high-flow nasal cannula therapy can benefit some patients with acute hypercapnic respiratory failure, either instead of or in combination with noninvasive ventilation, but more study is needed.
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Noninvasive respiratory support at the end of life is controversial, although it is becoming increasingly common. Supplemental oxygen is widely prescribed for palliative care and may help with hypoxemic respiratory failure. Noninvasive ventilation has a well-established evidence-based role in the management of respiratory failure due to exacerbations of COPD and cardiogenic pulmonary edema. ⋯ High-flow nasal cannula oxygen therapy is a new strategy for which there is evidence to support its use for hypoxemic respiratory failure. However, any benefit of the use of high-flow nasal cannula oxygen therapy in the palliative setting is unknown at this time. This review examined evidence relating to the use of noninvasive respiratory support at the end of life.
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Noninvasive ventilation (NIV) has a number of physiologic effects similar to invasive ventilation. The major effects are to augment minute ventilation and reduce muscle loading. These effects, in turn, can have profound effects on the patient's ventilator control system, both acutely and chronically. ⋯ By reducing venous return, it can help in patients with heart failure or fluid overload, but it can compromise cardiac output in others. NIV can also increase right ventricular afterload or function to reduce left ventricular afterload. Potential detrimental physiologic effects of NIV are ventilator-induced lung injury, auto-PEEP development, and discomfort/muscle overload from poor patient-ventilator interactions.