Journal of clinical sleep medicine : JCSM : official publication of the American Academy of Sleep Medicine
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There is a relatively small body of literature looking at sleep disordered breathing (SDB) in acutely ill inpatients. The aim of this study was to assess the frequency of SDB in acutely ill patients admitted to tertiary care centers referred for an inpatient polysomnogram and to identify associations between SDB and patient characteristics. ⋯ There is a high frequency of SDB in hospitalized patients referred for polysomnography, especially in patients with underlying cardiopulmonary disease. Further investigation of the impact of SDB on acute exacerbations of cardiopulmonary disease is needed, given the high frequency of SDB in hospitalized patients.
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To examine the sleep of married couples, recorded together in the laboratory before and after the husband is treated with continuous positive airway pressure (CPAP) to control his obstructive sleep apnea (OSA). The purpose was to investigate how these data relate to shared sleeping when he is on CPAP and his adherence to this treatment. ⋯ Although CPAP controls a husband's sleep-related OSA symptoms, his treatment adherence is strongly related to his wife sharing the bed. Addressing the wife's sensitivity to arousals when bed sharing may improve the husband's treatment adherence.
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To investigate the feasibility of using wrist actigraphy in a postoperative cohort of elderly patients (delirious versus nondelirious), and to use actigraphy to help characterize diurnal rest-activity patterns in this population. ⋯ This is the first study to document a significant disruption of the diurnal rest-activity cycle among delirious patients using objective methods and quantitative analysis of activity. Rest and activity consolidation were significantly reduced in delirious patients, as was the amplitude of day-night differences in rest and activity. These findings are consistent with a state of pathologic wakefulness in delirium.
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Practice Guideline
Clinical guidelines for the manual titration of positive airway pressure in patients with obstructive sleep apnea.
Positive airway pressure (PAP) devices are used to treat patients with sleep related breathing disorders (SRBDs), including obstructive sleep apnea (OSA). After a patient is diagnosed with OSA, the current standard of practice involves performing attended polysomnography (PSG), during which positive airway pressure is adjusted throughout the recording period to determine the optimal pressure for maintaining upper airway patency. Continuous positive airway pressure (CPAP) and bilevel positive airway pressure (BPAP) represent the two forms of PAP that are manually titrated during PSG to determine the single fixed pressure of CPAP or the fixed inspiratory and expiratory positive airway pressures (IPAP and EPAP, respectively) of BPAP for subsequent nightly usage. ⋯ Based on this review, the Task Force developed these recommendations for conducting CPAP and BPAP titrations. Major recommendations are as follows: (1) All potential PAP titration candidates should receive adequate PAP education, hands-on demonstration, careful mask fitting, and acclimatization prior to titration. (2) CPAP (IPAP and/or EPAP for patients on BPAP) should be increased until the following obstructive respiratory events are eliminated (no specific order) or the recommended maximum CPAP (IPAP for patients on BPAP) is reached: apneas, hypopneas, respiratory effort-related arousals (RERAs), and snoring. (3) The recommended minimum starting CPAP should be 4 cm H2O for pediatric and adult patients, and the recommended minimum starting IPAP and EPAP should be 8 cm H2O and 4 cm H2O, respectively, for pediatric and adult patients on BPAP. (4) The recommended maximum CPAP should be 15 cm H2O (or recommended maximum IPAP of 20 cm H2O if on BPAP) for patients < 12 years, and 20 cm H2O (or recommended maximum IPAP of 30 cm H2O if on BPAP) for patients > or = 12 years. (5) The recommended minimum IPAP-EPAP differential is 4 cm H2O and the recommended maximum IPAP-EPAP differential is 10 cm H2O (6) CPAP (IPAP and/or EPAP for patients on BPAP depending on the type of event) should be increased by at least 1 cm H2O with an interval no shorter than 5 min, with the goal of eliminating obstructive respiratory events. (7) CPAP (IPAP and EPAP for patients on BPAP) should be increased from any CPAP (or IPAP) level if at least 1 obstructive apnea is observed for patients < 12 years, or if at least 2 obstructive apneas are observed for patients > or = 12 years. (8) CPAP (IPAP for patients on BPAP) should be increased from any CPAP (or IPAP) level if at least 1 hypopnea is observed for patients < 12 years, or if at least 3 hypopneas are observed for patients > or = 12 years. (9) CPAP (IPAP for patients on BPAP) should be increased from any CPAP (or IPAP) level if at least 3 RERAs are observed for patients < 12 years, or if at least 5 RERAs are observed for patients > or = 12 years. (10) CPAP (IPAP for patients on BPAP) may be increased from any CPAP (or IPAP) level if at least 1 min of loud or unambiguous snoring is observed for patients < 12 years, or if at least 3 min of loud or unambiguous snoring are observed for patients > or = 12 years. (11) The titration algorithm for split-night CPAP or BPAP titration studies should be identical to that of full-night CPAP or BPAP titration studies, respectively. (12) If the patient is uncomfortable or intolerant of high pressures on CPAP, the patient may be tried on BPAP. If there are continued obstructive respiratory events at 15 cm H2O of CPAP during the titration study, the patient may be switched to BPAP. (13) The pressure of CPAP or BPAP selected for patient use following the titration study should reflect control of the patient's obstructive respiration by a low (preferably < 5 per hour) respiratory disturbance index (RDI) at the selected pressure, a minimum sea level SpO2 above 90% at the pressure, and with a leak within acceptable parameters at the pressure.) (14) An optimal titration reduces RDI < 5 for at least a 15-min duration and should include supine REM sleep at the selected pressure that is not continually interrupted by spontaneous arousals or awakenings. (15) A good titration reduces RDI < or = 10 or by 50% if the baseline RDI < 15 and should include supine REM sleep that is not continually interrupted by spontaneous arousals or awakenings at the selected pressure. (16) An adequate titration does not reduce the RDI < or = 10 but reduces the RDI by 75% from baseline (especially in severe OSA patients), or one in which the titration grading criteria for optimal or good are met with the exception that supine REM sleep did not occur at the selected pressure. (17) An unacceptable titration is one that does not meet any one of the above grades. (18) A repeat PAP titration study should be considered if the initial titration does not achieve a grade of optimal or good and, if it is a split-night PSG study, it fails to meet AASM criteria (i.e., titration duration should be > 3 hr).