Sleep is associated with important changes in upper airway, lung mechanics as well as respiratory control. The significance of monitoring of various physiological parameters during sleep are discussed.
Keenan SP, Sinuff T, Burns KEA, Muscedere J, Kustogiannis J, Mehta S. et al. CMAJ 2011; 183(3):E195-214
Elliot MW. Non-invasive ventilation during sleep: time to define new tools in the systematic evaluation of the technique. Thorax 2011; 66:82-84.
Jansenns J-P, Borel J-C, Pepin J-L. Nocturnal monitoring of home non-invasive ventilation: the contribution of simple tools such as pulse oximetry, capnography, built-in ventilator software and autonomic markers of sleep fragmentation. Thorax 2011; 66:438-445.
Gonzalez C, Ferris G, Diaz J, et al. Kyphoscoliotic ventilatory insufficiency: effects of long-term intermittent positivepressure ventilation. Chest 2003; 124:857e62.
Janssens JP, Heritier-Praz A, Staneczek O, et al. Agreement between daytime measurement of arterial blood gases (ABG), nocturnal pulse-oximetry (NPO) and transcutaneous capnography in home mechanical ventilation. Eur Respir J: 2002;20:155S.
Paiva R, Krivec U, Aubertin G, et al. Carbon dioxide monitoring during long-term noninvasive respiratory support in children. Intensive Care Med 2009; 35:1068e74.
Senn O, Clarenbach CF, Kaplan V, et al. Monitoring carbon dioxide tension and arterial oxygen saturation by a single earlobe sensor in patients with critical illness or sleep apnea. Chest 2005; 128:1291e6.
Bendjelid K, Schutz N, Stotz M, et al. Transcutaneous PCO2 monitoring in critically ill adults: clinical evaluation of a new sensor. Crit Care Med 2005; 33:2203e6.
Parker SM, Gibson GJ. Evaluation of a transcutaneous carbon dioxide monitor (“TOSCA”) in adult patients in routine respiratory practice. Respir Med 2007; 101:261e4.
Janssens JP, Howarth-Frey C, Chevrolet JC, et al. Transcutaneous PCO2 to monitor noninvasive mechanical ventilation in adults: assessment of a new transcutaneous PCO2 device. Chest 1998; 113:768e73.
Rabec C, Georges M, Kabeya NK, et al. Evaluating noninvasive ventilation using a monitoring system coupled to a ventilator: a bench-to-bedside study. Eur Respir J 2009; 34:902e13.
Rabec C, Rodenstein D, Leger P, Rouault S, Perrin C, Gonzalez-Bermejo J. Ventilator modes and settings during non-invasive ventilation: effects on respiratory events and implications for their identification. Thorax 2011; 66:170e178.
Gonzalez-Bermejo J, Perrin C, Janssens JP, Pepin JL et al. Proposal for a systematic analysis of polygraphy or polysomnography for identifying and scoring abnormal events occurring during non-invasive ventilation. Thorax 2012; 67(6):546-552.
Pepin JF et al. Sleep and NIV: monitoring of the patient under home ventilation. In: Noninvasive ventilation, 2nd ed, Muir JF, Ambrosino N, Simonds AK (Eds), Eur Respir Monograph, 2008, 41, 350-366.
Goldstein RS, Davis L. The importance of overnight monitoring in the management of chronic respiratory failure. In: Ventilatory Support for Chronic Respiratory Failure, Lung Biology in Health and Disease, 2008, 225, N Ambrosino and RS Goldstein Ed; Informa Heakthcare, 371-388.
Chawla R, Khilnanai GC, Suri JC, Ramakrishnan N, Mani RK, Prayag S, Nagarkar S, Kansal S, Sidhu US, Kumar V. Guidelines for non-invasive ventilation in acute respiratory failure. Indian J Crit Care Med 2006; 10(2):117-147.
Owens RL, Malhotra A. Sleep-disordered breathing and COPD: the overlap syndrome. Respir Care 2010; 55(10):1333-1344.
Ahmed MM, Schwab RJ. Chronic non-invasive positive pressure ventilation: considerations during sleep. Sleep Med Clin 2008; 3:557-568
Berry RB. Non-invasive titration and treatment initiation in patients with chronic hypoventilation syndromes. Sleep Med Clin 2010; 5(3):485-505
Dempsey JA, Veasey SC, Morgan BJ, et al. Pathophysiology of sleep apnea. Physiol Rev 2010; 90:47e112.