CPAP Level Research Articles

PS-376 Non-invasive Ventilation In Neonates: Effect Of Nasal Cannula Size, Insertion Depth And Nares Diameter On Mean Airway Pressure - An In-vitro Study

<h3>Background</h3> Increased neonatal Non-Invasive Ventilation (NIV) use, such as nCPAP and high flow nasal cannula (HFNC) prompted re-evaluation of nasal interface devices – specifically short bi-nasal prongs, and their size and fit relative to the nares. <h3>Objective</h3> To quantify the effect of nasal prong size and insertion depth on generated mean airway pressure (MAP) during NIV. <h3>Design/methods</h3> A Dräger traditional nCPAP interface, three sizes of RAM cannulae (Neotech, Valencia, CA, USA) and two Fisher and Paykel (FP) (Auckland, NZ) HFNC cannulae were tested with 8 simulated nares sizes. A simulated nasal airway was connected to an active lung model set at: Vt 8–10 ml, 60 b/m, Ti 0.35–0.40 s. A Dräger Evita XL ventilator delivered 4,5,6,7 and 8 cmH₂O to the RAM and the Dräger nCPAP cannulae and a FP HFNC system delivered 1–6 L/m flows. MAP was measured for open and closed-mouth conditions. <h3>Results</h3> MAP decreased progressively as the percent nares occlusion (%Occl) decreased. At one-half insertion and closed-mouth conditions, close fitting prongs with high% Occl yielded MAP’s of one-half of set CPAP levels. Delivered MAP’s were significantly lower during open-mouth condition using either HFNC or CPAP cannulae. MAP increased with both flowrate and%Occl. A rapid rise in pressure was associated with% Occl’s &gt;74%. Complete nares occlusions generated the highest pressures. Simulated closed-mouth produced 12 ± 7 SD higher MAP’s than open-mouth over all%Occl’s at HFNC flows &gt;1 L/m. <h3>Conclusion</h3> RAM ‘CPAP’ does not deliver MAP as effectively as standard nasal prong CPAP. Optimum delivered airway pressure is dependent on appropriate %Occl, insertion depth and NIV settings.

Nasal continuous positive airway pressure inhibits gastroesophageal reflux in newborn lambs.

BackgroundUsing esophageal pHmetry, nasal CPAP (nCPAP) has been shown to decrease acid gastroesophageal reflux (GER) in adult humans. Although both GER (mainly non-acid) and nCPAP use are very frequent in newborns, the effect of nCPAP on GER in early life is unknown. Having recently shown that the newborn lamb is a unique model for studying neonatal GER, our main objective was to assess the effect of nCPAP on GER in newborn lambs.MethodsEight newborn lambs, aged 2–3 days, were studied. Continuous esophageal pH-Impedance monitoring and polysomnography were performed for six hours during both spontaneous breathing and nCPAP application at 6 cmH2O (nCPAP6), in a randomized order. Results were compared in the two experimental conditions, as well as without CPAP during the following 6 hours.Resultsi) nCPAP6 virtually abolished GER [mean ±SD reflux number for 6 h = 9.1±8.6 without nCPAP6 vs. 0.6±1 with nCPAP6, P<0.05]; ii) GER number was also reduced during the 6 h-period following nCPAP6 application (18±16 without nCPAP6 vs. 7±8.1 with nCPAP6, P<0.05); iii) nCPAP6 decreased the depth and duration of lower esophageal sphincter relaxation.ConclusionsnCPAP inhibits GER in the newborn lamb. Further clinical studies using different levels of nasal CPAP are needed to confirm this result in human infants.

Oronasal masks require higher levels of positive airway pressure than nasal masks to treat obstructive sleep apnea

The purpose of this study was to compare the therapeutic pressure determined by an automated CPAP device (AutoCPAP) during the titration period, between nasal and oronasal mask and the residual apnea-hypopnea index (AHI) on a subsequent poligraphy performed with the established therapeutic CPAP. As a retrospective study, 109 subjects with moderate and severe obstructive sleep apnea-hypopnea (apnea-hypopnea index≥15 events/h) were studied. CPAP titration was performed using an auto-titrating device. There was significant difference in the mean pressure delivered with autoCPAP between the group of patients using the nasal mask (mean 10.0 cmH2O±2.0 SD) and the group which used the oronasal mask (mean 11.2 cmH2O±2.1) (p<0.05). Residual apneas were lower when using a nasal mask: average AHI of 2.6±2.5 compared to 4.5±4.0 using an oronasal mask (p<0.05). On multivariate analysis, the only independent predictor of the level of therapeutic pressure of CPAP was the type of mask used (r=0.245, p 0.008). Therapeutic CPAP level for OSAH is higher when administered via oronasal mask, leaving more residual events. These findings suggest that nasal mask should be the first choice for OSAH treatment.

Analysis of age effect to determine optimal nasal pressure in Korean patients with obstructive sleep apnea

Introduction Determining of the optimal CPAP pressure is the key procedure of applying adequate CPAP for patients with Obstructive Sleep Apnea (OSA). There are some studies for predictors of optimal CPAP pressure, most of them emphasized the apnea hypopnea index, importance of anthropometric factors, especially body mass index, neck circumference. As The purpose of this study is to analysis of aging factors affecting CPAP pressure as well as polysomnographic data in Korean patients with OSA Materials and methods We retrospectively reviewed the records of 169 Korean patients with OSA who had undergone CPAP titration at the Sleep Clinic of Kyung Hee university hospital at Gangdong. The patients were examined by otolaryngologist for grading the anatomy of nasopharyngeal, oropharyngeal, retropharyngeal area before diagnostic polysomnography. Anthropometric data was consisted of Friedman palate position, modified Friedman palate position, Tonsil hypertrophy grade, nasopharyngeal endoscopy, retropharyngeal grade, uvular size and body mass index (BMI). We divided them subgroups according to age ; below 40 (group 1, n = 38, male 37, female 1), 41 ∼ 60 (group 2, n = 98, male 91, female 7), above 60 years old (group 3, n = 32, male 29, female 3). Results The mean optimal CPAP pressure in 169 patients was 8.40 ± 2.73 cmH2O and the apnea hypopnea index (AHI), respiratory distress index (RDI), arousal index (AI) and BMI were correlated with optimal CPAP level. There were no difference optimal CPAP pressure and modified Friedman palate position, tonsil hypertrophy grade, nasopharyngeal endoscopy, uvular size between groups. But, the retropharyngeal grade was correlated with optimal CPAP pressure in young age group. Patient with low optimal pressure group had tendency of longer uvula and Patient with high optimal pressure group had more narrow retropharyngeal area than in patient with low optimal pressure. Conclusion Our study shows that anatomic problem of retropharyngeal area influence to high optimal pressure only in young OSA patient. Previous studies for affecting factor of optimal CPAP pressure focused anthropometric factors. Our study suggests that functional problem as well as retropharyngeal anatomy may affect to determine optimal CPAP pressure in old OSA patient.

Prediction of Optimal CPAP Pressure and Validation of an Equation for Asian Patients With Obstructive Sleep Apnea

The Hoffstein formula is the most widely used equation to predict optimal CPAP pressure in patients with obstructive sleep apnea, but it is based on data from white patients. The purpose of this study was to develop an equation for optimal CPAP based on data from Asian patients, and to compare this new formula with the Hoffstein formula. We retrospectively reviewed the records of 356 Korean subjects with obstructive sleep apnea who had undergone successful CPAP titration, and randomly divided them into 2 groups, with 178 subjects per group. In group 1 we used stepwise multiple linear regression analysis to develop a predictive equation for optimal CPAP. Then we compared our equation with the Hoffstein equation in group 2. A predictive equation was: predicted pressure (cm H2O) = 6.656 + 0.156 × (body mass index [kg/m(2)]) - 0.071 × (minimal SpO2 [%]) + 0.041 × (respiratory disturbance index) + 0.094 × (score of Epworth Sleepiness Scale). This equation accounted for 38.9% of the total variance (P < .001). Proportions of optimal estimation of CPAP pressure were 38.8% and 36.5% in this equation and the Hoffstein equation, respectively. The Hoffstein formula significantly underestimated CPAP, compared with our formula. Although our equation was somewhat better to predict optimal CPAP level in Asian subjects than the Hoffstein equation, the CPAP prediction equation did not accurately predict the prescribed CPAP level. Therefore, the usefulness of the CPAP prediction formula is limited in some clinical settings.

Functional Evaluation of Bubble CPAP for Neonates Using a Leak Model

Objective:We evaluated the influence of bias flow magnitude and leak flow on the provided CPAP level in the presence or absence of a reservoir bag. Methods:The 500 mL soft plastic reservoir bag was connected to the bubble CPAP system.The leak pathway and a valve were prepared to simulate the function of the mouth. The pressure and flow in the regions corresponding to the lower airway (Pdistal)and the leak flow were recorded simultaneously using a flow analyzer. Results:At a bias flow of 3 L/min,use of a reservoir bag resulted in a significant decline of the pressure swing magnitude at 60 and 90 breaths/min.A reservoir bag attenuated the rapid aspiration-induced decreases of the mean airway pressure.When bubbling disappeared due to complete opening of the leak valve,the mean airway pressure was maintained at approximately 2 cmH O.Additionally,the mean airway pressure increased with increasing bias flow even under 100% leak condition. Conclusions:Even when a large leak occurs,a low but significant airway pressure is loaded under moderate bias flow.Inclusion of a reservoir bag in the bubble CPAP may offer an effective and inexpensive option for providing respiratory support to preterm infants.Shinshu Med J 61: 65―73, 2013 (Received for publication December 18,2012;accepted in revised form January 8,2013)

Work of breathing as a tool to diagnose severe fixed upper airway obstruction

A 4-year-old girl with bilateral vocal fold palsy was successfully decannulated from tracheotomy after seven laryngeal procedures. But an important stridor and dyspnea recurred 13 months after decannulation. Nocturnal gas exchange was normal but her daytime work of breathing was increased by fourfold, without any beneficial effect of nasal noninvasive continuous positive airway pressure ventilation (CPAP), reflecting a severe fixed airway obstruction. Endoscopic examination confirmed the work of breathing findings showing glottic and supraglottic stenosis. This upper airway obstruction was successfully treated with a recannulation. In conclusion, the major message of this case report is that measurement of the work of breathing was able to document the "fixed" nature of the airway obstruction, by showing no improvement even with highest tolerated levels of nasal CPAP. As such, the work of breathing may be proposed as a screening tool to quantify and assess the reversibility of severe upper airway obstruction in children.

Noninvasive CPAP With Face Mask: Comparison Among New Air-Entrainment Masks and the Boussignac Valve

The performances of 2 noninvasive CPAP systems (high flow and low flow air-entrainment masks) were compared to the Boussignac valve in 3 different scenarios. Scenario 1: pneumatic lung simulator with a tachypnea pattern (tidal volume 800 mL at 40 breaths/min). Scenario 2: Ten healthy subjects studied during tidal breaths and tachypnea. Scenario 3: Twenty ICU subjects enrolled for a noninvasive CPAP session. Differences between set and effective CPAP level and F(IO(2)), as well as the lowest airway pressure and the pressure swing around the imposed CPAP level, were analyzed. The lowest airway pressure and swing were correlated to the pressure-time product (area of the airway pressure curve below the CPAP level) measured with the simulator. P(aO(2)) was a subject's further performance index. Lung simulator: Boussignac F(IO(2)) was 0.54, even if supplied with pure oxygen. The air-entrainment masks had higher swing than the Boussignac (P = .007). Pressure-time product correlated better with pressure swing (Spearman correlation coefficient [ρ] = 0.97) than with lowest airway pressure (ρ = 0.92). In healthy subjects, the high-flow air-entrainment mask showed lower difference between set and effective F(IO(2)) (P < .001), and lowest airway pressure (P < .001), compared to the Boussignac valve. In all measurements the Boussignac valve showed higher than imposed CPAP level (P < .001). In ICU subjects the high-flow mask had lower swing than the Boussignac valve (P = .03) with similar P(aO(2)) increase. High-flow air-entrainment mask showed the best performance in human subjects. During high flow demand, the Boussignac valve delivered lower than expected F(IO(2)) and showed higher dynamic hyper-pressurization than the air-entrainment masks.

Biphasic positive airway pressure minimizes biological impact on lung tissue in mild acute lung injury independent of etiology

IntroductionBiphasic positive airway pressure (BIVENT) is a partial support mode that employs pressure-controlled, time-cycled ventilation set at two levels of continuous positive airway pressure with unrestricted spontaneous breathing. BIVENT can modulate inspiratory effort by modifying the frequency of controlled breaths. Nevertheless, the optimal amount of inspiratory effort to improve respiratory function while minimizing ventilator-associated lung injury during partial ventilatory assistance has not been determined. Furthermore, it is unclear whether the effects of partial ventilatory support depend on acute lung injury (ALI) etiology. This study aimed to investigate the impact of spontaneous and time-cycled control breaths during BIVENT on the lung and diaphragm in experimental pulmonary (p) and extrapulmonary (exp) ALI.MethodsThis was a prospective, randomized, controlled experimental study of 60 adult male Wistar rats. Mild ALI was induced by Escherichia coli lipopolysaccharide either intratracheally (ALIp) or intraperitoneally (ALIexp). After 24 hours, animals were anesthetized and further randomized as follows: (1) pressure-controlled ventilation (PCV) with tidal volume (Vt) = 6 ml/kg, respiratory rate = 100 breaths/min, PEEP = 5 cmH2O, and inspiratory-to-expiratory ratio (I:E) = 1:2; or (2) BIVENT with three spontaneous and time-cycled control breath modes (100, 75, and 50 breaths/min). BIVENT was set with two levels of CPAP (Phigh = 10 cmH2O and Plow = 5 cmH2O). Inspiratory time was kept constant (Thigh = 0.3 s).ResultsBIVENT was associated with reduced markers of inflammation, apoptosis, fibrogenesis, and epithelial and endothelial cell damage in lung tissue in both ALI models when compared to PCV. The inspiratory effort during spontaneous breaths increased during BIVENT-50 in both ALI models. In ALIp, alveolar collapse was higher in BIVENT-100 than PCV, but decreased during BIVENT-50, and diaphragmatic injury was lower during BIVENT-50 compared to PCV and BIVENT-100. In ALIexp, alveolar collapse during BIVENT-100 and BIVENT-75 was comparable to PCV, while decreasing with BIVENT-50, and diaphragmatic injury increased during BIVENT-50.ConclusionsIn mild ALI, BIVENT had a lower biological impact on lung tissue compared to PCV. In contrast, the response of atelectasis and diaphragmatic injury to BIVENT differed according to the rate of spontaneous/controlled breaths and ALI etiology.

Comparison of Nasal Continuous Positive Airway Pressure Delivered by Seven Ventilators Using Simulated Neonatal Breathing

Nasal continuous positive airway pressure (NCPAP) is an established treatment for respiratory distress in neonates. Most modern ventilators are able to provide NCPAP. There have been no large studies examining the properties of NCPAP delivered by ventilators. The aim of this study was to compare pressure stability and imposed work of breathing (iWOB) for NCPAP delivered by ventilators using simulated neonatal breathing. Experimental in vitro study. Research laboratory in Sweden. None. Neonatal breathing was simulated using a mechanical lung simulator. Seven ventilators were tested at different CPAP levels using two breath profiles. Pressure stability and iWOB were determined. Results from three ventilators revealed that they provided a slight pressure support. For these ventilators, iWOB could not be calculated. There were large differences in pressure stability and iWOB between the tested ventilators. For simulations using the 3.4-kg breath profile, the pressure swings around the mean pressure were more than five times greater, and iWOB more than four times higher, for the system with the highest measured values compared with the system with the lowest. Overall, the Fabian ventilator was the most pressure stable system. Evita XL and SERVO-i were found more pressure stable than Fabian in some simulations. The results for iWOB were in accordance with pressure stability for systems that allowed determination of this variable. Some of the tested ventilators unexpectedly provided a minor degree of pressure support. In terms of pressure stability, we have not found any advantages of ventilators as a group compared with Bubble CPAP, Neopuff, and variable flow generators that were tested in our previous study. The variation between individual systems is great within both categories. The clinical importance of these findings needs further investigation.

Bench comparative evaluation of a new generation and standard helmet for delivering non-invasive ventilation

To evaluate the performance of a new helmet (NH) recently introduced into clinical use relative to that of the standard helmet (SH) in terms of delivering non-invasive continuous positive airway pressure (nCPAP) and pressure support ventilation (nPSV). This was a bench study using a mannequin connected to an active lung simulator. The SH was fastened to the mannequin by armpit braces, which are not needed to secure the NH. The inspiratory and expiratory variations in nCPAP delivered with two different simulated efforts (Pmus), were determined relative to the preset CPAP level. nPSV was applied at two simulated respiratory rates (RR) and two cycling-off flow thresholds. We measured inspiratory trigger delay (Delay trinsp), expiratory trigger delay (Delay trexp), time of synchrony (Time sync), trigger pressure drop (ΔP trigger), airway pressure-time product during the triggering phase (PTPt), the initial 200 ms from the onset of the ventilator pressurization (PTP 200), and the initial 300 and 500 ms from the onset of the simulated effort; this two latter parameters were expressed as the percentage of the area of ideal pressurization (PTP 300-index and PTP 500-index, respectively). In nCPAP, at both Pmus, the differences between the two interfaces at both Pmus were small and clinically irrelevant. In nPSV, regardless of the setting, NH resulted in significantly smaller trigger delays, ΔP trigger, and PTPt. Time sync, PTP 200, PTP 300-index, and PTP 500-index were also significantly higher with the NH compared to the SH, irrespective of the setting. Compared to the SH, the NH is equally effective in delivering nCPAP and more effective in delivering nPSV, and it is used to avoid the need for armpit braces.

147 Loss of End-Expiratory Lung Volume During Periods of Hypopnoea in Preterm Infants with Early Respiratory Distress Syndrome (RDS) Receiving CPAP

Background and aimsWhether variations in end-expiratory lung volume (EELV) occur in stable infants receiving nasal CPAP is unknown. This study aimed to describe global and regional volumetric behavior over periods...

Impact of CPAP interface and mandibular advancement device on upper airway mechanical properties assessed with phrenic nerve stimulation in sleep apnea patients

Oronasal mask (ONM) can be used when mouth leaks impair nasal-CPAP effectiveness. However, ONM's constraint on the chin and straps’ traction may alter upper airway (UA) mechanical properties. In contrast, mandibular advancement device associated with nasal-CPAP (NM+MAD) may reduce UA resistance. The aim of this exploratory study was to compare the effects of ONM, NM, and NM+MAD on UA mechanical properties. The three interface modalities were assessed in 11 OSAS patients at 6, 8, 10cmH2O CPAP using a phrenic nerve magnetic stimulation (PNMS) protocol. PNMS-twitches’ related flow, pharyngeal pressures (nasopharynx, velopharynx, oropharynx) and UA resistances were determined. Regardless of CPAP level, twitch-induced maximum flow was higher with NM+MAD than with ONM. Velopharyngeal resistance was higher with ONM than with NM+MAD. Oropharyngeal resistance was higher with ONM than with NM. In conclusion, NM+MAD reduced velopharyngeal resistance compared to those measured with ONM and NM alone. We hypothesize that this strategy may help reducing the effective pressure level and thus further limit the risk for mouth leaks.

Lipid Metabolism: A New Frontier in Sleep Apnea Research

Obstructive sleep apnea (OSA) is a common condition characterized by recurrent collapse of the upper airway during sleep. Clinical studies performed over the last decade have shown that OSA is associated with cardiovascular morbidity and mortality (1, 2). The pathogenesis of cardiovascular complications of OSA is not fully understood, but several mechanisms have been implicated, including increased sympathetic activity, oxidative stress, systemic inflammation resulting in insulin resistance, hypertension, and endothelial dysfunction (3). Recent studies in animal models have identified dysregulation of lipid metabolism and dyslipidemia as a potentially important mediator of accelerated atherogenesis in OSA (4, 5). However, clinical evidence on causal relationships between OSA and dyslipidemia remains contradictory. There are several reports related to the impact of OSA on fasting lipid levels; however, post-prandial levels of plasma lipids have not been previously assessed. Post-prandial hypertriglyceridemia has recently been linked to increased cardiovascular morbidity and mortality (6–8) that is attributed to accumulation of atherogenic remnants of triglyceride-rich chylomicrons. In contrast, fasting triglycerides have not been attributed to significant cardiovascular risk (9). Therefore, examining the effect of OSA and subsequent treatment on post-prandial lipid levels is of significant research interest. In this issue, Phillips and colleagues (pp. 355) provided the first data on the impact of moderate to severe OSA on lipid metabolism in humans (10). The authors conducted the first randomized placebo-controlled crossover trial measuring the effect of continuous positive pressure (CPAP) therapy for 2 months on plasma lipids over 24 hours as a primary outcome. The participants received standard meals in the controlled environment, and the effects of therapeutic and sham CPAP treatments were compared. Assessment of lipid metabolism during both waking and sleep was undertaken with seven blood samples drawn across the 24-hour study period. CPAP treatment did not modify fasting lipid levels. In both treatment groups, 24-hour triglyceride levels peaked at 2:00 p.m., 5 to 6 hours after breakfast, and at 3:00 a.m., 6 to 7 hours after dinner. Therapeutic levels of CPAP markedly decreased post-prandial hypertriglyceridemia. In addition, CPAP therapy lowered fasting and nonfasting total cholesterol levels. It should be noted that the effect of CPAP on post-prandial hyperlipidemia was relatively modest and mostly attributable to a reduction of triglyceride levels at two time points, 2:00 p.m. and 3:00 a.m. The effects of CPAP could have been impacted by the following methodological issues. First, the compliance with CPAP treatment was not ideal with the mean use of 4.4 hours/night. Second, the usual peak of triglyceride concentration is 4 hours after a meal (7). Unfortunately, no single blood draw coincided with the potential biological peak of post-prandial triglycerides. Finally, patients were awakened from sleep for the blood draws resulting in sleep fragmentation and possibly stress related to the venipuncture. This could have been avoided if an indwelling venous catheter was utilized. How could OSA promote post-prandial hyperlipidemia? Recent translational research provides some clues. Post-prandial lipid levels are determined by the degree of chylomicron intestinal absorption and clearance. Our group has recently examined post-prandial lipid metabolism in a mouse model of chronic intermittent hypoxia (CIH) that mimics the oxygen profile in patients with severe OSA (11). Mice were exposed to 4 weeks of CIH or control conditions followed by gavage of retinyl palmitate to measure chylomicron clearance. Compared with control, CIH caused a rapid peak of retinol ester concentration with a slow decline suggesting that intestinal absorption remained intact, whereas clearance of chylomicrons from bloodstream was impaired. Poor clearance of chylomicrons during CIH was accompanied by elevation of fasting very-low-density lipoproteins, suggesting that CIH inhibits clearance of triglyceride-rich lipoproteins through a common pathway. This common pathway is likely mediated by lipoprotein lipase (LPL), a key enzyme responsible for the hydrolysis of core triglycerides in chylomicrons and very-low-density lipoproteins (12). CIH induced a striking 80% decrease in LPL activity in adipose tissue. CIH also increased mRNA and protein levels of a potent LPL inhibitor, angiopoietin-like protein 4, in adipose tissue, suggesting a potential mechanism of LPL inactivation (Figure 1). Figure 1. Effects of chronic intermittent hypoxia (CIH) on lipoprotein clearance. CIH inhibits triglyceride-rich lipoprotein clearance (chylomicrons [CM] and very-low-density lipoprotein [VLDL]) by activating angiopoietin-like protein-4 (Angptl-4), a potent inhibitor ... In conclusion, Phillips and colleagues (10) have shown that in humans with OSA, post-prandial lipids are elevated and favorably impacted by CPAP. Emerging translational research suggests that dysregulation of lipid metabolism in OSA is an important additional mediator of atherosclerotic burden. Treatment with CPAP may modify this atherosclerotic risk in addition to the previously reported effects on pathways mediating sympathetic activity, oxidative stress, and systemic inflammation.

Response of automatic continuous positive airway pressure devices in a normal subject

To the Editors: Obstructive sleep apnoea (OSA) is a prevalent disease whereby people become unable to breathe when asleep. During sleep the pharyngeal walls are sucked in and collapse completely, causing full (termed apnoea) or incomplete (termed hypopnoea) abolition of airflow. OSA can lead to daytime fatigue and sleepiness, impairment in cognitive functions, motor vehicle crashes, hypertension, cardiovascular disease, stroke and premature deaths [1]. OSA is easily treated with continuous positive pressure applied throughout sleep [2]. The right amount of pressure is determined individually during a titration night, when pressure is gradually increased to keep the airway open to allow for normal sleep and breathing [2]. In 1993 it was postulated that this process of titration could be performed with a stand alone blower equipped with a microprocessor guiding the positive pressure [3]. The idea was to use the blower as a monitoring device identifying abnormal breathing events and react by increasing pressure until disappearance of the abnormal events. The device would then slowly decrease pressure until events reappeared and the pressure would then be increased again [3]. These machines, termed automatic continuous positive airway pressure devices (autoCPAP), were proposed as monitoring or even diagnostic machines [4], as devices used for one night to determine the fixed CPAP level to be used thereafter [5] or even as therapeutic machines to be used every night and to adapt the pressure necessary to keep the pharynx open at all times [6]. When autoCPAP devices were tested in a bench study it was shown that no two devices reacted alike, that many devices did not even recognise the events they were supposed to act upon and that even when recognising the events, many were not able to …

The Effect of Airway Pressure Release Ventilation on Pulmonary Catheter Readings: Specifically Pulmonary Capillary Wedge Pressure in a Swine Model

Background. Airway pressure release ventilation (APRV) is a mode of mechanical ventilation that theoretically believed to improve cardiac output by lowering right atrial pressure. However, hemodynamic parameters have never been formally assessed. Methods. Seven healthy swine were intubated and sedated. A baseline assessment of conventional ventilation (assist control) and positive end-expiratory pressure (PEEP) of 5 cm H2O was initiated. Ventilator mode was changed to APRV with incremental elevations of CPAP-high from 10 to 35 cm H2O. After a 3-to-5-minute stabilization period, measurements of hemodynamic parameters (PCWP, LAP, and CVP) were recorded at each level of APRV pressure settings. Results. Increasing CPAP caused increased PCWP and LAP measurements above their baseline values. Mean PCWP and LAP were linearly related (LAP = 0.66∗PCWP + 4.5 cm H2O, R 2 = 0.674, and P < .001) over a wide range of high and low CPAP values during APRV. With return to conventional ventilation, PCWP and LAP returned to their baseline values. Conclusion. PCWP is an accurate measurement of LAP during APRV over variable levels of CPAP. However, PCWP and LAP may not be accurate measurements of volume when CPAP is utilized.

Compare Efficacy and Tolerance of AutoCPAP to Various Optimum NCPAP Levels

PURPOSE: To determine the efficacy and tolerance to Auto Continuous Positive Airway Pressure (ACPAP) to various optimum nasal CPAP (NCPAP) levels.

Assisted ventilation modes reduce the expression of lung inflammatory and fibrogenic mediators in a model of mild acute lung injury

The goal of the study was to compare the effects of different assisted ventilation modes with pressure controlled ventilation (PCV) on lung histology, arterial blood gases, inflammatory and fibrogenic mediators in experimental acute lung injury (ALI). Paraquat-induced ALI rats were studied. At 24 h, animals were anaesthetised and further randomized as follows (n = 6/group): (1) pressure controlled ventilation mode (PCV) with tidal volume (V (T)) = 6 ml/kg and inspiratory to expiratory ratio (I:E) = 1:2; (2) three assisted ventilation modes: (a) assist-pressure controlled ventilation (APCV1:2) with I:E = 1:2, (b) APCV1:1 with I:E = 1:1; and (c) biphasic positive airway pressure and pressure support ventilation (BiVent + PSV), and (3) spontaneous breathing without PEEP in air. PCV, APCV1:1, and APCV1:2 were set with P (insp) = 10 cmH(2)O and PEEP = 5 cmH(2)O. BiVent + PSV was set with two levels of CPAP [inspiratory pressure (P (High) = 10 cmH(2)O) and positive end-expiratory pressure (P (Low) = 5 cmH(2)O)] and inspiratory/expiratory times: T (High) = 0.3 s and T (Low) = 0.3 s. PSV was set as follows: 2 cmH(2)O above P (High) and 7 cmH(2)O above P (Low). All rats were mechanically ventilated in air and PEEP = 5 cmH(2)O for 1 h. Assisted ventilation modes led to better functional improvement and less lung injury compared to PCV. APCV1:1 and BiVent + PSV presented similar oxygenation levels, which were higher than in APCV1:2. Bivent + PSV led to less alveolar epithelium injury and lower expression of tumour necrosis factor-alpha, interleukin-6, and type III procollagen. In this experimental ALI model, assisted ventilation modes presented greater beneficial effects on respiratory function and a reduction in lung injury compared to PCV. Among assisted ventilation modes, Bi-Vent + PSV demonstrated better functional results with less lung damage and expression of inflammatory mediators.

Successful treatment of laryngomalacia and bilateral vocal cord paralysis with continuous positive airway pressure

Laryngomalacia is the most frequent congenital anomaly of airways, and it may cause obstructive sleep apneas. The associated vocal cord paralysis may aggravate the symptoms of upper airway obstruction. In a 14 month old boy severe laryngomalacia and bilateral vocal cord paralysis were diagnosed by flexible bronchoscopy. A sleep study showed a severe obstructive sleep apnoea (OSA). The patient was ventilated at home via the face mask with non invasive mechanical ventilation (CPAP) for a year. The level of pressure had to be set at 7 cm H2O to correct desaturation with an improvement in mean SpO2. On the follow up bronchoscopic examination laryngomalatia was improved, vocal cord paralysis persisted and sleep study revealed significant improvement. In the patient with severe laryngomalatia and bilateral vocal cord paralysis with OSA conservative treatment with CPAP was used instead of a surgical intervention. Non invasive ventilation was used every night, for at least 6 hours, without adverse events. Invasive measurement of transdiaphragmatic pressure is the best way of titrating of CPAP level. This case report suggests the efficacy of noninvasive titrating of CPAP level by the hemoglobin oxygen saturation trend measurement. In case of severe laryngomalatia and associated vocal cord paralysis, followed by OSA non invasive ventilation by nasal CPAP represents an effective and safe alternative to surgery.

Complex Sleep Apnea: It Isn't Really a Disease

Complex Sleep Apnea: It Isn't Really a Disease