Nasal CPAP: An Evidence-Based Assessment
7.3 Assessing the NCPAP Data
Studies of NCPAP have been varied, extend back over many years, and include a variety of study designs. Additionally, NCPAP is employed using a variety of devices and under a variety of cir- cumstances. It is thus extremely diffi cult to assess the existing NCPAP studies. We will attempt to do so by discussing the following somewhat arbi- trary but nonetheless useful general categories of studies:
1. NCPAP used at resuscitation (surfactant not part of the study group assignment)
2. NCPAP used early or prophylactically for respiratory distress (surfactant again not part of the study group assignment)
3. NCPAP used in conjunction with exogenous surfactant
4. NCPAP used for extubation
5. NCPAP used for apnea of prematurity 6. Comparison of NCPAP devices
To provide an evidence-based approach to assessing the NCPAP data in these categories, we will use the following classifi cation of evidence:
1. Level I Systematic review of randomized controlled trials
2. Level II Randomized controlled trial 3. Level III Cohort study
4. Level IV Case–control study
5. Level V Case series or historical controls 6. Level VI Studies completed prior to 1990 Fig. 7.4 Bi-level NCPAP device (SiPAP, with permis-
sion, CareFusion, Inc.)
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The inclusion of Level VI, studies completed prior to 1990, is important for respiratory thera- pies in neonates, as in 1990 exogenous surfactant use was approved by the FDA and its use became commonplace. Exogenous surfactant had a dra- matic effect on morbidity and mortality of the preterm infant. About this time, as well, began dramatic differences in how infants were venti- lated, including high-frequency oscillatory and jet ventilation, synchronized conventional venti- lation, and attention to prevention of volutrauma and barotrauma. Additionally, use of antenatal steroids became more common. Studies done prior to this time may not be relevant to today.
We also will not discuss every article ever published on the topic of NCPAP. Articles included in meta-analysis will in general not be individually discussed. We hope nonetheless to present the articles that will be most helpful and representative of the current literature as of this writing and that this approach will give the reader an idea of the state of the art regarding NCPAP in neonates. Also, in the following Tables, note that
“Favors” will imply that some benefi t was found.
7.3.1 NCPAP Used at Resuscitation
There is no question that a well-done meta- analysis of randomized controlled trials is usually the highest level of available evidence. However, there are several mitigating factors, including the publication dates of included trials. Several Cochrane reviews of NCPAP use have been pub- lished, but many are of limited value today due to inclusion of trials done in the 1970s and 1980s.
Use of positive pressure during resuscitation makes good physiologic sense, as fl uid must be absorbed from the alveolar space and alveolar units that may be atelectatic must be opened. Yet until very recently no randomized trials addressed this topic. Use of positive end-expiratory pressure (PEEP) during positive pressure ventilation at resuscitation still has not been suffi ciently stud- ied, even today (O’Donnell et al. 2004 ). Upton and Milner reported a case series of 30 babies studied in the late 1980s and suggested that use of positive end- expiratory pressure (PEEP) during
resuscitation might be useful in establishing func- tional residual capacity (FRC) (Upton and Milner 1991 ). Lindner et al. reported a retrospective cohort study with historical controls, comparing immediate intubation (control, 1994, n = 56) with immediate NCPAP (1996, n = 67) in extremely low birth weight (ELBW) infants. They found a reduction in need for intubation in the latter group (25 %) (Lindner et al. 1999 ).
Several more recent studies are of note. In 2004, Finer et al. reported a study of 104 ELBW infants randomized to receive either CPAP/PEEP or not, using a neonatal T-piece resuscitator (NeoPuff Infant Resuscitator, Fisher-Paykel, Auckland, New Zealand). In this pilot study, CPAP/PEEP in the delivery room did not affect the need for intubation, either in the delivery room or in the NICU (Finer et al. 2004 ). In a study reported in 2007, te Pas and Walther described a randomized trial of 207 infants <33 weeks gestation. Infants received either bag and mask ventilation with minimal PEEP or a sus- tained infl ation then NCPAP, using the NeoPuff.
These infants were considerably larger than those reported by Finer (mean birth weight about 1,300 g vs. about 775 g). In these larger infants, 37 % of the NCPAP babies required intubation by 72 h and 51 % of the bag- and mask-ventilated babies ( p = 0.04) (te Pas and Walther 2007 ).
In a large multicenter study, Morley et al. ran- domized 610 infants of from 25 to 28 weeks ges- tation to CPAP or intubation at 5 min of life. At 28 days, fewer infants were on oxygen and fewer infants required ventilation in the CPAP group.
However, the rate of death or BPD at 36 weeks did not differ between groups, and the incidence of pneumothoraces in the CPAP group was 9 % vs.
3 % in the intubation group (Morley et al. 2008 ).
Tapia et al. studied 256 infants who weighed 800–1500 g and were breathing spontaneously at birth. Infants were randomized to NCPAP or oxyhood/nasal cannula; subsequent surfactant was given according to preset criteria. Those in the NCPAP group were returned to NCPAP after surfactant, the others were continued on mechanical ventilation. Those in the NCPAP group had reduced need for surfactant therapy and mechanical ventilation.
Pediatric and Neonatal Mechanical Ventilation
Summary Table: resuscitation
Study Level of evidence Favors CPAP Neutral Favors alternative
Upton and Milner ( 1991 ) V X
Lindner et al. ( 1999 ) III X
Finer et al. ( 2004 ) II X
te Pas and Walther ( 2007 ) II X
Morley et al. ( 2008 ) II X
Tapia et al. ( 2012 ) II X
7.3.2 NCPAP Used Early or Prophylactically for Respiratory Distress
The meta-analysis by Ho et al. of early CPAP vs.
delayed CPAP includes only studies completed prior to 1990 (Ho et al. 2010 ). Thus, though the analysis found subsequent use of mechanical ventilation was reduced with early CPAP, the relevance of this fi nding to current practice is unknown and we will consider this analysis to be of historical interest (Level VI evidence).
Avery et al., in a cohort study of eight centers published in 1987, found a decrease in BPD in one center that used early NCPAP (Avery et al.
1987 ). In another cohort trial including the years 1988–1993, Jonsson et al. found that only one-third of infants treated with early NCPAP subsequently required mechanical ventilation (Jonsson et al. 1997 ).
A 2005 meta-analysis by Subramaniam et al.
assesses the similar question of prophylactic NCPAP, prior to any signs of respiratory distress.
The authors conclude there is insuffi cient evi- dence to address this question (Subramaniam et al. 2005 ). Only two trials are included, one of
which was completed prior to 1990. The other trial, published by Sandri et al. in 2004, found no benefi t to prophylactic NCPAP (Sandri et al.
2004 ). The primary endpoint in this trial was the need for exogenous surfactant.
In 2008, Ho et al. updated their meta-analysis on CPAP for respiratory distress and included continuous negative extrathoracic pressure (CNEP) as well as positive pressure. Again, most of the studies were published well prior to 1990, though two of the included studies were com- pleted after 1990. Buckmaster et al. randomly assigned 300 infants, all >30 weeks gestation and at non-tertiary centers, to either NCPAP or oxy- gen by headbox. Fewer infants on NCPAP required transfer or failed therapy; more NCPAP infants suffered pneumothorax (Buckmaster et al.
2007 ). The second trial, by Samuels et al., evalu- ated CNEP vs. headbox oxygen. Surviving infants on CNEP required fewer days on oxygen, 20.5 vs. 38.9. Mortality was not signifi cantly dif- ferent (Samuels et al. 1996 ). The meta-analysis, which includes the studies by Buckmaster and Samuels, concluded that continuous distending pressure reduces respiratory failure and mortality, but increases pneumothorax (Ho et al. 2008 ).
Summary Table: early or prophylactic use
Study Level of evidence Favors CPAP Neutral Favors alternative
Ho et al. ( 2010 ) VI X
Avery et al. ( 1987 ) VI X
Jonsson et al. ( 1997 ) III/VI X
Subramaniam et al. ( 2005 ) I/VI X
Ho et al. ( 2008 ) I/VI X
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7.3.3 NCPAP Used in Conjunction with Exogenous Surfactant
Interest in early NCPAP use combined with selective surfactant administration as a way to avoid prolonged mechanical ventilation has resulted in multiple recent studies and meta- analyses. In 1994 Verder et al. reported a study in which 68 infants were randomized to either NCPAP+surfactant, or NCPAP alone (Verder et al. 1994 ) Surfactant was given by what has come to be known as the INSURE technique (INtubate, give SURfactant, and Extubate). The infants were larger than in most subsequent studies, with mean birth weight of >1300 g.
The authors found that infants in the NCPAP+surfactant group had reduced need for mechanical ventilation (MV) (43 % vs 85 %;
p = 0.003). In a study of 60 much smaller and more immature infants, mean birth weight of about 950 g, Verder et al. examined whether infants requiring NCPAP would fare better with early surfactant therapy (oxygen requirements 37–55 %) or later treatment (oxygen require- ments 57–77 %). Infants in the early treatment group had a greatly reduced incidence of death or need for mechanical ventilation (21 % vs.
63 %) (Verder et al. 1999 ).
Tooley and Dyke randomized 42 infants of 25–28 weeks gestation to early surfactant and extubation to NCPAP vs. early surfactant and MV. By 72 h of age, signifi cantly fewer infants were intubated in the NCPAP group (47 % vs.
81 %) (Tooley and Dyke 2003 ).
A meta-analysis addressing the question of early surfactant followedby NCPAP vs. contin- ued MV was published in updated form by Stevens et al. in 2007 . These reviewers con- cluded that early exogenous surfactant with extubation to NCPAP, when compared to later, selective exogenous surfactant use with contin- ued MV, is associated with less MV need, lower BPD incidence, and fewer air leaks (Stevens et al. 2007 ).
Kribs et al. reported in an observational study several cohorts of infants treated from 2000 to 2004. During this time, early NCPAP and early surfactant therapy use became more and more
common, and in addition survival increased and BPD rates decreased (Kribbs et al. 2008 ).
A large study from Columbia by Rojas et al.
was reported in 2009. In this randomized trial 279 infants born between 27 and 31 weeks gesta- tion and with evidence of respiratory distress were randomly assigned to early NCPAP/surfac- tant or NCPAP alone. The primary outcome was the need for subsequent mechanical ventilation.
Criteria for MV were predefi ned. The need for MV was 26 % in the NCPAP/surfactant group vs.
39 % in the NCPAP group (RR = 0.69; 95 % CI 0.49–0.97). Additionally, air leak was less in the NCPAP/surfactant group (2 % vs. 9 %; RR = 0.25;
95 % CI 0.07–0.85) (Rojas et al. 2009 ).
Several recent studies have addressed whether prophylactic surfactant is superior to NCPAP with a selective administration of surfactant. In 2009, Sandri et al. reported a randomized com- parison of these interventions in 208 infants between 25–28 weeks’ gestation. No differences in need for MV, death, or major morbidities were found between groups (Sandri et al. 2009 ). In the largest study to date, the SUPPORT Study Group performed a randomized, multicenter trial using a factorial design toassess early CPAP (delivery room) vs. intubation/surfactant (within 1 h of birth) and target ranges of oxygen saturation in extremely preterm infants (those born between 24 weeks 0 days and 27 weeks 6 days). A total of 1,316 infants were enrolled. Death or BPD (defi ned as oxygen requirement at 36 weeks) was not different between groups. Some secondary outcomes favored the NCPAP group: require- ment for intubation, postnatal use of corticoste- roids for BPD, days of mechanical ventilation, and mechanical ventilation by day 7 (SUPPORT Study Group 2010 ).
The Vermont Oxford Network studied three initial management strategies in infants from 26 0/7 to 29 6/7 weeks: prophylactic surfactant fol- lowed by mechanical ventilation, prophylactic surfactant with extubation to NCPAP, and initial NCPAP with selective administration of surfac- tant (Dunn et al. 2011 ). This study enrolled 648 infants but closed prior to attaining the required sample size of 876. No differences in the primary outcome measure of death or BPD were found,
Pediatric and Neonatal Mechanical Ventilation
Summary Table: NCPAP for extubation
Study Level of evidence Favors CPAP Neutral Favors alternative
Robertson and Hamilton ( 1998 ) II X
Davis and Henderson- Smart ( 2003 ) I X
but fewer infants in the NCPAP group required intubation or surfactant.
None of the above studies found a reduction in BPD with use of NCPAP. However, two things are important to note: one, no study has found an increase in BPD with NCPAP/selective surfactant;
and two, a recent meta-analysis has found that in studies with routine application of NCPAP, the combined outcome variable of death/BPD favors early NCPAP with selective surfactant use over prophylactic surfactant (RR = 1.12; 95 % CI 1.02–1.24) (Rojas-Reyes et al. 2012 ).
7.3.4 NCPAP for Extubation
Davis and Henderson-Smart reported a meta- analysis of NCPAP following extubation. Eight of the nine included trials were published after 1990 (Davis and Henderson-Smart 2003 ). The conclu- sion of this meta-analysis (assessed as up to date in 2009) was that NCPAP is in fact effective in preventing failure of extubation in preterm infants.
One study, by Robertson and Hamilton, was not included in the meta-analysis because of a somewhat different study design, assessing NCPAP with a weaning regimen if tolerated compared to hood oxygen with an escalation reg- imen if needed. In this randomized study of 58 infants between 24 and 32 weeks gestation, no differences in extubation success were noted (Robertson and Hamilton 1998 ).
7.3.5 NCPAP Used for Apnea
NCPAP is often used for treatment of apnea of prematurity, despite relatively little data on this topic. Most studies are quite small and were done many years ago. A meta-analysis of CPAP vs.
theophylline for apnea of prematurity was pub- lished in 2001 by Henderson-Smart and Davis and updated as current in 2005 (Henderson- Smart et al. 2001 ). It included only one study, concluded prior to 1990. In this study, CPAP was
applied using a face mask, and theophylline was more effective.
In 1975 Kattwinkel et al. studied 18 preterm infants and found apnea was reduced by 69 % with NCPAP and only by 39 % with prophylactic cutaneous stimulation (Kattwinkel et al. 1975 ).
In 1976, Speidel and Dunn reported 5 preterm infants who had reduced or abolished apnea with application of CPAP (Speidel and Dunn 1976 ). In 1985, Miller et al. described 14 preterm infants with and without CPAP and found both mixed
Summary Table: use of NCPAP plus surfactant
Study Level of evidence Favors CPAP + early surf Neutral Favors CPAP alone, MV, or late surf Verder et al. ( 1994 ) II X
Verder et al. ( 1999 ) II X Tooley and Dyke ( 2003 ) II X Stevens et al. ( 2007 ) I X Kribbs et al. ( 2008 ) III X Rojas et al. ( 2009 ) II X
Sandri et al. ( 2010 ) II X
SUPPORT ( 2010 ) II X
Dunn et al. ( 2011 ) II X Rojas-Reyes et al. ( 2012 ) I X
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and obstructive apnea to be decreased with CPAP (Miller et al. 1985 ). Central apnea was not affected. These investigators, in 1990, reported decreases in supraglottic resistance in 10 preterm
infants studied on CPAP and postulated that apnea may be reduced by a mechanical splinting of the airway (Miller et al. 1990 ). Clearly more investigation is needed in this area.
Summary Table: NCPAP for apnea of prematurity
Study Level of evidence Favors CPAP Neutral Favors alternative
Kattwinkel et al. ( 1975 ) VI X
Speidel and Dunn ( 1976 ) VI X
Miller et al. ( 1985 ) VI X
Miller et al. ( 1990 ) V X
Henderson-Smart et al. ( 2001 ) VI X
7.4 Comparative Studies