key: cord-0049437-87fccpf6
authors: Vaidya, Ruben; Knee, Alexander; Paris, Yvonne; Singh, Rachana
title: Predictors of successful patent ductus arteriosus closure with acetaminophen in preterm infants
date: 2020-09-02
journal: J Perinatol
DOI: 10.1038/s41372-020-00803-y
sha: fa72000af6b0f16f039cea8fc167b63269dc4127
doc_id: 49437
cord_uid: 87fccpf6

OBJECTIVE: Evaluate predictors of successful PDA closure following acetaminophen treatment. STUDY DESIGN: Retrospective cohort study of ≤30 weeks GA infants born from 1 January 2013–30 September 2019, and treated with single course acetaminophen by symptomatic PDA treatment strategy. Multiple maternal and neonatal variables were identified as potential predictors. Univariate analysis and multivariable regression models were applied to evaluate the strongest predictors. RESULTS: Sixty-six patients were included, 28 (42.4%) had successful PDA closure following acetaminophen. Success was associated with GA > 26 weeks (65% vs. 33%, AUC = 0.64), birthweight >750 g (53% vs. 32%, AUC = 0.61), PDA size ≤0.2 cm (63% vs. 32%, AUC = 0.64), and no prior indomethacin use (56% vs. 33%, AUC = 0.61). Multivariable model identified GA > 26 weeks (RR = 1.92, CI 1.20–3.09) and PDA size ≤0.2 cm (RR: 1.82, CI 1.11–2.98) as the strongest predictors. CONCLUSION: Acetaminophen may be more successful in targeted PDA closure in >26 weeks GA infants with PDA size ≤0.2 cm.

Management of hemodynamically significant patent ductus arteriosus (hs-PDA) continues to be controversial with no consensus on the definition, need/timing for treatment and/ or treatment choices. Medical management of patent ductus arteriosus (PDA), with nonselective cyclo-oxygenase inhibitors like indomethacin and ibuprofen, is still considered the primary choice as compared to surgical management with its associated risks [1] . However, several adverse effects have been reported with these medications including gastrointestinal bleeding and perforation, decreased platelet aggregation, hyperbilirubinemia, renal failure [2] [3] [4] , thrombocytopenia, and hyponatremia [5] .

Acetaminophen is an analgesic and antipyretic derivative of acetanilide that is increasingly being used as an alternative for medical management of the PDA. Multiple recent randomized controlled trials (RCTs) [4, [6] [7] [8] [9] [10] [11] [12] [13] and a metaanalysis [1] have reported acetaminophen to be as effective as indomethacin and ibuprofen for PDA closure, with potentially fewer adverse effects.

The probability of successful PDA closure with acetaminophen may vary, as most RCTs have reported 70-80% successful PDA closure rates [6] [7] [8] [9] [10] [11] 14] , while we recently reported a 40% successful PDA closure using a symptomatic PDA closure strategy [15] . Multiple factors including gestational age (GA), birth weight (BW), small for gestational age (SGA) status, day of life (DOL) at treatment, duration of treatment, exposure to antenatal corticosteroids (ANCS), severity of respiratory distress, Caucasian race, and intrauterine inflammation have been reported to be associated with successful PDA closure with indomethacin [16] [17] [18] [19] . However, to date, an evaluation to determine if these factors may be associated with successful PDA closure following acetaminophen has not been conducted. Our study objective was to identify the clinical predictors associated with successful PDA closure following acetaminophen treatment in preterm infants born <30 weeks gestation.

This is a single center, retrospective cohort study performed at a Level III Neonatal Intensive Care Unit located at Baystate Children's Hospital, regional perinatal referral center for western Massachusetts with the capability of surgical management of hs-PDA. All infants ≤30 weeks and 0 days GA, born between January 2013 and September 2019, with PDA and treated with acetaminophen as first line treatment, using symptomatic PDA treatment strategy, were included in the study. Twins were considered separate subjects for study purposes if both were treated with acetaminophen for PDA. Small for gestational age (SGA) infants, defined as those with birthweight <10th percentile for age based on Fenton growth charts for premature infants were also included [20] . Infants with any significant congenital cardiac, pulmonary, neurologic anomalies, or any significant genetic conditions were excluded from the study. Infants who received PDA treatment with acetaminophen and died later were also included in the study. The study was approved by Baystate Medical Center Institutional Review Board.

Our overall PDA management strategy included the treatment of only symptomatic hs-PDA in patients with need for continued increased respiratory support. Symptomatic PDA treatment strategy is currently the most widely used clinical approach [21] , but is also the most difficult to classify due to variation in attributing clinical significance of PDA to varying degrees of ventilator dependency and/or cardiovascular compromise [22] . PDA was considered hemodynamically significant if moderate-sized or largesized based on pediatric cardiologist's evaluation and/or PDA size ≥1.5 mm, with additional echocardiographic findings (left atrial enlargement evidenced by left atrial: aortic root ratio (LA:Ao) of >1.4, absent or reversal of flow in the descending aorta, or left ventricular dilatation) and/or clinical findings (metabolic acidosis with base excess <−7, mean blood pressure less than weeks in gestation or requiring vasopressor support, bounding pulses/hyperactive precordium) and with continued need for significant respiratory support. Prior to 2015 only infants who had a contraindication to indomethacin were treated with acetaminophen, but since 2015 acetaminophen has been used as the standard first line medication for medical management of PDA. Acetaminophen dosage was similar to other reported studies as 15 mg/kg/dose, orally or intravenously, every 6 hour for 3 days [23] . We evaluated for successful PDA closure following a single 3 day course of acetaminophen with no prior treatment of the PDA. Successful PDA closure was defined as no PDA or small PDA, based on post-treatment echocardiogram officially assessed by the pediatric cardiologists, using a definition of PDA diameter <1.5 mm (GA ≤ 26 weeks) or <2.0 mm (GA ≤ 30 weeks) as "small" or "hemodynamically nonsignificant" [24] . Pretreatment echocardiogram was obtained for all patients prior to initiation of PDA treatment. Post-treatment echocardiogram was obtained for all infants within 24 hours of treatment completion, except when the treatment was completed over the weekend, and the repeat echocardiogram was obtained on the first working weekday. All infants were classified either as successful PDA closure group (small or no PDA) or nonsuccessful PDA closure group (no change or increase in PDA size). Although minor practice variations did exist among the neonatologists, our overall PDA management strategy was treating hs-PDA only in an infant requiring significant respiratory support. Our clinical practice also includes routine administration of indomethacin for intraventricular hemorrhage (IVH) prophylaxis for all infants born <750 g (dosage: 0.1 mg/kg/dose, every 24 hour for 3 days) without screening echocardiograms. For this study prophylactic indomethacin for IVH prevention was not considered as treatment of PDA.

The clinical factors identified as predictors of interest were evaluated as binary categorizations of: GA (<26 weeks vs. >26 weeks), BW (<750 g vs. >750 g), treatment DOL (Early: ≤7 DOL vs. Late: >7 DOL), corrected GA at the time of treatment (≤28 weeks vs. >28 weeks), route of administration (oral vs. intravenous), SGA status (vs. appropriate for GA infants), use of ANCS versus none, prior prophylactic indomethacin administration for prevention of IVH vs. none, need for invasive mechanical ventilation (vs. noninvasive respiratory support), fraction of inspired oxygen (FiO 2 ) need at treatment (≤0.3 vs. >0.3), maternal chorioamnionitis vs. none, total fluid volume (TFV) prescribed during the treatment time period (low TFV: <130 ml/kg/day vs. high TFV > 130 ml/kg/day). Additionally, we studied the ordinally scaled PDA size (moderate to large and large PDA vs. moderate size PDA), PDA size (>0.2 cm vs. ≤0.2 cm) and LA/Ao ratio (>1.5 vs. ≤1.5), which were assigned by the pediatric cardiologist reading the echocardiograms. For all patients with unsuccessful PDA closure following initial acetaminophen treatment, further data regarding follow-up PDA treatments and/ or surgical intervention, pre/post PDA treatment sizes and follow-up success rates were also collected.

For statistical analysis, we initially evaluated the differences in neonatal characteristics by the presence or absence of successful PDA closure. Categorical variables are presented as frequencies and percentages (e.g., predicted probabilities of successful closure), whereas continuous variables are presented as means and standard deviations. We then performed a univariable analysis (Fisher exact test for categorical variables and Wilcoxon rank-sum for continuous variables), however as our sample size was small, power was limited, and therefore statistical testing was meant to be exploratory in nature. Of particular interest were categorical predictors, which we assessed by calculating the relative risk (RR) and 95% confidence intervals (CI) using log-binomial models. To assess overall discrimination, we used the area under the curve (AUC) where an AUC of 0.5 indicates no discrimination (like flipping a coin). To simultaneously evaluate which predictors had possibly the strongest associations, we explored a multivariable log-binomial model. Due to the small number of outcome events (e.g., successful PDA closure), we followed a common rule of thumb in which we selected approximately one predictor for every ten events. To select predictors, we chose those with an AUC > 0.60 [25, 26] and reduced our model to the fewest relevant predictors. Statistical analysis was conducted using Stata version 16.0, StataCorp, LP, College Station, TX.

A total of 66 patients met inclusion criteria with mean GA of 25.5 + 2.1 weeks and mean BW 783.1 + 264.6 g. Mean age at initiation of PDA treatment was 11.0 + 8.2 days (Median: 8 days, IQR: 5-13 days) ( Table 1) . 30 (45.5%) of the patients were treated within seven DOL, while 36 (54.5%) were treated after seven DOL. Table 1 describes the baseline demographic information and clinical characteristics of the infants included in the study. There were 46 infants (69.7%) born at ≤26 weeks GA, 34 (51.5%) had BW < 750 g, 44 (66.7%) were treated at corrected GA < 28 weeks and 50 (75.8%) were treated with intravenous acetaminophen ( Table 2) .

Successful PDA closure was achieved in 28 (42.4%) infants following acetaminophen as first line of treatment for PDA.

Infants with successful PDA closure were more likely to be higher GA (26.3 + 2.4 weeks vs. 24.9 + 1.6 weeks, p = 0.009), higher BW (861.3 + 303.1 g vs. 725.5 + 219 g, p = 0.038) and higher corrected GA (27.9 + 2.6 weeks vs. 26.5 + 2.1 weeks, p = 0.016) ( Table 1) . On univariate analysis, successful PDA closure was associated with higher birth GA (65% for >26 weeks vs. 33% for ≤26 weeks, AUC = 0.64), higher BW (53% for >750 g vs. 32% for ≤750 g, AUC = 0.61) and higher corrected GA (59% for >28 weeks vs. 34% for ≤28 weeks, AUC = 0.61) ( Table 2) . No exposure to indomethacin for IVH prophylaxis in the first 3 days of life was associated with increased successful PDA closure rates after acetaminophen (56% vs. 33%, AUC = 0.61) ( Table 2 ). In our sample, there was no association between DOL at treatment, acetaminophen route of administration, SGA status, ANCS exposure, invasive mechanical ventilation at time of treatment, FiO 2 need at the time of treatment, maternal chorioamnionitis, and TFV administered with successful PDA closure ( Table 2) .

Smaller PDA size was also associated with higher successful PDA closure rates following acetaminophen (60% for ≤0.2 cm vs. 32% for >0.2 cm, AUC = 0.64), while LA/ Ao ratio did not correlate with successful PDA closure ( Table 3) .

In our multivariable model, we entered GA, BW, PDA size, and prior indomethacin exposure. Although corrected GA was also identified as a possible predictor, this was collinear with birth GA which had a larger AUC, and hence corrected GA was left out of the model. Since degree of respiratory support (invasive vs. noninvasive; and FiO 2 needs) did not show any association in the univariate model, they were not included in the multivariate model. Our final model suggested that both GA and PDA size were the strongest predictors of successful PDA closure. Infants with GA > 26 weeks at birth were nearly twice as likely to have a successful PDA closure than infants with GA ≤ 26 weeks (RR = 1.92, 95% CI = 1.20-3.09); and infants with a PDA size ≤0.2 cm were nearly twice as likely to have a successful PDA closure than infants with PDA size >0.2 cm (RR = 1.82; 95% CI 1.11-2.98) ( Table 4) .

Additionally, we also looked at the treatment course of all infants with failed PDA closure following acetaminophen (n = 38). There were 15 infants that were further treated with a second course of acetaminophen and only three (20.0%) had successful PDA closure after a failed first course of acetaminophen. A total of 18 infants were further treated with indomethacin, either as second or third course of PDA treatment after failed acetaminophen treatment, and only four infants (22.2%) had successful PDA closure and nine eventually required surgical PDA ligation. A total of 15 infants (39.5%) underwent surgical ligation due to failure of the initial acetaminophen course. There were no differences in any of the other short-term clinical outcomes (length of stay, severe retinopathy of prematurity, severe IVH, surgical necrotizing enterocolitis, bronchopulmonary dysplasia (BPD), death, and death or BPD) in the two groups.

Acetaminophen is increasingly being used for initial medical management of PDA as demonstrated by multiple case series [23, 27, 28] and recent randomized controlled trials [4, 6-10, 12, 14] . In our study, with symptomatic PDA treatment strategy, we found that infants >26 weeks GA or with PDA size ≤0.2 cm were nearly twice as likely to have successful PDA closure after acetaminophen compared to infants ≤26 weeks or with PDA size >0.2 cm. Both >26 weeks GA and PDA size ≤0.2 cm were independent predictors of successful PDA closure. These results are in line with published studies, which report lower GA to be an independent risk factor for failure of ductal closure with indomethacin [16, 17, 29] . Similarly, larger PDA is known to be more resistant to successful closure with indomethacin [30, 31] .

We report a lower probability of successful PDA closure (42.4%) following acetaminophen compared to the previous published RCTs, which range from 70 to 100% successful PDA closure [4, [6] [7] [8] [9] [10] [11] [12] 14] . This is likely related to differences in the patient population of the enrolled subject as well as our unit's clinical practice of symptomatic PDA treatment strategy used to treat hs-PDA, which were potentially causing pulmonary comorbidity of continued need for mechanical ventilation and inability to wean. Most published RCTs to date are from the eastern hemisphere, enrolling larger GA infants with mean GA > 30 weeks [6, 9, 10, 12, 13] , larger BW infants with BW 1000-1500 g [7, 11] and >1500 g [6, 9, 10] infant with only one study enrolling infants <28 weeks GA [11] . Most preterm infant ≥28 weeks of gestation spontaneously close the PDA by the end of the first postnatal week [16, 17, 32, 33] , while 50-70% of infants <28 weeks of gestation may have a moderate-to-large PDA shunt persisting for weeks after birth [34, 35] . Meanwhile, our patients were considerably younger with a mean GA of 25.5 + 2.1 weeks and mean BW of 783 + 264 g, which could explain a lower PDA closure rate when compared to other published studies. Additionally, the PDA treatment strategy followed may be different in the RCTs compared to our practice. Most studies had used a prophylactic or early symptomatic PDA treatment strategy with most patients enrolled or treated within the first 3-5 DOL ( Table 5 ). The one RCT which enrolled infants <28 weeks GA, likely also used an early PDA treatment strategy, as the mean DOL at treatment was 2.7 + 0.6 days [11] . On the other hand, our clinical practice is expectant management with watchful waiting and symptomatic PDA treatment when necessary, which is a commonly used approach in North America [22, 36, 37] . Hence, the PDA treatment for our cohort of infants was delayed with mean DOL of treatment of 11 + 8.2 days, and may also have contributed to the lower closure rate. Among all infants who failed PDA closure following acetaminophen, they also had a poor response to follow-up indomethacin treatment (total n = 18, with 4 (22.2%) successful PDA closures) further suggesting that the strategy of delayed treatment might have contributed to the lower overall success rate rather than the choice of medication itself. Since 15 of the 38 patients (39.5%) who failed to have PDA closure following acetaminophen eventually required surgical ligation, this also suggests that these PDA PDA patent ductus arteriosus, IVH intraventricular hemorrhage, Rx treatment, FiO 2 fraction of inspired oxygen, TFV total fluid volume. # p-value < 0.05, *AUC > 0.6 might have been larger and more resistant to pharmacological closure. Additionally, another recent randomized control trial reported only a 42.4% successful PDA closure rate with initial acetaminophen course (71.4% cumulative closure rate with two courses) in infants with mean GA of 32.1 weeks and treated at mean DOL 9. This further suggests that delayed treatment of PDA may be associated with relatively lower successful PDA closure rate even in relatively larger preterm infants [13] .

Our results are similar to the multicenter PDA-TOLERATE trial, which also reported a lower successful PDA closure rate with acetaminophen. The trial enrolled <28 weeks GA infants and randomized them at 8.1 ± 2.1 days to either early drug treatment arm or conservative management with potential for rescue treatment arm after seven DOL. Twenty-six infants in the early drug treatment arm and 15 infants in the conservative arm were eventually treated with acetaminophen with 7/26 (27%) and 6/15 (40%) success rate, respectively in the two arms [38] . Interestingly, one other recent open label randomized control trial has reported a very low successful PDA closure rate (5.9%) with a mean GA of 25.7 + 1.4 weeks GA and BW 785 + 203 g, with median PDA treatment days of 8 days. This study had a small sample size of 17 patients in the acetaminophen arm, and enrollment for this trial was stopped earlier by the data safety monitoring board due to poor efficacy [39] . The results of these studies which include smaller GA infants and using symptomatic PDA treatment strategy, combined with our results suggest that acetaminophen may have a lower successful PDA closure rated in infant born <28 weeks with symptomatic PDA treatment strategy in comparison to indomethacin. This is also supported by in vitro and in vivo preclinical studies, which found acetaminophen to be less effective than cyclooxygenase inhibitors in very immature animals [27, 40] . Hence, in less mature infants (especially those ≤26 weeks) its efficacy is significantly reduced in comparison to indomethacin [38, 41] .

Prior studies have reported associations between exposure to maternal betamethasone to play a role in determining the success of drug-induced closure during the first days after birth [16, 42] . However, we did not find any association between maternal ANCS exposure on ductal closure, probably due to the rationale that these risk factors may no longer play a role in the rate of ductus constriction when PDA treatment is started after the first week. We also did not find any significant association between ductal closure and SGA status, maternal chorioamnionitis, TFV prescribed at the time of treatment, DOL at the time of treatment, infant respiratory status, oxygen needs, acetaminophen administration route or other clinical factors. This is likely due to our small sample size rendering low power to detect meaningful differences, or due to difference in treatment strategy as most of the prior studies have focused on an earlier PDA treatment strategy compared to our current practice. In addition, the cut off points of our variables may not be identifying clinically important thresholds with regards to successful PDA closure and a larger sample size may be able to address these issues. Our clinical practice also includes routine administration of indomethacin for IVH prophylaxis for all infant born <750 grams for the first three DOL. No study to date has evaluated the effectiveness of PDA closure with acetaminophen following prior indomethacin exposure directly, but it has been demonstrated from multiple studies that prophylactic indomethacin usage is associated with lower prevalence of PDA [43, 44] . As all our study subjects had a moderate or large PDA as part of the inclusion criteria, and on average were treated at 11.0 + 8.2 days of life, we speculate that prophylactic indomethacin may not have affected PDA closure with acetaminophen. Interestingly, in our study population, exposure to indomethacin for IVH prophylaxis was associated with decreased successful PDA closure rates as compared to infants who had not received prophylactic indomethacin (33% vs. 56%, AUC = 0.61). We speculate that this association was likely secondary to the fact that only infants with lower BW and GA received prophylactic indomethacin, and hence they had lower successful PDA closure following acetaminophen, which is consistent with the rest of the results. After removing all patient who received prophylactic indomethacin (n = 39), in the remaining 27 infant, acetaminophen had 55.6% successful PDA closure rate, which is higher than overall 42% successful closure rate in the entire cohort, again likely due to selecting out a cohort with higher BW. Although our study is limited by single center retrospective data collection and a small sample size; the data was exclusively extracted by neonatologist and cardiologist to maintain its accuracy. The utilization of an evidencebased clinical practice guideline regarding PDA diagnosis and management in a small group of closely working physicians is one of the strengths of our study. Although, we did not have any acute short term complications associated with acetaminophen usage, we do not have long term follow-up data available for these patients, which may be important as there have been some concerns regarding long outcome following acetaminophen exposure [45, 46] . There are at least 19 ongoing trials ongoing that would provide additional evidence regarding this topic [1] .

In conclusion, in our study, we report an overall lower successful PDA closure rate following acetaminophen treatment when using symptomatic PDA closure strategy. Both GA > 26 weeks and PDA size ≤0.2 cm were associated with higher probability of successful PDA closure following acetaminophen. Acetaminophen may be more useful in targeted PDA closure in infants >26 weeks GA and PDA size ≤0.2 cm. Future studies with a larger sample size with symptomatic treatment strategy for medical management of Table 5 Comparison of the published randomized control trials to date with use of acetaminophen for PDA closure.

Acetaminophen arm (n) Enrolled GA (weeks) Enrolled BW (g) Enrollment time Mean GA (weeks) Mean BW (g) Mean Rx DOL (days) Success rate (%) Dang PDA are needed to identify the most efficacious and safest agent with highest probability of successful closure.

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Acknowledgements We thank Department of Pediatrics, University of Massachusetts Medical School-Baystate for ongoing research support.Author contributions RV: Conceptualization, methodology, investigation, data curation, formal analysis, writing initial manuscript, reviewed final version of the manuscript. AK: Methodology, investigation, formal analysis, reviewed final version of the manuscript. YP: Conceptualization, methodology, investigation, data curation, reviewed final version of the manuscript. RS: Conceptualization, methodology, investigation, data curation, supervision, reviewed final version of the manuscript.

Conflict of interest The authors declare that they have no conflict of interest.Publisher's note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.