New born pulse oximetry screening: A global perspective

Newborn Screening for Congenital Heart Disease: A Five-Year Study in Shanghai

This study aimed to report the progress and results of the newborn screening program for congenital heart disease (CHD) in south Shanghai between 2019 and 2023, and to evaluate the accuracy of the dual-index method (pulse oximetry (POX) plus cardiac murmur auscultation) in clinical practice. Between 2019 and 2023, a total of 198,606 (99.89%) newborns were screened for CHD, of whom 3299 (1.66%) tested positive, 3043 (92.24%) underwent echocardiography for CHD diagnosis and 1109 were diagnosed with CHD in a timely manner. Among 195,307 infants with negative screening results using the dual-index method, 139 (0.07%) were later diagnosed with CHD, and none of these infants died. More than half of these false-negative infants (59.39%) were identified due to the detection of a heart murmur during routine physical examinations within six months after birth. Compared to POX testing alone, the dual-index method significantly improved the sensitivity of screening for CHD, and kept high specificity in clinical practice. This study demonstrated that newborn screening for CHD has been well conducted in Shanghai, and the dual-index method had high accuracy and reliability for neonatal CHD screening in clinical practice.

Prospective Evaluation of Pulse Oximetry Screening for Critical Congenital Heart Disease in a Jordanian Tertiary Hospital: High Incidence and Early Detection Challenges

BACKGROUND/OBJECTIVES

Critical congenital heart disease (CCHD) is among the major causes of global neonatal morbidity and mortality. While the incidence of CCHD appears to vary across populations, much of this variation may stem from differences in detection and reporting capabilities rather than true prevalence. In Jordan, recent data revealed a congenital cardiac disease incidence of 17.8/1000 live births, much higher than international averages. Diagnosis is largely dependent upon echocardiography, which is difficult to obtain in low-resource settings where prenatal screening modalities are limited. Screening for CCHD with pulse oximetry offers a potential method to identify patients earlier and contribute to improved outcomes.

METHODS

This prospective cohort study evaluated 20,482 neonates screened using pulse oximetry at Al-Bashir Hospital between January 2022 and May 2024. Demographic data, pulse oximetry measurements, and echocardiogram findings were collected during the screening process after obtaining ethical approval from the Jordanian Ministry of Health.

RESULTS

Pulse oximetry screening identified 752 neonates (3.7%) requiring further evaluation by echocardiography. An abnormality was detected in 240 neonates (31.9%), which included cardiac anomalies and pulmonary hypertension. Screening led to the identification of 138 infants with CCHD, including 80 with a previously unknown diagnosis, and an additional 247 infants with conditions requiring increased monitoring or treatment. Among those with CCHD, hypoplastic left heart syndrome and Tetralogy of Fallot were the most common conditions, 3.1%, and 2.4%, respectively. The overall false positive rate was 1.8% and was higher among those screened at less than 24 h of life compared to those screened at or after 24 h of life (2.3% [95%CI 2.1-2.6] vs. 0.8% [95%CI 0.6-1.0], p < 0.001).

CONCLUSIONS

Pulse oximetry screening successfully led to the early detection of CCHD among Jordanian neonates. There was a high prevalence of CCHD compared to other reported cohorts. This highlights the importance of implementing national screening protocols to improve early diagnosis and intervention. Future studies will inform the feasibility and cost-effectiveness of national implementation in this setting.

Newborn pulse oximetry screening coverage in a nationwide complex survey sample: An assessment of a congenital heart disease early detection program at the regional level in Brazil

OBJECTIVES

To estimate the coverage of newborn pulse oximetry screening (POS) in Brazil, as well as identifies associated factors and the proportion of positive screening results.

METHODS

Coverage was estimated based on the most recent National Health Survey (2019). Adjusted marginal prevalence ratios were estimated via poisson regression model with robust variance.

RESULTS

The POS coverage was 66.3 % (95 %CI: 65.5-67.1; N = 3,140,023) and was higher in children born in privately funded hospitals (PFHs) than in the Unified Health System (SUS): 78.1 % (76.7-79.5) versus 61.1 % (60.2-62.1). In the North region, the POS coverage in PFHs (64.9 %, 59.7-70.1) was lower than that in the South (82.5 %, 79.4-85.6) and the Southeast (81.5 %, 79.3-83.6); it was even lower in SUS in the North (44.0 %; 42.4-45.6). After a federal ordinance providing financial resources to postscreening diagnostic, the screening coverage in SUS increased from 57.6 % (56.2-59.1) to 64.6 % (63.3-65.9). The proportion of positive screening tests was 9.2 % (8.9-9.5) in SUS and 7.8 % (7.3-8.3) in PFHs, of which 40.8 % (40.5-41.1) underwent complementary exams in SUS and 57.2 % (56.7-57.7) in PFHs. In the multivariate model, the main independent predictors of POS were the coverage of other newborn screening tests.

CONCLUSIONS

Inequalities were found between major regions and healthcare systems. Government financial incentives have reduced this inequality, although the percentage of postscreening complementary exams remains insufficient and unequal. The main independent predictors of screening prevalence were those related to the organization of health services.

Motion resistance in peripheral oxygen saturation monitoring using Biolight Analog SpO2 compared to Masimo SpO2: a non-inferiority study

BACKGROUND

Pulse oximeters are vital for assessing blood oxygen levels but can produce inaccurate readings during patient motion, leading to false alarms and alarm fatigue. Analog SpO2 Technology, which uses analog waveforms to filter motion artifacts, may improve accuracy compared to digital sensors. However, the effectiveness of this technology in reducing false alarms in clinical settings remains unclear. This study assesses and compares the motion resistance of Analog SpO2 Technology of two devices in the market.

METHODS

Thirty healthy adults underwent controlled experiments (Control, Linear Motion, Angular Motion) using two pulse oximeters. Linear Motion tested hand displacement impact, while Angular Motion involved rhythmic hand motions at 120 bpm and 160 bpm.

RESULTS

Both devices performed similarly in Control, with no disruptions. In Linear Motion, mild disruptions occurred, but no significant differences in SpO2 readings or alarms. Angular Motion at 120 bpm showed stability with no alarms. At 160 bpm, Device B (Biolight Analog SpO2) had fewer technical alarms but more SpO2 alarms than Device A (Masimo Analog SpO2).

CONCLUSIONS

Analog SpO2 exhibited motion resistance under static, linear and continuous waving angular motion up to 120 bpm and 160 bpm, but alarms occurred at 160 bpm with continuous tapping angular motion. These findings signify non-inferiority of either device in clinical settings. Further studies should include patients with cardiovascular and/or respiratory diseases.

TRIAL REGISTRATION

The study was submitted to and approved by the Biolight Ethics Committee (S0723), and written informed consent from all participants was obtained.

Impact of COVID-19 on the Diagnosis of Coarctation of the Aorta in Infants

Newborns with coarctation of the aorta are a potentially vulnerable population whose diagnosis could have been impacted by the COVID-19 pandemic. The objectives of this study were to assess if there was delayed diagnosis of infants with coarctation and if they had higher acuity prior to repair after the start of the pandemic. The Pediatric Health Information Systems database was queried for patients less than three months of age who underwent surgical repair or palliation of coarctation of the aorta. Patients were divided into three time periods: (1) pre-COVID (October 2017-December 2019), (2) early COVID (January 2020-December 2020), and (3) late COVID (January 2021-December 2021). The outcomes were age at repair and pre-procedure acuity. Among the 4885 patients, the median time to repair was 10 days during all time periods. Use of pre-procedure mechanical ventilation, vasopressors, and extracorporeal membranous oxygenation did not increase after the start of the pandemic. Median length of hospital stay increased after the start of the pandemic and did not return to baseline (22 days, 24 days, and 25 days, sequentially, p < 0.01). When analyzing patients who presented to the surgical hospital after 3 days of life, there were no differences in age at repair, pre-procedural acuity, or other outcomes. Age at repair of coarctation of the aorta and acuity did not change after the start of the COVID-19 pandemic. This suggests that the safeguards in place to ensure timely diagnosis of critical heart disease were adequate during this time of disruption.

Investigation of infant deaths associated with critical congenital heart diseases; 2018-2021, Türkiye

BACKGROUND

The aim of this study was to examine the characteristics of infant mortality associated with critical congenital heart disease (CCHD).

METHODS

In a cross-sectional study, data for the study were obtained through Death Notification System, Birth Notification System and Turkish Statistical Institute birth statistics.

RESULTS

Of all infant deaths, 9.8% (4083) were associated with CCHD, and the infant mortality rate specific to CCHD was 8.8 per 10,000 live births. CCHD-related infant deaths accounted for 8.0% of all neonatal deaths, while the CCHD specific neonatal death rate was 4.6 per 10,000 live births. Of the deaths 21.7% occurred in the early neonatal, 30.3% in the late neonatal and 48.0% in the post neonatal period. Group 1 diseases accounted for 59.1% (n = 2415) of CCHD related infant deaths, 40.5% (n = 1652) were in Group 2 and 0.4% (n = 16) were in the unspecified group. Hypoplastic left heart syndrome was the most common CCHD among infant deaths (n = 1012; 24.8%). The highest CCHD related mortality rate was found in infants with preterm birth and low birth-weight while multiparity, maternal age ≥ 35 years, twin/triplet pregnancy, male gender, maternal education in secondary school and below, and cesarean delivery were also associated with higher CCHD related infant mortality rate. There was at least one non-cardiac congenital anomaly/genetic disorder in 26.1% of all cases.

CONCLUSION

CCHD holds a significant role in neonatal and infant mortality in Türkiye. To mitigate CCHD-related mortality rates, it is crucial to enhance prenatal diagnosis rates and promote widespread screening for neonatal CCHD.

Patent and Bibliometric Analysis of the Scientific Landscape of the Use of Pulse Oximeters and Their Prospects in the Field of Digital Medicine

This study conducted a comprehensive patent and bibliometric analysis to elucidate the evolving scientific landscape surrounding the development and application of pulse oximeters, including in the field of digital medicine. Utilizing data from the Lens database for the period of 2000-2023, we identified the United States, China, the Republic of Korea, Japan, Canada, Australia, Taiwan, and the United Kingdom as the predominant countries in patent issuance for pulse oximeter technology. Our bibliometric analysis revealed a consistent temporal trend in both the volume of publications and citations, underscoring the growing importance of pulse oximeters in digitally-enabled medical practice. Using the VOSviewer software(version 1.6.18), we discerned six primary research clusters: (1) measurement accuracy; (2) integration with the Internet of Things; (3) applicability across diverse pathologies; (4) telemedicine and mobile applications; (5) artificial intelligence and deep learning; and (6) utilization in anesthesiology, resuscitation, and intensive care departments. The findings of this study indicate the prospects for leveraging digital technologies in the use of pulse oximetry in various fields of medicine, with implications for advancing the understanding, diagnosis, prevention, and treatment of cardio-respiratory pathologies. The conducted patent and bibliometric analysis allowed the identification of technical solutions to reduce the risks associated with pulse oximetry: improving precision and validity, technically improved clinical diagnostic use, and the use of machine learning.

Incidence and types of congenital heart disease at a referral hospital in Jordan: retrospective study from a tertiary center

Background

Congenital heart disease (CHD) is the most common birth defect and accounts for significant global morbidity and mortality. Relatively little is known about the epidemiology of CHD in Jordan or the manner in which CHD is identified.

Methods

A retrospective medical record review was conducted for all neonates who had an abnormal echocardiogram performed at a tertiary referral hospital. All included neonates had echocardiography performed by the same pediatric cardiologist at the discretion of the treatment team. Descriptive statistics were used to describe CHD incidence, types of CHD identified, and mechanism of identification.

Results

The incidence of congenital heart disease was 17.8 per 1,000 live births. This rose to 24.6 per 1,000 if patent ductus arteriosus in preterm infants was included. The most common identified abnormalities were PDA, atrial septal defects, persistent pulmonary hypertension, septal hypertrophy, and ventricular septal defects. Most children were evaluated either for a murmur heard on exam or as a part of screening due to other comorbidities or risk factors. Less than 1% of children had a prenatal diagnosis. There was a higher rate of persistent pulmonary hypertension during the COVID-19 pandemic than before (p < 0.001).

Conclusions

There is a high incidence of CHD in Jordan. Increased prenatal and perinatal screening for CHD may allow for earlier detection.

Trajectories of oxygen saturation within 6-72 hours after birth in neonates at moderate altitude: a prospective longitudinal cohort study

BACKGROUND

Trajectories of pulse oxygen saturation (SpO2) within the first few days after birth are important to inform the strategy for identifying asymptomatic hypoxemic disease but remain poorly substantiated at higher altitudes.

METHODS

We performed a longitudinal cohort study with consecutive neonates at a local hospital in Luchun County, China, at an altitude of 1650 m between January and July 2020. We repeatedly measured the pre- and post-ductal SpO2 values at 6, 12, 18, 24, 36, 48, and 72 hours after birth for neonates without oxygen supplements. All neonates underwent echocardiography and were followed up to 42 days after discharge. We included neonates without hypoxemic diseases to characterize the trajectories of SpO2 over time using a linear mixed model. We considered the 2.5th percentile as the reference value to define hypoxemic conditions.

RESULTS

A total of 1061 neonates were enrolled. Twenty-five had non-cardiac hypoxemic diseases, with 84% (21/25) presenting with abnormal SpO2 within 24 hours. One had tetralogy of Fallot identified by echocardiography. Among the 1035 asymptomatic neonates, SpO2 values declined from 6 hours after birth, reached a nadir at 48 hours, and tended to level off thereafter, with identical patterns for both pre- and post-ductal SpO2. The reference percentile was 92% for both pre- and post-ductal SpO2 and was time independent.

CONCLUSIONS

A decline within 48 hours features SpO2 trajectories within the first 72 hours at moderate altitude. Our findings suggest that earlier screening may favorably achieve a benefit-risk balance in identifying asymptomatic hypoxemic diseases in this population.

Impact of Newborn Screening Programme for Congenital Heart Disease in Shanghai: a five-year observational study in 801,831 newborns

Background

Newborn Screening Programme for Congenital Heart Disease (CHD) in Shanghai has been in operation for over 5 years, and its feasibility and effectiveness still lack a systematic and comprehensive evaluation. This study aimed to detail the implementation of the programme and evaluate its results, benefits, and reliability in clinical practice.

Methods

This study was an observational study involving all newborns received CHD screening in Shanghai from 2017 to 2021. Pulse oximetry (POX) plus cardiac murmur auscultation (namely the dual-index method) was used for CHD screening in newborns aged 6-72 h. Newborns who screened positive was recommended for echocardiography, and those diagnosed with CHD would be planned for further evaluation and intervention. Data were aggregated by birth year and district of birth. Results of neonatal CHD screening, diagnosis and treatment, and temporal trends of infant mortality rate (IMR) and the proportion of under-five mortality (U5M) attributed to CHD were analysed. A retrospective cohort study was also conducted to assess the reliability of the dual-index method in clinical practice.

Findings

In total, 801,831 (99.48%) newborns were screened for CHD, 16,489 (2.06%) were screened positive, and 3541 (21.47%) of the screened-positive newborns were identified with CHD. Seven hundred and fifty-two patients with CHD received surgical or interventional treatment with a successful rate of 94.81%. The period from 2015 to 2021 witnessed an approximately twofold decrease in IMR from 4.58‰ to 2.30‰, and a downtrend in the proportion of U5M attributed to CHD from 25.93% to 16.61%. High sensitivity and specificity of the dual-index method in clinical practice were observed for both critical (100.00% and 97.72%) and major CHD (98.47% and 97.76%).

Interpretation

Newborn screening programme for CHD has been well implemented in Shanghai, and this programme is a successful public health intervention to reduce infant death. Our study provides encouraging evidence and experience for implementing newborn screening programme for CHD nationwide in China.

Funding

This study was supported by the National Key Research and Development Programme of China (2021YFC2701004 and 2016YFC1000506), CAMS Innovation Fund for Medical Sciences (2019-I2M-5-002), and Three-Year Planning for Strengthening the Construction of Public Health System in Shanghai (No. GWIV-24).