A randomized controlled trial recently demonstrated that continuous positive airway pressure (CPAP) effectively decreases respiratory rate in children presenting to Ghanaian district hospitals with respiratory distress. A follow-up study 16 months later evaluated the extent to which the skills and equipment necessary for CPAP use have been maintained. Seven of eight CPAP machines were functional, but five of eight oxygen concentrators and three of four electric generators were non-functional. Nurses trained by US study personnel (first-generation) and nurses trained by Ghanaian nurses after the study (second-generation) were evaluated on CPAP knowledge and skills. Twenty-eight nurses participated in the study, 9 first-generation and 19 second-generation. First-generation trainees scored significantly higher than second-generation trainees on both skills and knowledge assessments (p = 0.003). Appropriate technical support and training must be ensured to address equipment maintenance. Protocolization of the training program, in conjunction with skills and knowledge assessment, may improve acquisition and retention among second- and future-generation trainees.
Background Pulse oximetry (SpO 2 ) is used to monitor oxygen saturation levels to avoid hypoxaemia in children. Sensor manufacturers claim high sensitivity, specificity and accuracy. Few studies have evaluated accuracy and precision of SpO 2 in children. Methods This prospective, observational study was conducted in a 36-bed mixed medical/surgical paediatric intensive care unit. All children <16 years old with an arterial line were eligible. Paired SpO 2 readings obtained with a Masimo and a Nellcor sensor were prospectively matched and validated to the arterial haemoglobin oxygen saturation (SaO 2 ). Bias between SpO 2 and SaO 2 (SpO 2 -SaO 2 ), accuracy root mean square (A rms ), sensitivity, specificity and kappa agreement were calculated for sensors. Multivariable regression analysis was conducted to determine the relationship between clinical variables and bias in paired sensor readings. Findings There were 929 participants with 16,839 readings (9,382 simultaneous Masimo and Nellcor). Nineteen percent of paired values had SaO 2 <88%. Bias increased with decreasing SaO 2 . Both sensors failed to achieve FDA’s A rms requirement in all ranges. Of the 15.5% patients with ‘true hypoxaemia’ (SaO 2 <88%), 28.6% (n=1165) were not correctly identified by pulse oximetry. Variables associated with higher odds of bias included sepsis, respiratory distress and post-cardiac arrest; increasing lactate; vasoconstrictor use; lower SaO 2 and low admission weight. Interpretation Both tested sensors, with current algorithms, are not precise enough for a PICU setting. Sensor readings in patients with respiratory disease, sepsis and cardiac arrest should be used with caution.
Ghanaian children (2176) aged <5 years who presented with undifferentiated acute respiratory distress were tested for respiratory pathogens using a BioFire FilmArray polymerase chain reaction assay. Rhinovirus and/or enterovirus was detected in 36% of the assays, respiratory syncytial virus in 11%, and parainfluenza in 7%. Respiratory syncytial virus and metapneumovirus were detected more frequently in the rainy season than in the dry season.
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