Prospective comparison of thermometers used in very preterm infants.

We measured temperature on admission to the neonatal unit in a cohort of 54 very preterm infants. We measured rectal temperature with a digital thermometer (Microlife MT-1931) as the gold standard (MT-R). We also measured axillary temperature with the MT (MT-A), with the Welch Allyn SureTemp Plus 692 in 'continuous' (WAC) mode and in the default 'predictive' (WAP) mode. While MT-A and WAC frequently differed from MT-R by ≥0.3°C, they were both reasonably sensitive and specific for hypothermia (MT-R <36.5°C). WAP overestimated MT-R by ≥0.5°C on 37/53 (70%) occasions and had poor sensitivity for hypothermia, identifying only 2 of 29 infants with MT-R <36.5°C as hypothermic.

Cerebral oxygenation and blood flow in normal term infants at rest measured by a hybrid near-infrared device (BabyLux).

BACKGROUND: The BabyLux device is a prototype optical neuro-monitor of cerebral oxygenation and blood flow for neonatology integrating time-resolved reflectance spectroscopy and diffuse correlation spectroscopy. METHODS: Here we report the variability of six consecutive 30 s measurements performed in 27 healthy term infants at rest. Poor data quality excluded four infants. RESULTS: Mean cerebral oxygenation was 59.6 ± 8.0%, with intra-subject standard deviation of 3.4%, that is, coefficient of variation (CV) of 5.7%. The inter-subject CV was 13.5%. Mean blood flow index was 2.7 × 10-8 ± 1.56 × 10-8 (cm2/s), with intra-subject CV of 27% and inter-subject CV of 56%. The variability in blood flow index was not reduced by the use of individual measures of tissue scattering, nor accompanied by a parallel variability in cerebral oxygenation. CONCLUSION: The intra-subject variability for cerebral oxygenation variability was improved compared to spatially resolved spectroscopy devices, while for the blood flow index it was comparable to that of other modalities for estimating cerebral blood flow in newborn infants. Most importantly, the simultaneous measurement of oxygenation and flow allows for interpretation of the high inter-subject variability of cerebral blood flow as being due to error of measurement rather than to physiological instability.

Assessment of resistance of nasal continuous positive airway pressure interfaces.

OBJECTIVE: To compare the resistance of interfaces used for the delivery of nasal continuous positive airway pressure (CPAP) in neonates, as measured by the generated system pressure at fixed gas flows, in an in vitro setting. DESIGN: Gas flows of 6, 8 and 10 L/min were passed through three sizes of each of a selection of available neonatal nasal CPAP interfaces (Hudson prong, RAM Cannula, Fisher & Paykel prong, Infant Flow prong, Fisher & Paykel mask, Infant Flow mask). The expiratory limb was occluded and pressure differential measured using a calibrated pressure transducer. RESULTS: Variation in resistance, assessed by mean pressure differential, was seen between CPAP interfaces. Binasal prong interfaces typically had greater resistance at the smallest assessed sizes, and with higher gas flows. However, Infant Flow prongs produced low pressures (<1.5 cmH2O) at all sizes and gas flows. RAM Cannula had a high resistance, producing a pressure >4.5 cmH2O at all sizes and gas flows. Both nasal mask interfaces had low resistance at all assessed sizes and gas flows, with recorded pressure <1 cmH2O in all cases. CONCLUSIONS: There is considerable variation in measured resistance of available CPAP interfaces at gas flows commonly applied in clinical neonatal care. Use of interfaces with high resistance may result in a greater drop in delivered airway pressure in comparison to set circuit pressure, which may have implications for clinical efficacy. Device manufacturers and clinicians should consider CPAP interface resistance prior to introduction into routine clinical care.

Shifting of the body center of gravity in low-risk preterm infants: A video-pedoscope study.

AIM: To evaluate whether there is any developmental course of the shifting of the center of gravity (COG) in healthy preterm infants. METHODS: Eleven healthy preterm infants were assessed on a computerized pedoscope from early preterm to term age. Data from the pedoscope and the videorecorder were analyzed with a special software for the assessment of the COG shifting. Infants were placed on the pedoscope in supine position for 5 min. We scored the positions of the COG during its shifting, the body parts most frequently involved in its shifting and the shifting' amplitude at each epoch. We scored the frequency of the COG shifting in head, trunk and bottom, its direction and amplitude using a semi-quantitative scale. RESULTS: A developmental course of the COG shifting from preterm throughout post-term ages was demonstrated, with COG position displaced from head to bottom. The shifting amplitude decreased with increasing age. Lateral shifting were never observed. INTERPRETATION: The developmental course of the COG shifting suggests the maturation of postural behaviour in healthy preterm infants. The displacement of the COG from head to bottom and the reduced amplitude of the COG shifting from preterm to post-term age indicates a more stable body position.

Five-country manikin study found that neonatologists preferred using the LISAcath rather than the Angiocath for less invasive surfactant administration.

AIM: Less invasive surfactant administration (LISA) has been shown to decrease the risk of death and bronchopulmonary dysplasia in preterm neonates. The LISAcath is the first catheter to be specifically developed for LISA, and we compared the clinical impressions of neonatologists using the LISAcath and the commonly used Angiocath in a simulated setting. METHODS: This was a multinational, multicentre study, conducted in October 2016, which involved 39 neonatologists who were recruited by employees of the sponsor from large, well-recognised neonatal intensive care units across Europe. LISA was not the standard of care in these units in Austria, Belgium, Poland, Spain and the United Kingdom at the time of the study. After training, participants simulated LISA on a neonatal manikin, once with the LISAcath and once with Angiocath, then answered a 10-item questionnaire. RESULTS: The responses to nine of 10 questions showed that 67-95% of the respondents preferred the LISAcath to the Angiocath, with most of the remainder indicating no preference. The only exception was the luer connection question, with two-thirds expressing no preference. The LISAcath was considered potentially safer by 33 of 39 participants, with no votes for the Angiocath. CONCLUSION: Overall, neonatologists preferred using the LISAcath rather than the Angiocath on a neonatal manikin.

Rigid catheters reduced duration of less invasive surfactant therapy procedures in manikins.

AIM: Different catheters can be used for less invasive surfactant therapy (LIST): feeding tubes inserted with or without Magill forceps, different angiocatheters and centre specific devices, such as umbilical catheters affixed to a stylet. This study compared the effectiveness of LIST devices and endotracheal tubes (ETT). METHODS: Video recordings of 20 neonatologists simulating different LIST techniques on two manikin heads were analysed. Procedural effectiveness was evaluated by the duration of procedures and failure rates. Ease of use was scored. RESULTS: The median procedure time for the Neonatal Intubation Trainer was significantly longer with feeding tubes without Magill forceps. For the more difficult ALS Baby Trainer, successful procedures lasted a median of 24 (17-32) seconds with ETT, 24 (15-36) seconds with stylet-guided catheters and 34 (27-46) seconds and 37 (29-42) seconds with 13-cm and 30-cm angiocatheters, respectively. Both methods using feeding tubes were statistically slower than ETT intubation, lasting 32 (25-44) seconds and 39 (27-95) seconds with or without Magill forceps. Failure rates (7-20%) were no different between the LIST methods. Techniques using feeding tubes were rated as more difficult. CONCLUSION: Only rigid or stylet-guided catheters required tracheal catheterisation times similar to those of endotracheal intubation and neonatologists found them easier.

Servicio de Neonatología del Hospital General Universitario Gregorio Marañón / Neonatology Department of the Hospital General Universitario Gregorio Marañón

El Servicio de Neonatología del Hospital General Universitario Gregorio Marañón es un servicio de nivel IIIC, integrado en un hospital perteneciente al sistema público de salud de la Comunidad de Madrid, que presta servicios de atención sanitaria especializada. Es un hospital universitario adscrito a la Universidad Complutense de Madrid y realiza actividades docentes, pre y posgrado e investigadoras. Es un servicio cuyo objetivo es la calidad asistencial centrada en el paciente y en la familia (AU)

The Neonatology division of the University General Hospital 'Gregorio Marañón' is a service level IIIC, integrated into a hospital belong to the public health system of the Community of Madrid, which provides specialized health care services. It is associated with the Complutense University of Madrid and performs grade and postgrade teaching and training and research. It is a service whose objective is the quality of care focused on the family centered care (AU)

Resistance of Colorimetric Carbon Dioxide Detectors Commonly Utilized in Neonates.

BACKGROUND: Colorimetric end-tidal carbon dioxide (ETCO2) detectors can identify airway obstruction during noninvasive ventilation and successful intubation during newborn resuscitation. The resistance of these devices is not well described, and the information provided by manufacturers is incomplete. METHODS: We compared the resistance of 3 colorimetric ETCO2 detectors (Neo-StatCO2, Pedi-Cap, and Mini StatCO2,) and 2 mainstream capnograph sensors (EMMA infant airway adapter 17449 and neonatal/infant airway adapter YG-213T). Endotracheal tubes, 2.5-4.0-mm inner diameter (Portex) were measured as a reference range. A differential pressure transducer was placed between the device and a T-piece resuscitator. The other side of the device was open to air. Resistance to flow was tested at 1-10 L/min. Resistance was calculated as the change in pressure over change in flow and expressed as cm H2O/L/s. RESULTS: There was a significantly higher mean resistance across all flows tested for the Neo-StatCO2 compared with the other ETCO2 devices (P < .001). There was a 6-fold difference between the least and most resistive colorimetric detectors. At the commonly utilized flow of 10 L/min, the resistance of the Neo-StatCO2 was 61.1 cm H2O/L/s, comparable with that of a 3.0 endotracheal tube, which we measured at 62.7 cm H2O/L/s. The resistance values of the Pedi-Cap and Mini StatCO2 were 9.9 and 8.4 cm H2O/L/s, respectively. Those of the EMMA and YG-213T were 7.1 and 2.6 cm H2O/L/s, respectively. CONCLUSIONS: We found significant differences in resistance between devices used to detect ETCO2 during resuscitation of premature infants. Future trials are needed to determine the effects of this resistance on work of breathing, particularly on very premature newborns receiving mask CPAP.

La unidad de Gestión Clinica Intercentros de Neonatología en los Hospitales Universitario Regional y Virgen de la Victoria de Málaga en el año 2015 / The neonatology intercenter clinical management unit in the Hospitales Universitario Regional y Virgen de la Victoria of Málaga in the year 2015

En el presente artículo, vamos a desarrollar la función que desempeña nuestra Unidad en los aspectos asistencial, docente, formativo e investigador, dentro del Sistema Sanitario Público de Andalucía y con unos valores y una misión perfectamente establecidos, que describiremos en el mismo. Haremos mención, asimismo, de la cartera de servicios que la Unidad ofrece dentro de los hospitales a los que pertenece, la población de referencia y los niveles asistenciales en los que se encuadran las dos Unidades en los Hospitales Universitarios Regional y Virgen de la Victoria de Málaga, que conforman la Unidad de Gestión Clínica Intercentros (UGCI) desde 2005. Dentro de nuestra filosofía de prestación de cuidados, desde hace años, somos una unidad de puertas abiertas, que persigue la implicación de la familia en los cuidados del recién nacido ingresado y el control del microambiente que rodea al mismo, con monitorización del ruido, la intensidad lumínica, las medidas de contención, etc. E integrándose todo esto en los Cuidados Centrados en el Desarrollo y la Familia (AU)

In this article, I am going to develop the role played by our Unit in the care, teaching, training and researcher aspects within the Public Health System of Andalusia and with some values as well as a perfectly established mission, which I will describe in it. I will also refer to the List of Services offered by the Unit within the hospitals they belong to, the reference population and the care levels in which the two Units in the Regional University Hospitals and Virgen de la Victoria de Malaga fit into, which have made up the lntercenter Clinical Management Unit (UGCI) since 2005. Within our care giving philosophy, we have had Open Doors Unit for years. This unit pursues involvement of the family in the care of hospitalized newborn and control of the micro-environment surrounding it, with monitoring of noise, light intensity, contention measures, etc., all of this being integrated in Cares Focused on Development and the Family (AU)

A novel simulator for mechanical ventilation in newborns: MEchatronic REspiratory System SImulator for Neonatal Applications.

Respiratory problems are among the main causes of mortality for preterm newborns with pulmonary diseases; mechanical ventilation provides standard care, but long-term complications are still largely reported. In this framework, continuous medical education is mandatory to correctly manage assistance devices. However, commercially available neonatal respiratory simulators are rarely suitable for representing anatomical and physiological conditions; a step toward high-fidelity simulation, therefore, is essential for nurses and neonatologists to acquire the practice needed without any risk. An innovative multi-compartmental infant respirator simulator based on a five-lobe model was developed to reproduce different physio-pathological conditions in infants and to simulate many different kinds of clinical scenarios. The work consisted of three phases: (1) a theoretical study and modeling phase, (2) a prototyping phase, and (3) testing of the simulation software during training courses. The neonatal pulmonary simulator produced allows the replication and evaluation of different mechanical ventilation modalities in infants suffering from many different kinds of respiratory physio-pathological conditions. In particular, the system provides variable compliances for each lobe in an independent manner and different resistance levels for the airway branches; moreover, it allows the trainer to simulate both autonomous and mechanically assisted respiratory cycles in newborns. The developed and tested simulator is a significant contribution to the field of medical simulation in neonatology, as it makes it possible to choose the best ventilation strategy and to perform fully aware management of ventilation parameters.

La Neonatología, primera Área de Capacitación Específica de la Pediatría en Espana / Neonatology, the First Specific Training Area of Paediatrics in Spain

No disponible

Correlation between skin, bone, and cerebrospinal fluid layer thickness and optical coefficients measured by multidistance frequency-domain near-infrared spectroscopy in term and preterm infants.

Near-infrared spectroscopy (NIRS) is increasingly used in neonatal intensive care. We investigated the impact of skin, bone, and cerebrospinal fluid (CSF) layer thickness in term and preterm infants on absorption-(µa) and/or reduced scattering coefficients (µs') measured by multidistance frequency-domain (FD)-NIRS. Transcranial ultrasound was performed to measure the layer thicknesses. Correlations were only statistically significant for µa at 692 nm with bone thickness and µs' at 834 nm with skin thickness. There is no evidence that skin, bone, or CSF thickness have an important effect on µa and µs'. Layer thicknesses of skin, bone, and CSF in the range studied do not seem to affect cerebral oxygenation measurements by multidistance FD-NIRS significantly.

How to use: transcutaneous bilirubinometry.

The National Institute for Health and Clinical Excellence neonatal jaundice guidelines recommend checking the bilirubin level in all infants with visible jaundice. The gold standard for this measurement is total serum bilirubin (TSB). Transcutaneous bilirubinometry (TcB) is an alternative to TSB that has been validated for clinical use through extensive study. TcB provides many advantages over TSB including instantaneous measurements without requiring a painful lab draw. For infants >35 weeks gestation, TcB can reliably identify infants at risk for severe hyperbilirubinaemia and can decrease the number of TSB measurements obtained. However, paediatric providers should be aware of limitations in clinical use of TcB including decreasing accuracy at higher bilirubin levels, lack of independently validated nomograms for interpretation and limited research regarding its use during phototherapy.

An air flow sensor for neonatal mechanical ventilation applications based on a novel fiber-optic sensing technique.

In this work, a simple and low-cost air flow sensor, based on a novel fiber-optic sensing technique has been developed for monitoring air flows rates supplied by a neonatal ventilator to support infants in intensive care units. The device is based on a fiber optic sensing technique allowing (a) the immunity to light intensity variations independent by measurand and (b) the reduction of typical shortcomings affecting all biomedical fields (electromagnetic interference and patient electrical safety). The sensing principle is based on the measurement of transversal displacement of an emitting fiber-optic cantilever due to action of air flow acting on it; the fiber tip displacement is measured by means of a photodiode linear array, placed in front of the entrance face of the emitting optical fiber in order to detect its light intensity profile. As the measurement system is based on a detection of the illumination pattern, and not on an intensity modulation technique, it results less sensitive to light intensity fluctuation independent by measurand than intensity-based sensors. The considered technique is here adopted in order to develop two different configurations for an air flow sensor suitable for the measurement of air flow rates typically occurring during mechanical ventilation of newborns: a mono-directional and a bi-directional transducer have been proposed. A mathematical model for the air flow sensor is here proposed and a static calibration of two different arrangements has been performed: a measurement range up to 3.00 × 10(-4) m(3)∕s (18.0 l∕min) for the mono-directional sensor and a measurement range of ±3.00 × 10(-4) m(3)∕s (±18.0 l∕min) for the bi-directional sensor are experimentally evaluated, according to the air flow rates normally encountered during tidal breathing of infants with a mass lower than 10 kg. Experimental data of static calibration result in accordance with the proposed theoretical model: for the mono-directional configuration, the coefficient of determination r(2) is equal to 0.997; for the bi-directional configuration, the coefficient of determination r(2) is equal to 0.990 for positive flows (inspiration) and 0.988 for negative flows (expiration). Measurement uncertainty δQ of air flow rate has been evaluated by means of the propagation of distributions and the percentage error in the arrangement of bi-directional sensor ranges from a minimum of about 0.5% at -18.0 l∕min to a maximum of about 9% at -12.0 l∕min.

A multi-parameter system for use in neonatal resuscitation research and training.

Training staff in the resuscitation of neonates is an essential skill; resuscitation efficacy is difficult to quantify but critical to infant survival. Objective assessments of the efficacy of training methods, resuscitation techniques and devices have used concurrent measurements of air flow and air pressure in commercially available manikins. This system also simultaneously measures the force transmitted through the manikin head during simulated resuscitation, as applying excessive force may be deleterious to newborn infants. The overall accuracy of the force plate over the range 0-5 kg was 0.5%; the output was linear; the frequency response sufficiently high and there was no evidence of hysteresis. This system enables comparison of staff groups, resuscitation techniques and devices in an accurate and reproducible manner. Its use could improve training by offering a means of objective performance feedback through a range of parameters. Evaluation of clinical practice may also result in direct patient benefit.

Preterm EEG: a multimodal neurophysiological protocol.

Since its introduction in early 1950s, electroencephalography (EEG) has been widely used in the neonatal intensive care units (NICU) for assessment and monitoring of brain function in preterm and term babies. Most common indications are the diagnosis of epileptic seizures, assessment of brain maturity, and recovery from hypoxic-ischemic events. EEG recording techniques and the understanding of neonatal EEG signals have dramatically improved, but these advances have been slow to penetrate through the clinical traditions. The aim of this presentation is to bring theory and practice of advanced EEG recording available for neonatal units. In the theoretical part, we will present animations to illustrate how a preterm brain gives rise to spontaneous and evoked EEG activities, both of which are unique to this developmental phase, as well as crucial for a proper brain maturation. Recent animal work has shown that the structural brain development is clearly reflected in early EEG activity. Most important structures in this regard are the growing long range connections and the transient cortical structure, subplate. Sensory stimuli in a preterm baby will generate responses that are seen at a single trial level, and they have underpinnings in the subplate-cortex interaction. This brings neonatal EEG readily into a multimodal study, where EEG is not only recording cortical function, but it also tests subplate function via different sensory modalities. Finally, introduction of clinically suitable dense array EEG caps, as well as amplifiers capable of recording low frequencies, have disclosed multitude of brain activities that have as yet been overlooked. In the practical part of this video, we show how a multimodal, dense array EEG study is performed in neonatal intensive care unit from a preterm baby in the incubator. The video demonstrates preparation of the baby and incubator, application of the EEG cap, and performance of the sensory stimulations.

The Perinatal Palliative Care Perceptions and Barriers Scale Instrument©: development and validation.

PURPOSE: To devise and test an instrument measuring clinician perceptions of perinatal palliative care (PPC) and barriers to care delivery. THEORY: PPC was theorized to involve the care of pregnant women and their families after prenatal testing resulted in a life-limiting fetal diagnosis. Both giving birth to a child with a life-limiting condition or termination of pregnancy for fetal anomaly can be emotionally traumatic life events. Clinicians were thought to face ethical dilemmas that involved approaches to care for this population. The ethical dilemmas were measured on a perceptions scale using items about informed consent, justice, beneficence, and autonomy. Barriers were theorized as obstacles to delivering quality PPC and included insufficient education, personal discomfort, and difficulty garnering team or administrative support for care. SUBJECTS: Licensed clinicians practicing in the perinatal field. DESIGN: Stage 1 entailed instrument development and validation, which was achieved through a Delphi study involving 11 expert panelists. The devised instrument included 64 six-point Likert items. In stage 2, a computer survey gathered data from a multidisciplinary, clinician group. METHODS: A total of 264 clinicians completed the survey. Exploratory factor analysis with varimax rotation was used to validate the instrument, evaluate the factors, and summarize the explained variance achieved by sum scores of the perceptions and barriers scales. MAIN OUTCOME MEASURES: The perceptions scale was reduced to 23 items with a 6-factor solution explaining 67% of the variance with a good internal consistency reliability of 0.77 (Cronbach α). The 22-item barriers scale had a 6-factor solution explaining 71% of the variance with an alpha reliability of 0.83. PRINCIPLE RESULTS: The Perinatal Palliative Care Perceptions and Practice Barriers Scale instrument is a valid and reliable measure of PPC perceptions and barriers for measuring the attitudes of physicians and nurses. CONCLUSION: Use of this instrument can foster educational programs and hospital planning for PPC teams that provide grieving families with the varied support they need. It is also a useful instrument for examining trends in the clinician perspectives and practice barriers as more genetic testing and subsequent terminal diagnoses occur.

Sustained inflations: comparing three neonatal resuscitation devices.

BACKGROUND: Some national resuscitation guidelines advocate using sustained initial inflations (2-3 s) for babies requiring resuscitation. Inflation times ≥10 s have been used for preterm infants. OBJECTIVES: This study examines the ability of operators of varying experience to provide a sustained inflation using three different manual ventilation devices. METHODS: We compared a self-inflating bag, a flow-inflating bag and a pressure-limited T-piece device. Fifty clinical staff members from five professional groups gave a sustained inflation with a target peak pressure of 30 cm H2O and target duration of 10 s to an internal leak-free manikin. We measured peak inflating pressure (PIP) and mean inflating pressure (MIP) during the sustained inflation, and the duration of inflating pressure (IP) >20 and 25 cm H2O. RESULTS: Median (IQR) duration of IP >25 cm H2O was: self-inflating bag 2.5 s (0.8-5.7), flow-inflating bag 10.6 s (8.4-12.9) and the T-piece 10.7 s (8.9-11.9). There was a weak correlation between experience using a self-inflating bag and longer inflation times (R = 0.290, p = 0.041). When compared with the T-piece, the flow-inflating bag had lower mean MIP (27.0 ± 1.8 vs. 28.8 ± 2.0 cm H2O) and higher mean PIP (32.3 ± 3.7 vs. 29.8 ± 1.8 cm H2O). There were no differences in performance between operator groups. CONCLUSION: The T-piece provided consistent PIP during a single 10 s sustained inflation with less variation in pressure compared with the flow-inflating bag. Sustained inflations >3 s were difficult to achieve with a self-inflating bag.

Flexible fiberoptic bronchoscopy--a bedside technique for neonatologists.

BACKGROUND: Flexible fiberoptic bronchoscopy (FFB) is an under-used technology in neonates, mostly performed by external consultants from either pulmonology or otolaryngology. Modern ultra-thin scopes offer the neonatologist new diagnostic and therapeutic opportunities at the bedside. OBJECTIVE: To describe the diagnostic value, therapeutic potential, and safety profile of FFB in neonates when performed by neonatologists as a bedside procedure. METHODS: This was a retrospective case series that included 19 term and preterm infants who underwent FFB in two Neonatal Intensive Care Units (NICU). RESULTS: Twenty-five procedures were performed for the following indications: suspected airway pathology (15); BAL (8), noisy breathing (4), aid to difficult endotracheal intubation (1), investigation for failure of weaning from ventilation (6), and evaluation of tracheotomy or endotracheal tube patency (5). Thirteen procedures had more than one indication. Airway pathology was observed in 15 of 25 (60%) procedures. Treatment of atelectasis was successful in 7 of 10 cases. BAL culture results influenced antibiotic therapy in 5 of 10 cases (50%). No procedure-related mortality occurred. One serious adverse event (1/25, 4%), namely bilateral pneumothorax occurred 1 h after FFB. CONCLUSIONS: FFB is a useful and safe procedure that belongs in the neonatologists' armamentarium.

An overview of recent applications of computational modelling in neonatology.

This paper reviews some of our recent applications of computational fluid dynamics (CFD) to model heat and mass transfer problems in neonatology and investigates the major heat and mass-transfer mechanisms taking place in medical devices, such as incubators, radiant warmers and oxygen hoods. It is shown that CFD simulations are very flexible tools that can take into account all modes of heat transfer in assisting neonatal care and improving the design of medical devices.