View clinical trials related to Infant, Newborn, Diseases.
Filter by:Study outcomes and endpoints: - Primary outcome: to assess clinical characteristics of infants with confirmed COVID-19 infection at birth and to evaluate long-term respiratory consequences of neonatal COVID-19 infection. - Secondary outcome: to evaluate the prevalence and natural history of lung function impairment among infants with confirmed COVID-19 compared to infants with no history of COVID-19. To this end, infants will undergo pulmonary function testing (PFT) with the Exhalyzer D device (Eco Medics, Switzerland).
Moderate-severe intraventricular hemorrhage (msIVH, Grades II-IV) is a significant neurological complication among extremely low gestational age neonates (ELGANs, <=27+6 weeks) and is associated with long-term neuro-disabilities. In Canada, msIVH affects ~25-30% of the 1300 ELGANs born annually, with little change in incidence over last decade. Typically, it occurs between days 2-7 of age, providing a finite window of opportunity. Instituting therapies at the population level, however, exposes many low-risk infants to side effects, adversely affecting risk-benefit profile and requiring large sample sizes in trials. A targeted preventative approach, though ideal, is currently challenged by our inability to reliably identify at-risk ELGANs early after birth. Near-infrared spectroscopy (NIRS) has emerged as a promising non-invasive bedside neuromonitoring tool. Pilot studies using NIRS, including ours, found lower cerebral saturations (CrSO2) and greater periods of altered cerebral autoregulation in infants who later developed msIVH. However, a systematic planned investigation is needed to establish the predictive characteristics of NIRS-derived markers, using clinically translatable methods (cumulative burden over time-period vs. single time-point values) and identify their relative performance at different time-points during transition. Further, incorporating echocardiographic (ECHO) hemodynamic markers, known to be associated with msIVH, may allow for the establishment of robust multi-model prediction models and the gain of mechanistic hemodynamic insights to inform future management. Hence, our objective is to investigate the utility of multi-modal assessment using NIRS and ECHO for early identification of ELGANs at risk of msIVH, and generate clinically applicable predictive model(s).
Ventilated newborns frequently need supplemental oxygen but its use must be monitored carefully as both giving too much or too little oxygen can have harmful effects. Giving too little oxygen results to low oxygen levels (hypoxia) and increases the risk of complications and mortality. Excessive oxygen delivery (hyperoxia) increases the risk of diseases involving several organs such as the retinas and the lungs. Although infants born very preterm require support with their breathing more often, more mature neonates may also need to be ventilated at birth and to receive supplemental oxygen. Therefore, they may suffer from problems related to hypoxia and hyperoxia. For the above reasons, oxygen levels are continuously monitored and the amount of oxygen provided is manually adjusted by the nurses and doctors. Closed-loop automated oxygen control systems (CLAC) are a more recent approach that involves the use of a computer software added to the ventilator. This software allows for automatic adjustment of the amount of oxygen provided to the baby in order to maintain oxygen levels within a desired target range depending on the baby's age and clinical condition. Previous studies in preterm and very small infants showed that automated oxygen control systems provided the right amount of oxygen for most of the time and prevented hypoxia and hyperoxia with fewer manual adjustments required by clinical staff. Preliminary results from a study that included infants born at 34 weeks gestation and beyond showed that CLAC systems allowed to reduce the amount of supplementary oxygen more rapidly. With this study we aim to compare the time spent in hyperoxia and the overall duration of oxygen treatment between infants whose oxygen is adjusted either manually or automatically while they remain ventilated. This will help us understand if CLAC systems help reduce the complications related to oxygen treatment.
A randomized controlled trial comparing Noninvasive high frequency oscillatory ventilation (NHFOV) and Noninvasive positive pressure ventilation (NIPPV) as post-extubation respiratory support in preterm neonates with respiratory distress syndrome(RDS)
Neonatal mortality remains unacceptably high. Globally, the majority of mothers now deliver in health facilities in low resource settings where quality of newborn care is poor. Health systems strengthening through digitial quality improvement systems, such as the Neotree, are a potential solution. The overarching aim of this study is to complete the co-development of NeoTree-gamma with key functionalities configured, operationalised, tested and ready for large scale roll out across low resource settings. Specific study objectives are as follows: 1. To further develop and test the NeoTree at tertiary facilities in Malawi and Zimbabwe 2. To investigate HCPs and parent/carer view of the NeoTree, including how acceptable and usable HCWs find the app, and potential barriers and enablers to implementing/using it in practice. 3. To collect outcome data for newborns from representative sites where NeoTree is not implemented. 4. To test the clinical validity of key NeoTree diagnostic algorithms, e.g. neonatal sepsis and hypoxic ischaemic encephalopathy (HIE) against gold standard or best available standard diagnoses. 5. To add dashboards and data linkage to the functionality of the NeoTree 6. To develop and test proof of concept for communicating daily electronic medical records (EMR) using NeoTree 7. To initiate a multi-country network of newborn health care workers, policy makers and academics. 8. To estimate cost of implementing NeoTree at all sites and potential costs at scale
The goal of this observational study is to collect data to develop a complete package (hardware, user interface software and algorithms) that can monitor sleep-wake stages in neonates. Real-time EEG data will be used to develop and refine the prototype monitor's ability to provide direct real-time information about sleep-wake state. The study design includes multiple iterative training/testing stages to refine the prototype. The study is divided into multiple sub-aims conducted in parallel: data acquisition, algorithm development (including comparison between gold-standard polysomnogram vs. novel algorithm markings of sleep-stages), and graphical user interface software development. The data acquisition and algorithm development are iterative and linked, such that the prototype algorithm from one iteration will be deployed real-time during the next iteration of data acquisition. This allows verification that the algorithm can perform real-time and provides prospective testing data, which is later folded into the training data for the next iteration, for verification and validation of the system.
To estimate the prevalence of congenital CMV infection in Vietnamese neonates and relating morbidity within 2-year follow-up. Along with evaluating the predictive value of the presence and the level of CMV replication in the first trimester in a highly seropositive population
The aim of this study is the implementation of Forced Oscillations Technique (FOT) in newborns and small infants using a novel commercially available device. The objective is to assess the feasibility of the method, provide normative data for the first months of life and describe short- and long-term changes in neonatal respiratory disorders. The study population will consist of term and preterm newborns admitted to the Neonatal Intensive Care Unit (NICU) or the Well-Baby Nursery of the University Hospital of Patras, Greece. It is estimated that 200 full-term and 150 preterm newborns will be enrolled during a period of 36 months (March 2021 - September 2022). Measurements will be performed using the TremoFlo N-100 via a face mask, with the infant in the supine position during natural sleep. At least 3 technically acceptable measurements (duration 10s each) will be obtained, as follows: - Healthy full-term neonates: postnatal days 1, 2, 3 and at discharge - Preterm neonates: NICU admission, postnatal days 1, 2 and 3, and on the first day of each additional gestational week until discharge All participants will be also measured at the age of 3, 6 and 12 months.
The eyes of hospitalized infants are often assessed by dilated exam, and there is evidence that infants experience post-exam stress. Investigators will evaluate whether eye shields for infants after dilated eye exam lessen stress and discomfort.
The investigators aimed to investigate the clinical and epidemiological characteristics of neonates who will be born to Covid-19 positive mothers in Turkey. It is a multicentric prospective cohort study designed and destined only in Turkey. The investigators are planning to admit more than 20 Neonatal Intensive Care Units into the survey; nevertheless, the total number may change according to the prevalence of Covid-19 in neonates. The investigators will also inquire into vertical transmission by collecting cord blood, placental, and postnatal serum samples to test for Covid-19 PCR and Covid-19 Ig M and IgG values from the neonates.