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Ventilator Lung; Newborn clinical trials

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NCT ID: NCT05706428 Completed - Clinical trials for Hemodynamic Instability

Cardiorespiratory Effects of Nasal High Frequency Ventilation in Neonates

Start date: February 1, 2023
Phase: N/A
Study type: Interventional

The aim of the present work is to study the cardio-respiratory effects of non-invasive ventilation (nasal high-frequency ventilation and nasal CPAP) as an initial therapy of respiratory distress in moderate and late preterm infants as regard: I. Primary outcomes: - Duration of the non- invasive respiratory support. - Need of invasive ventilation in the first 72 hours. - Short-term complications such as air leak syndromes, pulmonary hemorrhage, intraventricular hemorrhage, and nasal trauma. II. Secondary outcomes: - Need for surfactant administration. - Days on invasive mechanical ventilation. - Days on supplemental oxygen. - Duration of hospital stay. - Mortality rate. III. Hemodynamic changes during the period of non-invasive ventilation.

NCT ID: NCT04836689 Completed - Clinical trials for Ventilator Lung; Newborn

Influence of Respiratory Rate Settings on CO2 Levels During Nasal Intermittent Positive Pressure Ventilation (NIPPV).

Start date: April 1, 2021
Phase: N/A
Study type: Interventional

Infants will be monitored by TcCO2 during three consecutive time periods of one hour each on a high and low rate of NIPPV, when in a stable condition. NIPPV rate will start high/low, changed to low/high and switched back to starting rate.

NCT ID: NCT04659083 Completed - Clinical trials for Mechanical Ventilation

How NAVA Works in Preterm Infants With Irregular Respiratory Efforts

Start date: March 1, 2020
Phase:
Study type: Observational

For the infant participating the study, ventilator settings and respiratory variables will be recorded every day and exported to a specific computer using the Servo Record Viewer version 1.0 (Maquet Critical Care AB, Getinge, Gothenburg, Sweden). Collected data gives the value for peak inspiratory pressure (PIP), expiratory tidal volume (Vt), peak Edi, minimum Edi, measured respiratory rate (RR), neural respiratory rate (nRR) and percentage of backup breaths for each minute. All the ventilator data will be inspected and compared with the event logs recorded automatically from the ventilator, which includes all the alarm notification, mode and setting changes, cables connection and disconnection data. Data during disconnection of the Edi cable, malfunction or dislocation of Edi catheter will be excluded from the analysis. The mean values during each day will be computed for each ventilatory variables. If there is a change in the ventilatory setting parameters, we will choose the one which was applied for longer duration in the 24-hour time period. The following clinical characteristics will be collected from medical records: gestational age at birth, birth weight, gender, the time and amount of feeding, medication during the study days, desaturation events, bradycardia events, suction time and methods.

NCT ID: NCT04195672 Completed - Clinical trials for Ventilator Lung; Newborn

NIPE as an Indicator of Pain in Sedated/Ventilated Patient Under 3 Years-old Hospitalized in Intensive Care Unit

NIPE
Start date: November 1, 2017
Phase:
Study type: Observational

The main objective is to assess correlation between Newborn Infant Parasympathetic Index values and external evaluation by Comfort Behaviour Scale during painful medical cares in sedated intubated children admitted in pediatric intensive care unit.

NCT ID: NCT04068558 Completed - Premature Birth Clinical Trials

sNIPPV Versus NIV-NAVA in Extremely Premature Infants

EASYNNEO
Start date: December 9, 2019
Phase: N/A
Study type: Interventional

The aim of this study is to demonstrate a significant decrease in asynchrony with NIV-NAVA using the Servo n ventilator (Getinge, Sweden), as compared to abdominal triggered (Graseby capsule) synchronized nasal intermittent positive pressure ventilation (sNIPPV) using the Infant Flow CPAP device (Care Fusion, USA). All of the data obtained can be used to develop a large-scale study aimed at reducing the rate of re-intubation in the study population (pilot study). In fact, the re-intubation criteria for extremely premature children are based on clinical criteria (desaturations, apnea, signs of respiratory control) and paraclinical criteria (FiO2, Potential hydrogen (pH), PCO2). The results of this pilot study will help to develop an adapted methodology and to calculate a sample size to compare the 2 modes of NIV to the test on a clinical criterion: the rate of re-intubation after extubation, which is classically high in these patients.

NCT ID: NCT03895242 Completed - Preterm Birth Clinical Trials

Prone and Supine Positions in Preterm Infants Receiving Mechanical Ventilation

Start date: February 2015
Phase: N/A
Study type: Interventional

Positioning, which is one of the individualized developmental care methods, is known as the important care support process which is applied with the purpose of ensuring the least damage from the environmental. Positioning in preterm infants is the basis of neonatal nursing care. Positioning in preterm infants receiving mechanical ventilation support is important in terms of physiological and neurodevelopment. In infants undergoing respiratory support in NICU, it is important to determine the appropriate position, the frequency and duration of position change in order to reduce the oxygen need. In this respect, the aim of this study, designed as a randomized controlled trial, was to determine the effect of supine and prone positions on physiological variables (oxygen saturation and heart rate) of preterm infants receiving mechanical ventilation.

NCT ID: NCT03388437 Completed - Respiratory Failure Clinical Trials

Non-invasive Neurally Adjusted Ventilatory Assist Versus Nasal Intermittent Positive Pressure Ventilation for Preterm Infants After Extubation

Start date: May 1, 2017
Phase: N/A
Study type: Interventional

Non-invasive respiratory support has been emerging in the management of respiratory distress syndrome (RDS) in preterm infants to minimise the risk of lung injury. Intermittent positive pressure ventilation (NIPPV) provides a method of augmenting continuous positive airway pressure (CPAP) by delivering ventilator breaths via nasal prongs.It may increase tidal volume, improve gas exchange and reduce work of breathing. However, NIPPV may associate with patient-ventilator asynchrony that can cause poor tolerance and risk of intubation. It may also in increased risk of pneumothorax and bowel perforation because of increase in intrathoracic pressure. On the other hand, neurally adjusted ventilatory assist (NAVA) is a newer mode of ventilation, which has the potential to overcome these challenges. It uses the electrical activity of the diaphragm (EAdi) as a signal to synchronise the mechanical ventilatory breaths and deliver an inspiratory pressure based on this electrical activity. Comparing NI-NAVA and NIPPV in preterm infants, has shown that NI-NAVA improved the synchronization between patient and ventilator and decreased diaphragm work of breathing . There is lack of data on the use of NI-NAVA in neonates post extubation in the literature. To date, no study has focused on short-term impacts. Therefore, it is important to evaluate the need of additional ventilatory support post extubation of NI-NAVA and NIPPV and also the risk of developing adverse outcomes. Aim: The aim is to compare NI-NAVA & NIPPV in terms of extubation failure in infants< 32 weeks gestation. Hypothesis: Investigators hypothesized that infants born prematurely < 32 weeks gestation who extubated to NI-NAVA have a lower risk of extubation failure and need of additional ventilatory support.

NCT ID: NCT03163108 Completed - Clinical trials for Ventilator Lung; Newborn

Closed-loop Automatic Oxygen Control (CLAC-4) in Preterm Infants

CLAC-4
Start date: March 15, 2017
Phase: N/A
Study type: Interventional

Two-center, randomised controlled, cross-over clinical trial in preterm infants born at gestational age below 34+1/7 weeks receiving supplemental oxygen and respiratory support (Continous positive airway pressure (CPAP) or Non-invasive Ventilation (NIV) or Invasive Ventilation (IV)). Routine manual control (RMC) of the fraction of inspired oxygen (FiO2) will be tested against RMC supported by closed-loop automatic control (CLAC) with "slow"-algorithm and RMC supported by CLAC with "fast"-algorithm. The primary hypothesis is, that the use of the "faster" algorithm results in more time within arterial oxygen saturation (SpO2) target range compared to RMC only. The a-priori subordinate hypothesis is, that the faster algorithm is equally effective as the slower algorithm to maintain the SpO2 in the target range.