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Item Adjusting ventilator settings to avoid air trapping in extremely premature infants reduces the need for tracheostomy and length of stay(Frontiers, 2022-12-30) Sammour, Ibrahim; Conlon, Steven M.; Bauer, Sarah E.; Montgomery, Gregory S.; Cristea, A. Ioana; Rose, Rebecca S.; Pediatrics, School of MedicineDespite the improving understanding of how lung mechanics and tidal volume requirements evolve during the evolution of bronchopulmonary dysplasia (BPD), clinical management continues to be heterogeneous and inconsistent at many institutions. Recent reports have examined the use of high tidal-volume low respiratory rate strategies in these patients once disease has been well established to help facilitate their eventual extubation and improve their long-term neurodevelopmental outcomes. In this retrospective observational research study, we describe how intentional adjustment of ventilator settings based on patient lung mechanics by an interdisciplinary BPD team improved the care of the at-risk population of infants, reduced the need for tracheostomies, as well as length of stay over a period of over 3 years. The team aimed to establish consistency in the management of these children using a high tidal volume, low-rate approach, and titrating PEEP to address the autoPEEP and bronchomalacia that is frequently observed in this patient population.Item Design, Modeling, and Fabrication of a Ventilator Prototype - A Successful Student Project Story(ASME, 2021-11) Yeong, Haoyee; Iloeje, Francis; Kindomba, Eli; Folorunso, Sunday; Li, Yafeng; Zhang, Jing; Mechanical and Energy Engineering, School of Engineering and TechnologyAbstract In this work, we use a group project approach for a group of undergraduate students to design and develop a mechanical ventilator, in response to the COVID-19 pandemic. A student group project composed of a team of undergraduate students has successfully designed and fabricated a mechanical bag valve mask (BVM) ventilator prototype. It is lightweight with a single controller is driven, capable of volume adjustment, inexpensive, open-source, and designed for ease of fabrication, installation, and operation by the average user. The ventilator prototype also consists of 3D printed components and stored bought hardware. A finite element model was developed to analyze the deformation of the bag valve mask. Finally, the ventilator system is fully tested functioning properly.Item Ventilation Strategies during Extracorporeal Membrane Oxygenation for Neonatal Respiratory Failure: Current Approaches among Level IV Neonatal ICUs(Wolters Kluwer, 2022-11) Ibrahim, John; Mahmood, Burhan; DiGeronimo, Robert; Rintoul, Natalie E.; Hamrick, Shannon E.; Chapman, Rachel; Keene, Sarah; Seabrook, Ruth B.; Billimoria, Zeenia; Rao, Rakesh; Daniel, John; Cleary, John; Sullivan, Kevin; Gray, Brian; Weems, Mark; Dirnberger, Daniel R.; Surgery, School of MedicineOBJECTIVES: To describe ventilation strategies used during extracorporeal membrane oxygenation (ECMO) for neonatal respiratory failure among level IV neonatal ICUs (NICUs). DESIGN: Cross-sectional electronic survey. SETTING: Email-based Research Electronic Data Capture survey. PATIENTS: Neonates undergoing ECMO for respiratory failure at level IV NICUs. INTERVENTIONS: A 40-question survey was sent to site sponsors of regional referral neonatal ECMO centers participating in the Children’s Hospitals Neonatal Consortium. Reminder emails were sent at 2- and 4-week intervals. MEASUREMENTS AND MAIN RESULTS: Twenty ECMO centers responded to the survey. Most primarily use venoarterial ECMO (65%); this percentage is higher (90%) for congenital diaphragmatic hernia. Sixty-five percent reported following protocol-based guidelines, with neonatologists primarily responsible for ventilator management (80%). The primary mode of ventilation was pressure control (90%), with synchronized intermittent mechanical ventilation (SIMV) comprising 80%. Common settings included peak inspiratory pressure (PIP) of 16–20 cm H2O (55%), positive end-expiratory pressure (PEEP) of 9–10 cm H2O (40%), I-time 0.5 seconds (55%), rate of 10–15 (60%), and Fio2 22–30% (65%). A minority of sites use high-frequency ventilation (HFV) as the primary mode (5%). During ECMO, 55% of sites target some degree of lung aeration to avoid complete atelectasis. Fifty-five percent discontinue inhaled nitric oxide (iNO) during ECMO, while 60% use iNO when trialing off ECMO. Nonventilator practices to facilitate decannulation include bronchoscopy (50%), exogenous surfactant (25%), and noninhaled pulmonary vasodilators (50%). Common ventilator thresholds for decannulation include PEEP of 6–7 (45%), PIP of 21–25 (55%), and tidal volume 5–5.9 mL/kg (50%). CONCLUSIONS: The majority of level IV NICUs follow internal protocols for ventilator management during neonatal respiratory ECMO, and neonatologists primarily direct management in the NICU. While most centers use pressure-controlled SIMV, there is considerable variability in the range of settings used, with few centers using HFV primarily. Future studies should focus on identifying respiratory management practices that improve outcomes for neonatal ECMO patients.