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Understanding the Science & Physiology of CPAP in Newborn Care

This article explores the definition, physiology, and benefits of Continuous Positive Airway Pressure (CPAP) in newborn care. It discusses the maintenance of trans-pulmonary pressure, its effect on lung function, and the limitations of premature lungs. Additionally, it highlights the importance of good delivery room care and the role of CPAP in reducing lung injury.

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Understanding the Science & Physiology of CPAP in Newborn Care

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  1. WHO Collaborative Centre for Training and Research in Newborn Care Science & Physiology behind C P A P Ashok DeorariMD, FNNF,FAMS Department of Pediatrics All India Institute of Medical Sciences

  2. Definition Maintenance of an increased (positive) trans-pulmonary pressure during the inspiratory & expiratory phase of respiration, with the patient breathing spontaneously.

  3. Physiology of CPAP Pulmonary Increases FRC Decreases V/Q mismatch Splints upper airway –  airway resistance Tidal volume  Work of breathing Conserves surfactant  lung compliance

  4. Effect of Ventilator on Preterm Lamb Lung No ventilation 24 h ventilation Limitations of premature lung 1.Underdeveloped architect to hold the lung open 2.Thicker and few septa so less SA for gas exchange Pinkerton KE, et al J Appl Physiol, 1994

  5. Preterm Lambs at 72 Hours • Distal Airspace Wall Thickness - nCPAP C V

  6. Ventilator induced lung injury Biotrauma with tube Atelectotrauma

  7. Ventilator induced lung injury Barotrauma Volutrauma

  8. CPAP magic Opens the lung at FRC Keeps it open by minimal constant pressure –least baro and volutrauma No ET tubes- nobiotrauma Pulmonary arterial pressure are least with improved blood flow, hence less V/Q mismatch

  9. PVR Increases at Lung Volumes Below and Above FRC PVR Lung Volume

  10. Law of LaPlace : P = 2T/r P : pressure T : surface tension r : radius r = 3 T = 6 P = (2 x 6) / 3 P = 4

  11. Law of LaPlace : P = 2T/r P : pressure T : surface tension r : radius CPAP Smaller alveolus r = 1 T = 3 P = (2 x 3) / 1 P = 6 Larger alveolus r = 1.5 T = 3 P = (2 x 3) / 1.5 P = 4

  12. Surfactant CPAP Surface tension Imagine a human chain !!

  13. What did we learn ? CPAP causes less lung injury Give adequate CPAP to open lung at FRC Surfactant and CPAP have additive effect Maximum dividends if -Good delivery room care ; ANS for preterm labor -Acceptance by TEAM

  14. The Best Ventilator… Least damage

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