Medicine:Inverse ratio ventilation

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Inverse ratio ventilation (IRV) is not necessarily a mode of mechanical ventilation though it may be referred to as such. IRV is a strategy (method or style) of ventilating the lungs in such a way that the amount of time the lungs are in inhalation is greater than the amount of time they are in exhalation, allowing for a constant inflation of the lungs, ensuring they remain "recruited" (meaning they participate in gas exchange and are not allowed to deflate to get stuck together or tighten up). The primary goal for IRV is improved oxygenation by forcing inspiratory time to be greater than expiratory time (example: inhale is 3 seconds and exhalation is 1 second, a 3:1 I:E ratio) increasing the mean airway pressure and potentially improving oxygenation. Normal I:E ratio is 5:6, so forcing the I:E to be 2:1, 3:1, 4:1, (or even as high as 20:1) is the source of the term for the strategy. IRV has not often been shown to improve important clinical outcomes, such as mortality, duration of mechanical ventilation, or duration of ICU stay. This may be due to the fact that IRV is not considered as a mode early enough once ARDS is diagnosed. The preponderance of evidence suggests that IRV improves oxygenation, although the evidence is weak and characterized by low quality, conflicting studies.[1][2][3][4][5][6][7][8][9][10][11][12]

Types

IRV can be performed during pressure-controlled ventilation (PC-IRV) or volume-controlled ventilation(VC-IRV). Neither is clearly superior to the other. In a multicenter, randomized trial that compared PC-IRV to VC-IRV in patients with acute respiratory distress syndrome, the type of IRV did not affect mortality.[13]

Associated risk

The shorter expiratory time during IRV increases the risk of auto-PEEP and its associated development of problems (e.g. pulmonary barotrauma, hypotension).[10] IRV also appears to increase the risk of pulmonary barotrauma independent of auto-PEEP. In a study of 14 patients undergoing mechanical ventilation with PC-IRV, the incidence of pneumothorax was 29 percent despite the lack of measurable auto-PEEP.[14]

Modes that utilize IRV

The most popular mode that utilizes IRV is the airway pressure release ventilation mode, also known by the brand name "BiVent". This employs an extremely high inverse ratio in a continuous pressure system similar to biphasic positive airway pressure but with several additional variables.

References

  1. "Cardiorespiratory effects of pressure-controlled ventilation with and without inverse ratio in the adult respiratory distress syndrome.". Chest 104 (3): 871–5. 1993. doi:10.1378/chest.104.3.871. PMID 8365303. 
  2. "Extending inspiratory time in acute respiratory distress syndrome.". Crit Care Med 29 (1): 40–4. 2001. doi:10.1097/00003246-200101000-00011. PMID 11176158. 
  3. "Should inverse ratio ventilation be used in adult respiratory distress syndrome?". Am J Respir Crit Care Med 149 (5): 1354–8. 1994. doi:10.1164/ajrccm.149.5.8173778. PMID 8173778. 
  4. "Inverse ratio ventilation (I/E = 2/1) in acute respiratory distress syndrome: a six-hour controlled study.". Am J Respir Crit Care Med 155 (5): 1637–42. 1997. doi:10.1164/ajrccm.155.5.9154869. PMID 9154869. 
  5. "The outcome of early pressure-controlled inverse ratio ventilation on patients with severe acute respiratory distress syndrome in surgical intensive care unit.". Am J Surg 183 (2): 151–5. 2002. doi:10.1016/s0002-9610(01)00870-4. PMID 11918879. https://pubmed.ncbi.nlm.nih.gov/11918879. 
  6. "Long-term effects of two different ventilatory modes on oxygenation in acute lung injury. Comparison of airway pressure release ventilation and volume-controlled inverse ratio ventilation.". Am J Respir Crit Care Med 149 (6): 1550–6. 1994. doi:10.1164/ajrccm.149.6.8004312. PMID 8004312. 
  7. "Cardiorespiratory effects of pressure controlled inverse ratio ventilation in severe respiratory failure.". Chest 96 (6): 1356–9. 1989. doi:10.1378/chest.96.6.1356. PMID 2582844. 
  8. "Beneficial effects of the "open lung approach" with low distending pressures in acute respiratory distress syndrome. A prospective randomized study on mechanical ventilation.". Am J Respir Crit Care Med 152 (6 Pt 1): 1835–46. 1995. doi:10.1164/ajrccm.152.6.8520744. PMID 8520744. 
  9. "Improved oxygenation and lower peak airway pressure in severe adult respiratory distress syndrome. Treatment with inverse ratio ventilation.". Chest 89 (2): 211–3. 1986. doi:10.1378/chest.89.2.211. PMID 3943380. 
  10. 10.0 10.1 "Pressure controlled inverse ratio ventilation in severe adult respiratory failure.". Chest 94 (4): 755–62. 1988. doi:10.1378/chest.94.4.755. PMID 3168572. 
  11. "The use of pressure-controlled inverse ratio ventilation in the surgical intensive care unit.". J Trauma 31 (9): 1211–4; discussion 1214–5. 1991. doi:10.1097/00005373-199109000-00003. PMID 1920550. 
  12. "Pressure control inverse ratio ventilation as a method to reduce peak inspiratory pressure and provide adequate ventilation and oxygenation.". Chest 95 (5): 1081–8. 1989. doi:10.1378/chest.95.5.1081. PMID 2495904. 
  13. "Prospective randomized trial comparing pressure-controlled ventilation and volume-controlled ventilation in ARDS. For the Spanish Lung Failure Collaborative Group.". Chest 117 (6): 1690–6. 2000. doi:10.1378/chest.117.6.1690. PMID 10858404. 
  14. "Pressure-controlled, inverse ratio ventilation that avoids air trapping in the adult respiratory distress syndrome.". Crit Care Med 23 (2): 279–85. 1995. doi:10.1097/00003246-199502000-00013. PMID 7867353. 



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