Abstract
BACKGROUND: The combination of high PEEP and low tidal volume (VT) decreases some risks of mechanical ventilation, including pulmonary overdistention, damage due to cyclic opening and closing of the alveoli, and inflammatory responses that can lead to multiple-organ dysfunction. We hypothesized that high VT and high PEEP induce mesenteric microcirculatory disturbances and that those disturbances would be attenuated by pentoxifylline, which is anti-inflammatory.
METHODS: We anesthetized (isoflurane 1.5%), tracheostomized, and mechanically ventilated 57 male Wistar rats with PEEP of 10 cm H2O and FIO2 of 0.21 for 2 hours. One group received low VT (7 mL/kg), another group received high VT (10 mL/kg), and a third group received high VT plus pentoxifylline (25 mg/kg). We measured mean arterial pressure, respiratory mechanics, mesenteric blood flow, and leukocyte-endothelial interactions.
RESULTS: The mean arterial pressure was similar among the groups at baseline (108 mm Hg [IQR 94–118 mm Hg]) and after 2 hours of mechanical ventilation (104 mm Hg [IQR 90–114 mm Hg]). Mesenteric blood flow was also similar between the groups: low VT 15.1 mL/min (IQR 12.4–17.7 mL/min), high VT 11.3 mL/min (IQR 8.6–13.8 mL/min), high-VT/pentoxifylline 12.4 mL/min (10.8–13.7 mL/min). Peak airway pressure after 2 hours was lower (P = .03) in the low-VT group (10.4 cm H2O [IQR 10.2–10.4 cm H2O]) than in the high-VT group (12.6 cm H2O [10.2–14.9 cm H2O]) or the high-VT/pentoxifylline group (12.8 cm H2O [10.7–16.0 cm H2O]). There were fewer adherent leukocytes (P = .005) and fewer migrated leukocytes (P = .002) in the low-VT group (5 cells/100 μm length [IQR 4–7 cells/100 μm length] and 1 cell/5,000 μm2 [IQR 1–2 cells/5,000 μm2], respectively) and the high-VT/pentoxifylline group (5 cells/100 μm length [IQR 3–10 cells/100 μm length] and 1 cell/5,000 μm2 [IQR 1–3 cells/5,000 μm2], respectively) than in the high-VT group (14 cells/100 μm length [IQR 11–16 cells/100 μm length] and 9 cells/5,000 μm2 [IQR 8–12 cells/5,000 μm2], respectively).
CONCLUSIONS: Low VT with high PEEP was lung-protective, and early pentoxifylline reduced the inflammatory response to high VT with high PEEP (and presumed lung overdistention) during mechanical ventilation.
- mechanical ventilation
- pentoxifylline
- PEEP
- leukocyte-endothelial interactions
- intravital microscopy
- ventilator-induced lung injury
- tidal volume
- mesentery
Footnotes
- Correspondence: Naomi Kondo Nakagawa PT MSc PhD, Department of Physiotherapy, Communication Science and Disorders, and Occupational Therapy, Faculdade de Medicina da Universidade de São Paulo, LIM 34, Avenue Dr Arnaldo, 455 Room 1150, Cerqueira Cesar CEP, 01246-903 São Paulo, Brazil. E-mail: naomi.kondo{at}usp.br.
This study was partly supported by grant FAPESP 07/51605-9 from Fundação de Amparo à Pesquisa do Estado de São Paulo, São Paulo, Brazil.
The authors have disclosed no other conflicts of interest.
- Copyright © 2011 by Daedalus Enterprises Inc.