TY - JOUR
T1 - Measurement of cardiopulmonary function by rebreathing methodology in piglets
AU - Mentz, William M.
AU - Lawson, Edward E.
AU - Friedman, Mitchell
PY - 1984/11
Y1 - 1984/11
N2 - The use of a multiple gas rebreathing method for the measurement of cardiopulmonary function in mechanically ventilated neonates was evaluated. The following indices of cardiopulmonary function were assessed in 20 piglets (mean weight, 2.3 kg): 1) pulmonary capillary blood flow (Q c), 2) diffusing capacity for carbon monoxide (DL co), 3) lung gas volume (FRC), 4) oxygen consumption (Vo 2), and 5) volume of the pulmonary tissues and capillaries (VTPC), the latter an estimate of total lung water. During mechanical ventilation at zero end expiratory pressure, all rebreathing parameters correlated well with body weight. Additionally, a good correlation (r = 0.81, slope = 0.99) between VTPC and postmortem estimate of total lung water was observed. The effect of ventilation with positive end expiratory pressure (PEEP) was then studied in 10 piglets. On increasing PEEP from zero to 15 cm H20, FRC significantly increased by 208%, Qc significantly decreased by 60%, and no changes in VTPC occurred. Seven piglets were then studied after induction of lung injury by oleic acid infusion. Compared with the pre-oleic acid infusion values, all the rebreathing variables decreased during ventilation without PEEP. Unlike the situation with the normal piglets, when PEEP was increased from zero to 10 cm H2 O in the oleic acid-infused piglets, the values for FRC and VTPC significantly increased. Mean VTPC at 10 cm H2 O was 20 ± 2 ml/kg which correlated well (r = 0.93) with the postmortem total lung water value of 19 ± 1 g/kg. Thus, multiple gas rebreathing methodology is applicable to studies using Small animals. The observation that the applicartion of PEEP in lung injury increased the accuracy of the VIPC measurement suggests that PEEP improves ventilation of injured lung segments.
AB - The use of a multiple gas rebreathing method for the measurement of cardiopulmonary function in mechanically ventilated neonates was evaluated. The following indices of cardiopulmonary function were assessed in 20 piglets (mean weight, 2.3 kg): 1) pulmonary capillary blood flow (Q c), 2) diffusing capacity for carbon monoxide (DL co), 3) lung gas volume (FRC), 4) oxygen consumption (Vo 2), and 5) volume of the pulmonary tissues and capillaries (VTPC), the latter an estimate of total lung water. During mechanical ventilation at zero end expiratory pressure, all rebreathing parameters correlated well with body weight. Additionally, a good correlation (r = 0.81, slope = 0.99) between VTPC and postmortem estimate of total lung water was observed. The effect of ventilation with positive end expiratory pressure (PEEP) was then studied in 10 piglets. On increasing PEEP from zero to 15 cm H20, FRC significantly increased by 208%, Qc significantly decreased by 60%, and no changes in VTPC occurred. Seven piglets were then studied after induction of lung injury by oleic acid infusion. Compared with the pre-oleic acid infusion values, all the rebreathing variables decreased during ventilation without PEEP. Unlike the situation with the normal piglets, when PEEP was increased from zero to 10 cm H2 O in the oleic acid-infused piglets, the values for FRC and VTPC significantly increased. Mean VTPC at 10 cm H2 O was 20 ± 2 ml/kg which correlated well (r = 0.93) with the postmortem total lung water value of 19 ± 1 g/kg. Thus, multiple gas rebreathing methodology is applicable to studies using Small animals. The observation that the applicartion of PEEP in lung injury increased the accuracy of the VIPC measurement suggests that PEEP improves ventilation of injured lung segments.
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U2 - 10.1203/00006450-198411000-00023
DO - 10.1203/00006450-198411000-00023
M3 - Article
C2 - 6393026
AN - SCOPUS:0021707408
SN - 0031-3998
VL - 18
SP - 1167
EP - 1172
JO - Pediatric research
JF - Pediatric research
IS - 11
ER -