TY - JOUR
T1 - Liquid Ventilation for Treatment of Meconium Aspiration Syndrome in a Piglet Model
AU - 郭, 啟昱
AU - Hsueh, Chuen
AU - 王, 超然
PY - 1998
Y1 - 1998
N2 - We tested the hypothesis that liquid ventilation (LV) with
perfluorocarbon (PFC) can remove aspirated meconium and improve lung
function in experimental meconium aspiration syndrome (MAS). PFC (FC-
77) was used as the medium in LV. Sixteen piglets were divided into control
and LV groups (8 animals/group). All animals received slurry meconium (20%
in normal saline) via endotracheal instillation at baseline. Thirty
minutes later, the LV group received 15 cycles of LV. Pulmonary mechanics,
arterial blood gases, and hemodynamic values were recorded at baseline,
and 30, 60, 120, 180, and 240 minutes after meconium instillation. Chest
radiographs and lung sections were taken and scored at the end of the study.
The percentage of meconium cleared by LV was calculated as the ratio of
the dry weight of washings to that of meconium instilled, multiplied by
100. The procedure was tolerated well by the animals. LV cleared 25%
±7% of the instilled meconium. Tidal volume (9.5±2.0 vs 7.1±0.8 mL/kg,
p=0.012), respiratory system compliance (2.32±0.60 vs 1.60±
0.24mL/cmH□O, p=0.01), PaO□ (65±7 torr vs 55±6 torr, p=0.0067), and
arterial to alveolar oxygen ratio (0.14±0.01 vs 0.12±0.01, p=0.0077)
were improved in the LV group at 60 minutes after meconium instillation
compared with those of the control group. The scores of exudative debris
(1.7±0.3 vs 2.1±0.2) and visible meconium (1.4±0.5 vs 2.1±0.5) were
significantly lower in the LV group. In conclusion, short-term LV with
FC-77 can partially remove aspirated meconium from the lungs and improve
pulmonary function transiently.
AB - We tested the hypothesis that liquid ventilation (LV) with
perfluorocarbon (PFC) can remove aspirated meconium and improve lung
function in experimental meconium aspiration syndrome (MAS). PFC (FC-
77) was used as the medium in LV. Sixteen piglets were divided into control
and LV groups (8 animals/group). All animals received slurry meconium (20%
in normal saline) via endotracheal instillation at baseline. Thirty
minutes later, the LV group received 15 cycles of LV. Pulmonary mechanics,
arterial blood gases, and hemodynamic values were recorded at baseline,
and 30, 60, 120, 180, and 240 minutes after meconium instillation. Chest
radiographs and lung sections were taken and scored at the end of the study.
The percentage of meconium cleared by LV was calculated as the ratio of
the dry weight of washings to that of meconium instilled, multiplied by
100. The procedure was tolerated well by the animals. LV cleared 25%
±7% of the instilled meconium. Tidal volume (9.5±2.0 vs 7.1±0.8 mL/kg,
p=0.012), respiratory system compliance (2.32±0.60 vs 1.60±
0.24mL/cmH□O, p=0.01), PaO□ (65±7 torr vs 55±6 torr, p=0.0067), and
arterial to alveolar oxygen ratio (0.14±0.01 vs 0.12±0.01, p=0.0077)
were improved in the LV group at 60 minutes after meconium instillation
compared with those of the control group. The scores of exudative debris
(1.7±0.3 vs 2.1±0.2) and visible meconium (1.4±0.5 vs 2.1±0.5) were
significantly lower in the LV group. In conclusion, short-term LV with
FC-77 can partially remove aspirated meconium from the lungs and improve
pulmonary function transiently.
KW - 小豬模式
KW - 液體呼吸
KW - 胎便吸入症候群
M3 - Journal Article
C2 - 9650467
SN - 0929-6646
VL - 97
SP - 392
EP - 399
JO - Journal of the Formosan Medical Association
JF - Journal of the Formosan Medical Association
IS - 6
ER -