Dubin A, Estenssoro E, Murias G, Canales H, Sottile P, Badie J, Barán M, Pálizas F, Laporte M, Rivas Díaz M
Cátedra de Farmacología, Facultad de Ciencias Médicas, Universidad Nacional de La Plata, calle 42 No 577, (1900) La Plata, Argentina.
Intensive Care Med. 2001 Dec;27(12):1931-6. doi: 10.1007/s00134-001-1138-9. Epub 2001 Nov 10.
(1) To demonstrate that metabolic parameters are better indicators of tissue hypoxia than regional and whole oxygen consumption (VO(2)). (2) To compare intramucosal pH (pHi) in different gastrointestinal segments.
Prospective, interventional study.
Research laboratory at a university center.
Fourteen anesthetized, mechanically ventilated dogs.
Twenty milliliters per kilogram bleeding.
We placed pulmonary, aortic and mesenteric venous catheters, and an electromagnetic flow probe in the superior mesenteric artery, and gastric, jejunal and ileal tonometers to measure flows, arterial and venous blood gases and lactate, and intramucosal PCO(2). We calculated systemic and intestinal oxygen transport (DO(2)) and consumption (VO(2)), pHi and arterial minus intramucosal PCO(2) (DeltaPCO(2)). Then, we bled the dogs and repeated the measurements after 30 min. Systemic and intestinal DO(2) fell (26.0+/-7.3 versus 8.9+/-2.6 and 71.9+/-17.3 versus 24.6+/-9.6 ml/min per kg, respectively, p<0.0001). Systemic and intestinal VO(2) remained unchanged (5.5+/-1.3 versus 5.4+/-1.3 and 15.7+/-5.0 versus 14.9+/-5.3 ml/min per kg, respectively). Gastric, jejunal and ileal pHi (7.13+/-0.11 versus 6.96+/-0.17, 7.18+/-0.06 versus 6.97+/-0.15, 7.12+/-0.11 versus 6.94+/-0.14, p<0.05) and DeltaPCO(2) (21+/-13 versus 35+/-23, 15+/-5 versus 33+/-16, 23+/-17 versus 38+/-20, p<0.05) changed accordingly. Arterial and mesenteric venous lactate and their difference, rose significantly (1.7+/-0.9 versus 3.7+/-1.4 and 1.8+/-0.8 versus 4.3+/-1.5 mmol/l, 0.1+/-0.6 versus 0.6+/-0.7 mmol/l, p<0.05).
During hemorrhage, systemic and intestinal VO(2) remained stable. However, hyperlactatemia and intramucosal acidosis evidenced anaerobic metabolism. pHi changes paralleled in the three intestinal segments.
(1)证明代谢参数比局部和整体氧耗(VO₂)更能准确反映组织缺氧情况。(2)比较不同胃肠道节段的黏膜内pH值(pHi)。
前瞻性干预研究。
大学中心的研究实验室。
14只麻醉状态下接受机械通气的犬。
每千克体重放血20毫升。
我们在犬体内放置了肺动脉、主动脉和肠系膜静脉导管,以及置于肠系膜上动脉的电磁血流探头,还有胃、空肠和回肠张力计,用于测量血流、动脉和静脉血气、乳酸以及黏膜内PCO₂。我们计算了全身和肠道的氧输送(DO₂)、氧消耗(VO₂)、pHi以及动脉血与黏膜内PCO₂的差值(ΔPCO₂)。然后,对犬进行放血,并在30分钟后重复测量。全身和肠道的DO₂下降(分别为26.0±7.3对8.9±2.6以及71.9±17.3对24.6±9.6毫升/分钟·千克,p<0.0001)。全身和肠道的VO₂保持不变(分别为5.5±1.3对5.4±1.3以及15.7±5.0对14.9±5.3毫升/分钟·千克)。胃、空肠和回肠的pHi(7.13±0.11对6.96±0.17、7.18±0.06对6.97±0.15、7.12±0.11对6.94±0.14,p<0.05)和ΔPCO₂(21±13对35±23、15±5对33±16、23±17对38±20,p<0.05)相应改变。动脉血和肠系膜静脉血中的乳酸及其差值显著升高(1.7±0.9对3.7±1.4以及1.8±0.8对4.3±1.5毫摩尔/升,0.1±0.6对0.6±0.7毫摩尔/升,p<0.05)。
出血期间,全身和肠道的VO₂保持稳定。然而,高乳酸血症和黏膜内酸中毒表明存在无氧代谢。三个肠道节段的pHi变化相似。
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