Jefferies A L, Hamilton P, O'Brodovich H M
J Appl Physiol Respir Environ Exerc Physiol. 1983 Nov;55(5):1373-8. doi: 10.1152/jappl.1983.55.5.1373.
We investigated the effect of high-frequency oscillation (HFO) on lung lymphatic function under normal conditions and when lung lymph flow was increased by air microembolization. In six experiments, sheep and goats with chronic lung lymph fistulas and vascular catheters were anesthetized, paralyzed, intubated, and ventilated according to the following protocol: 1) intermittent positive-pressure ventilation (IPPV) for 1 h, 2) HFO with a frequency of 15 Hz and an estimated tidal volume of 1-2 ml/kg for 1-2 h, and 3) IPPV for 0.5 h. Ventilator settings were adjusted to maintain arterial Po2 above 100 Torr and a normal arterial Pco2. Vascular, esophageal, and mean airway pressures were monitored continuously. Lymph flow and cardiac output were recorded every 15 min. With this protocol, there were no changes in pulmonary vascular or esophageal pressures, and lymph flow remained stable throughout the experiment. In an additional five experiments, air microemboli were infused for approximately 30 min during HFO. Left atrial pressure was unchanged and lymph flow tripled. This response was qualitatively and quantitatively similar to that previously reported for unanesthetized spontaneously breathing sheep. We conclude that HFO does not impair lymphatic function under resting conditions and that lymphatics retain their ability to increase water and protein clearance during HFO.
我们研究了高频振荡(HFO)在正常条件下以及肺淋巴流量因空气微栓塞而增加时对肺淋巴功能的影响。在六个实验中,对患有慢性肺淋巴瘘和血管导管的绵羊和山羊进行麻醉、麻痹、插管,并按照以下方案进行通气:1)间歇正压通气(IPPV)1小时,2)频率为15Hz、估计潮气量为1 - 2ml/kg的HFO通气1 - 2小时,3)IPPV通气0.5小时。调整呼吸机设置以维持动脉血氧分压高于100托和正常的动脉血二氧化碳分压。持续监测血管、食管和平均气道压力。每15分钟记录一次淋巴流量和心输出量。按照此方案,肺血管或食管压力没有变化,并且在整个实验过程中淋巴流量保持稳定。在另外五个实验中,在HFO期间注入空气微栓约30分钟。左心房压力未改变,淋巴流量增加了两倍。这种反应在定性和定量上与先前报道的未麻醉自主呼吸绵羊的反应相似。我们得出结论,在静息条件下HFO不会损害淋巴功能,并且在HFO期间淋巴管保持其增加水和蛋白质清除的能力。
