OPIE E L
J Exp Med. 1961 Feb 1;113(2):339-52. doi: 10.1084/jem.113.2.339.
Liver slices have been immersed during periods up to 4 hours at 38 degrees C. in Krebs-Ringer solution with bicarbonate buffer and exposed to varied oxygen supply in the presence of carbon dioxide equal to that of venous blood. Water movement, urea, and amino acid formation by the liver tissue have been measured. Water contents of surviving liver tissue diminishes with increased oxygen supply, but during life the maximum limit of oxygen is determined by that brought by the arterial blood and has an approximate partial pressure of 100 mm. Hg. Urea formation by liver slices is increased by increased oxygen supply but does not occur with anoxia. Osmotic pressure within liver cells is maintained in part by amino acids and related substances, and in part by electrolytes. Diminished osmotic pressure and loss of water is explainable by oxidation of nitrogenous substances with formation of urea which leaves the cells. These changes within a limited range of variation are adjustable to functional needs.
肝切片在38摄氏度下于含有碳酸氢盐缓冲液的克雷布斯-林格溶液中浸泡长达4小时,并在二氧化碳浓度与静脉血相等的情况下暴露于不同的氧气供应中。已对肝组织的水移动、尿素和氨基酸生成进行了测量。存活肝组织的含水量随着氧气供应的增加而减少,但在活体中,氧气的最大限量由动脉血带来的氧气决定,其分压约为100毫米汞柱。肝切片的尿素生成随着氧气供应的增加而增加,但在缺氧时不发生。肝细胞内的渗透压部分由氨基酸及相关物质维持,部分由电解质维持。渗透压降低和水分流失可通过含氮物质氧化形成尿素并离开细胞来解释。在有限的变化范围内,这些变化可根据功能需求进行调节。