Acid-Base Changes of the Thoracic Duct Lymph during Hypercapnia and an Estimation of Cellular Contribution to ECF Buffering Capacity

Abstract

During 90 min of spontaneous or controlled CO₂ breathing in splenectomized dogs, the acid-base parameter changes of the thoracic duct lymph were compared with those of the arterial and postcaval venous blood.(1) The lymph reached an apparent steady state in the acid-base parameters at least 10min after the blood.(2) The lymph bicarbonate concentration gradually increased almost in parallel with the lymph P_CO2 elevation, while the raised plasma bicarbonate concentration remained nearly unchanged until the end of CO₂ inhalation.(3) The in vivo buffer slope of the lymph increased strikingly within 10min, reaching three times the in vitro slope at 90min after inception of CO₂ breathing. After 10min, the lymph value became higher than the venous value, suggesting early cellular contribution to ECF buffering.(4) Considering the lymph values as representative of the interstitial fluid values, cellular contribution to ECF buffering was computed; they were 7.8, 15.6, and 10.7% in the spontaneously breathing group, and 8.9, 10.6, and 12.0% in the controlled ventilation group at 30, 60, and 90min of CO₂ breathing, respectively.