A simple non-invasive method to detect and monitor hypercapnia: the sodium [13C]bicarbonate breath test.

Arterial partial pressure of carbon dioxide (paCO(2)) is commonly evaluated by an invasive test, the arterial blood gas analysis (ABG). The sodium [(13)C]bicarbonate breath test (SBT) can potentially estimate arterial paCO(2). We studied 55 subjects with respiratory disorders and performed the ABG and the SBT to determine if the SBT can predict hypercapnia. The percentage of (13)CO(2) recovered in exhaled breath at 30 minutes (PDR(30)) alone was able to discriminate clinically significant hypercapnia (>53 mmHg) with a sensitivity of 82 % and specificity of 93 % (p<0.001). To evaluate the clinical utility of the SBT as a non-invasive substitute to repeated ABG, we monitored the progress of seven chronic obstructive pulmonary disease (COPD) patients on therapy with both the ABG and the SBT. The PDR(30) values from the SBT were able to correctly predict improvement or worsening of paCO(2) with 100 % accuracy. In conclusion, the SBT is a simple test that can be used in clinical practice to detect clinically significant hypercapnia and monitor COPD patients before and after therapy.

L-[1-(13)C] phenylalanine breath test for monitoring hepatic function after living donor liver transplant surgery.

Although metabolic response after partial hepatectomy has been well studied in animal models, there are few studies examining restoration of metabolic capacity after right hepatectomy in humans. The L-[1-(13)C]-phenylalanine breath test (PBT) is a simple non-invasive diagnostic tool which allows measurement of liver functional reserve. We investigated the PBT for monitoring hepatic function in living liver donors by measuring the metabolism of L-[1-(13)C]-phenylalanine ((13)C-Phe). We used (13)C-Phe administered orally and iv to adult living liver donor patients and measured exhaled (13)CO(2) to determine the extent of metabolic impairment and time course of its return. Patients given oral (13)C-Phe had approximately 70-90% reduction in (13)CO(2) production compared with baseline 2-3 days after surgery. Patients given iv (13)C-Phe had only 40-50% reduction in (13)CO(2) production and recovered their baseline (13)C-Phe metabolism much sooner than their oral (13)C-Phe metabolic capacity (P < 0.05). In some cases oral (13)C-Phe did not recover to baseline for as long as 56 days after surgery. Patients recovering (13)C-Phe metabolism had significantly higher (13)CO(2) recovery 60 min after ingestion by day 4 (0.97 versus 3.06, P = 0.033) and day 7 (1.50 versus 5.02, P = 0.031). We conclude that orally administered amino acids may not be well absorbed and/or metabolized in some subjects for weeks after partial hepatectomy whereas intravenously delivered substrates are much better oxidized by the regenerating liver. These findings may be due to impaired gut motility due to trauma to the gastrointestinal tract or portal venous flow that reduces delivery of oral agents after liver surgery. In early recovery phase for living liver donor patients, the iv PBT would be a better predictor of functional hepatic reserve.