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Selective Assessment of Single-Lung Graft Function With 133Xe Radiospirometry in Acute Rejection and Infection

1996; Elsevier BV; Volume: 109; Issue: 4 Linguagem: Inglês

10.1378/chest.109.4.879

1931-3543

Tuija Ikonen, Ari Harjula, Vuokko L. Kinnula, Jukka Savola, Anssi Sovijärvi,

Respiratory viral infections research

In single-lung transplant recipients, the usefulness of spirometric indexes in detecting acute events involving the lung graft is limited due to the bias caused by the native lung. Selective functional monitoring is needed for the proper evaluation of complications after transplantation, but thus far, to our knowledge, no clinically feasible methods for selective graft-function assessment have been presented. In ten single-lung recipients, of whom six had a parenchymal lung disease and four had pulmonary hypertension, the relative ventilation ( V ˙ tx ), perfusion (Qtx), and ventilation/perfusion ratio of the transplanted lung ( V ˙ / Q ˙ tx ) were determined with multidetector 133Xe radiospirometry. Additionally, the fractions of FEV1, FVC, and diffusing capacity for carbon monoxide (Dco) of the transplant (FEV1tx, FVCtx, Dcotx, respectively) were determined by using corresponding radiospirometric parameters for the calculation of their distribution between the lungs. The analysis included seven episodes of acute rejection and nine episodes of infection. The Q ˙ tx decreased during acute rejection but did not change during infection (p=0.001). Compared with the figures during infection, the V ˙ / Q ˙ tx increased during acute rejection significantly (p<0.05) in patients with underlying fibrosis or emphysema, but not in those with pulmonary hypertension. In detection of acute events, the sensitivity of the selective parameters, ie, FEV1tx (86%) and FVCtx (73%), was higher than that of the sum-function parameters, FEV1 (66%) and FVC (40%). Moreover, the sensitivity of Dcotx (80%) was higher than that of Dco (60%) in detecting acute rejection. The findings indicate that, in single-lung recipients with a parenchymal lung disease, the assessment of Q ˙ tx , V ˙ / Q ˙ tx , and Dcotx with a radioactive tracer can help to distinguish acute rejection from infection. The graft-selective parameters, ie, FEV1tx, FVCtx, and Dcotx, tended to be more sensitive than the corresponding sum-function parameters in detecting acute events, thus providing a more accurate functional profile of the single-lung graft. In single-lung transplant recipients, the usefulness of spirometric indexes in detecting acute events involving the lung graft is limited due to the bias caused by the native lung. Selective functional monitoring is needed for the proper evaluation of complications after transplantation, but thus far, to our knowledge, no clinically feasible methods for selective graft-function assessment have been presented. In ten single-lung recipients, of whom six had a parenchymal lung disease and four had pulmonary hypertension, the relative ventilation ( V ˙ tx ), perfusion (Qtx), and ventilation/perfusion ratio of the transplanted lung ( V ˙ / Q ˙ tx ) were determined with multidetector 133Xe radiospirometry. Additionally, the fractions of FEV1, FVC, and diffusing capacity for carbon monoxide (Dco) of the transplant (FEV1tx, FVCtx, Dcotx, respectively) were determined by using corresponding radiospirometric parameters for the calculation of their distribution between the lungs. The analysis included seven episodes of acute rejection and nine episodes of infection. The Q ˙ tx decreased during acute rejection but did not change during infection (p=0.001). Compared with the figures during infection, the V ˙ / Q ˙ tx increased during acute rejection significantly (p<0.05) in patients with underlying fibrosis or emphysema, but not in those with pulmonary hypertension. In detection of acute events, the sensitivity of the selective parameters, ie, FEV1tx (86%) and FVCtx (73%), was higher than that of the sum-function parameters, FEV1 (66%) and FVC (40%). Moreover, the sensitivity of Dcotx (80%) was higher than that of Dco (60%) in detecting acute rejection. The findings indicate that, in single-lung recipients with a parenchymal lung disease, the assessment of Q ˙ tx , V ˙ / Q ˙ tx , and Dcotx with a radioactive tracer can help to distinguish acute rejection from infection. The graft-selective parameters, ie, FEV1tx, FVCtx, and Dcotx, tended to be more sensitive than the corresponding sum-function parameters in detecting acute events, thus providing a more accurate functional profile of the single-lung graft.