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  • Title: Relative contribution of intrinsic lung dysfunction and hypoventilation to hypoxemia during hemodialysis.
    Author: Blanchet F, Kanfer A, Cramer E, Benyahia A, Georges R, Méry JP, Amiel C.
    Journal: Kidney Int; 1984 Oct; 26(4):430-5. PubMed ID: 6527471.
    Abstract:
    Two mechanisms have been proposed to explain hemodialysis (HD)-induced hypoxemia: reversible lung damage due to intrapulmonary leukostasis as a consequence of the contact of blood with the dialyzer membrane, or alveolar hypoventilation due to the loss of carbon dioxide through the dialyzer. To assess the role of these factors, seven chronically uremic patients were studied before and during 4-hr HD sessions using a cuprophane membrane and either acetate (AHD) or bicarbonate (BHD) dialysate. In AHD only we observed, by comparison with predialysis values, a significant hypoxemia, and a decrease of alveolar ventilation (VA), lung carbon dioxide output, and respiratory exchange ratio. In both the AHD hypoxemic group and BHD nonhypoxemic group, there was a similar decrease in lung carbon dioxide diffusing capacity (DLCO) and of white blood cells (WBC), and a positive correlation between arterial oxygen pressure and VA without modification of alveolo arterial PO2 difference, an argument against the existence of ventilation-perfusion or ventilation-diffusion mismatching. We conclude that, although WBC sequestration induced a lung damage evidenced by DLCO impairment, the key factor of hypoxemia observed in AHD was the hypoventilation.
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