Riccardo Colombo, Maddalena Alessandra Wu, Antonio Castelli, Tommaso Fossali, Roberto Rech, Davide Ottolina, Chiara Cogliati, Emanuele Catena
Journal of critical care 2020 JunIdiopathic Systemic Capillary Leak Syndrome (ISCLS) is a paroxysmal permeability disorder characterized by abrupt onset of shock and hemoconcentration due to massive shift of fluids and proteins from the intravascular to the interstitial compartment. We hypothesize that increased hemoglobin concentration has a pivotal role in the acid-base imbalance during life-threatening crises. Analysis of the acid-base balance fluctuations during six severe ISCLS flares admitted to ICU of a referral center for ISCLS. Acid-base equilibrium was assessed for plasma and the whole blood by single and multicompartmental models. The acute phase of ISCLS was characterized by shock, hypoalbuminemia, severe hemoconcentration, and acidosis. The physical-chemical approach for plasma found a remarkable component of unmeasured anions (SIG) during the acute phase. After correction of the physical-chemical model for the whole blood, the SIG variations disappeared because the buffer role of hemoglobin was relevant. Hemoglobin has a remarkable role in buffering metabolic acidosis during the shock phase of ISCLS. In these circumstances, the assessment of acid-base equilibrium in plasma alone may overestimate unmeasured anions. On the contrary, the physical-chemical model corrected for whole blood better explains the metabolic component of acid-base imbalance when marked shift of hemoglobin concentration occurs. Copyright © 2020 Elsevier Inc. All rights reserved.
Riccardo Colombo, Maddalena Alessandra Wu, Antonio Castelli, Tommaso Fossali, Roberto Rech, Davide Ottolina, Chiara Cogliati, Emanuele Catena. The effects of severe hemoconcentration on acid-base equilibrium in critically ill patients: the forgotten role of buffers in whole blood. Journal of critical care. 2020 Jun;57:177-184
PMID: 32171088
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