Single-cell modeling of routine clinical blood tests reveals transient dynamics of human response to blood loss

We present an approach for modeling the unsteady-state population dynamics of the human response to controlled blood loss using these clinical measurements of single-red blood cell (RBC) volume and hemoglobin. We find that the response entails (1) increased production of new RBCs earlier than is currently detectable clinically and (2) a previously unrecognized decreased RBC turnover. Both component responses offset the loss of blood. The model provides a personalized dimensionless ratio that quantifies the balance between increased production and delayed clearance for each individual and may enable earlier detection of both blood loss and the response it elicits.
Source: eLife - Category: Biomedical Science Tags: Computational and Systems Biology Human Biology and Medicine Source Type: research