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. 2009 Apr 21;42(3):330–338. doi: 10.1111/j.1365-2184.2009.00598.x

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© 2009 The Authors. Journal compilation © 2009 Blackwell Publishing Ltd

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Schematic representation of the mechanism of cyclic neutropenia. Myeloid precursors that express mutated ELA2 have a higher ε (ε^CN > ε, upper panel); their self‐renewal capability is therefore reduced and downstream compartments have less cells, due to decreased net output from the compartment where the defect is phenotypically present. The lower neutrophil count increases G‐CSF level. The organism responds to this increase of G‐CSF by reducing ε in progenitor cells (ε^G < ε, lower panel). Downstream compartments are replenished and neutrophil output increases. This higher neutrophil count will decrease levels of G‐CSF; progenitor cell self‐renewal decreases and the cycle repeats itself. Therapy with G‐CSF ensures that neutrophil counts do not fall beneath a critical level.