Abstract
Recent studies have reviewed the significance of recognizing toxic granulation in neutrophils, a critical morphological change in sepsis, reflecting the immune system's acute response to infection. Toxic granules, dark cytoplasmic granules, arise from accelerated neutrophil maturation under cytokine stimulation, especially granulocyte colony-stimulating factor (G-CSF). Their presence correlates with disease severity and inflammatory markers like C-reactive protein (CRP) and procalcitonin. Toxic granules often appear alongside Döhle bodies and cytoplasmic vacuolization, forming a broader "toxic change" profile. Persistent or severe toxic granulation may indicate a poor prognosis. While commonly associated with sepsis, similar features can occur with G-CSF therapy or bone marrow recovery, highlighting the need for contextual interpretation. Efforts are underway to standardize grading and integrate automated image analysis to improve diagnostic value. Toxic granulation remains a simple yet useful tool for early sepsis recognition, especially when combined with clinical and laboratory data. It reinforces the continued relevance of peripheral blood smear analysis in modern diagnostics.