AI Article Synopsis
- - Newly emerging research indicates that neutrophil defense mechanisms can both worsen and protect against malaria, highlighting the importance of their balance in the body for disease outcomes.
- - This study focused on the responses of neutrophils and T cells in two mouse strains infected with different types of malaria, revealing increased neutrophil percentages and neutrophil-T cell ratios before symptoms of severe malaria appeared.
- - The findings suggest that monitoring neutrophil and T cell dynamics could potentially help predict the progression and severity of cerebral malaria, enhancing our understanding of the disease's development.
Article Abstract
Newly emerging data suggest that several neutrophil defense mechanisms may play a role in both aggravating and protecting against malaria. These exciting findings suggest that the balance of these cells in the host body may have an impact on the pathogenesis of malaria. To fully understand the role of neutrophils in severe forms of malaria, such as cerebral malaria (CM), it is critical to gain a comprehensive understanding of their behavior and functions. This study investigated the dynamics of neutrophil and T cell responses in C57BL/6 and BALB/c mice infected with ANKA, murine models of experimental cerebral malaria (ECM) and non-cerebral experimental malaria, respectively. The results demonstrated an increase in neutrophil percentage and neutrophil-T cell ratios in the spleen and blood before the development of clinical signs of ECM, which is a phenomenon not observed in the non-susceptible model of cerebral malaria. Furthermore, despite the development of distinct forms of malaria in the two strains of infected animals, parasitemia levels showed equivalent increases throughout the infection period evaluated. These findings suggest that the neutrophil percentage and neutrophil-T cell ratios may be valuable predictive tools for assessing the dynamics and composition of immune responses involved in the determinism of ECM development, thus contributing to the advancing of our understanding of its pathogenesis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10379066 | PMC |
| http://dx.doi.org/10.3390/ijms241411332 | DOI Listing |
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Article Synopsis
- Malaria has surged in sub-Saharan Africa due to disruptions from the Covid-19 pandemic, leading to severe cases like cerebral malaria and acute kidney injury.
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- Successful treatment included intravenous artesunate and hemodialysis, and the patient was discharged after 20 days, highlighting the need for quick diagnosis and effective management of malaria complications.
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