Your search keyword '"Monchamp, Karamoja"' showing total 2 results

1. Antithrombin‐III mitigates thrombin‐mediated endothelial cell contraction and sickle red blood cell adhesion in microscale flow.

Author

Wulftange, William J., Kucukal, Erdem, Man, Yuncheng, An, Ran, Monchamp, Karamoja, Sevrain, Charlotte D., Dashora, Himanshu R., Owusu‐Ansah, Amma T., Bode, Allison, Ilich, Anton, Little, Jane A., Key, Nigel S., and Gurkan, Umut A.

Subjects

ERYTHROCYTES, CELL contraction, ENDOTHELIAL cells, CELL adhesion molecules, CELL adhesion, VASCULAR cell adhesion molecule-1, DENTAL adhesives

Abstract

Summary: Individuals with sickle cell disease (SCD) have persistently elevated thrombin generation that results in a state of systemic hypercoagulability. Antithrombin‐III (ATIII), an endogenous serine protease inhibitor, inhibits several enzymes in the coagulation cascade, including thrombin. Here, we utilize a biomimetic microfluidic device to model the morphology and adhesive properties of endothelial cells (ECs) activated by thrombin and examine the efficacy of ATIII in mitigating the adhesion of SCD patient‐derived red blood cells (RBCs) and EC retraction. Microfluidic devices were fabricated, seeded with ECs, and incubated under physiological shear stress. Cells were then activated with thrombin with or without an ATIII pretreatment. Blood samples from subjects with normal haemoglobin (HbAA) and subjects with homozygous SCD (HbSS) were used to examine RBC adhesion to ECs. Endothelial cell surface adhesion molecule expression and confluency in response to thrombin and ATIII treatments were also evaluated. We found that ATIII pretreatment of ECs reduced HbSS RBC adhesion to thrombin‐activated endothelium. Furthermore, ATIII mitigated cellular contraction and reduced surface expression of von Willebrand factor and vascular cell adhesion molecule‐1 (VCAM‐1) mediated by thrombin. Our findings suggest that, by attenuating thrombin‐mediated EC damage and RBC adhesion to endothelium, ATIII may alleviate the thromboinflammatory manifestations of SCD. [ABSTRACT FROM AUTHOR]

Published

2022

2. OcclusionChip: A functional microcapillary occlusion assay complementary to ektacytometry for detection of small-fraction red blood cells with abnormal deformability.

Author

Yuncheng Man, An, Ran, Monchamp, Karamoja, Sekyonda, Zoe, Kucukal, Erdem, Federici, Chiara, Wulftange, William J., Goreke, Utku, Bode, Allison, Sheehan, Vivien A., and Gurkan, Umut A.

Subjects

ERYTHROCYTES, SICKLE cell trait, SICKLE cell anemia, STEM cell transplantation, HEMATOPOIETIC stem cells

Abstract

Red blood cell (RBC) deformability is a valuable hemorheological biomarker that can be used to assess the clinical status and response to therapy of individuals with sickle cell disease (SCD). RBC deformability has been measured by ektacytometry for decades, which uses shear or osmolar stress. However, ektacytometry is a population based measurement that does not detect small-fractions of abnormal RBCs. A single cell-based, functional RBC deformability assay would complement ektacytometry and provide additional information. Here, we tested the relative merits of the OcclusionChip, which measures RBC deformability by microcapillary occlusion, and ektacytometry. We tested samples containing glutaraldehyde-stiffened RBCs for up to 1% volume fraction; ektacytometry detected no significant change in Elongation Index (EI), while the OcclusionChip showed significant differences in Occlusion Index (OI). OcclusionChip detected a significant increase in OI in RBCs from an individual with sickle cell trait (SCT) and from a subject with SCD who received allogeneic hematopoietic stem cell transplant (HSCT), as the sample was taken from normoxic (pO2:159 mmHg) to physiologic hypoxic (pO2:45 mmHg) conditions. Oxygen gradient ektacytometry detected no difference in EI for SCT or HSCT. These results suggest that the single cellbased OcclusionChip enables detection of sickle hemoglobin (HbS)-related RBC abnormalities in SCT and SCD, particularly when the HbS level is low. We conclude that the OcclusionChip is complementary to the population based ektacytometry assays, and providing additional sensitivity and capacity to detect modest abnormalities in red cell function or small populations of abnormal red cells. [ABSTRACT FROM AUTHOR]

Published

2022