Investigating the effect of a platelet additive solution on apheresis platelet and fibrin network ultrastructure

Pretorius, Etheresia; Crookes, Robert; Oberholzer, Hester Magdalena; Spuy, Wendy Jeannette Van der

doi:10.1016/j.transci.2010.10.002

Transfusion and Apheresis Science

2010

DOI: 10.1016/j.transci.2010.10.002

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Investigating the effect of a platelet additive solution on apheresis platelet and fibrin network ultrastructure

Etheresia Pretorius

Robert Crookes

Hester Magdalena Oberholzer

et al.

Abstract: a b s t r a c tIn thrombotic events and diseases such as cancer, HIV/AIDS, dysfibrinogenaemia, as well as acute incidents (e.g. burn wounds), ultrastructure of platelets and fibrin networks change. In the current study, we compare the ultrastructure of platelets and fibrin networks of apheresis platelets stored in citrated human plasma (CP) and in a first-generation platelet additive solution (PAS) (T-Sol), to that of fresh donor plasma (FP). Eighteen apheresis platelet donors donated platelets on Trima Ò -Acc… Show more

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2011

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Quantifying Changes in Fibrin Fiber Network Morphology

Pretorius

2011

Ultrastructural Pathology

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During blood clotting, thrombin and fibrinogen interact, whereby thrombin cleaves the fibrinogen molecule into two peptides, the fibrinopeptides, ultimately forming fibrin monomers. These fibrinogen monomers assemble to form a fibrin network that may be studied using ultrastructural techniques. This study investigates the use of a grid, placed onto a micrograph, to quantify changes in morphology. The fibrin fiber micrographs of a healthy donor were compared to a database of donors and were shown to be a true representative of a typical healthy individual. Eighteen micrographs of this single donor were taken at 40,000× machine magnification, and a grid was placed over the micrographs. The grid dimensions were calculated by using the scale bar inserted onto the micrograph. Each grid block was equal to 0.5 by 0.5 µm for a total grid area of 28 µm(2). A percentage changed fibrin fiber morphology was then calculated for each 28 µm(2) of fibrin clot produced in the laboratory. It is concluded that this effortless and simple grid technique to quantify changes in ultrastructure of fibrin clot morphology may provide a method to statistically quantify changes in fibrin fiber ultrastructure when studying conditions affecting hemostasis.

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Quantifying Changes in Fibrin Fiber Network Morphology

Pretorius

2011

Ultrastructural Pathology

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Investigating the effect of a platelet additive solution on apheresis platelet and fibrin network ultrastructure

Cited by 1 publication

References 8 publications

Quantifying Changes in Fibrin Fiber Network Morphology

Quantifying Changes in Fibrin Fiber Network Morphology

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