BACKGROUND: The ability to deform is important for circulating RBCs in vivo, and earlier studies showed that this property can objectively be measured in vitro by the LORCA. In this study it was investigated whether photodynamic treatment of human RBCs (meant to inactivate contaminating pathogens) affects deformability. STUDY DESIGN AND METHODS: WBC-reduced RBC suspensions (30% Hct) were treated with 1,9-dimethylmethylene blue (DMMB) and red light. Changes in deformability were analyzed by LORCA measurements, in which elongation of the cells is measured at increasing shear stress. The effect of DMMB concentration and light dose was determined as well as the interfering effect of two scavengers of reactive oxygen species, that is, dipyridamole and Trolox. RESULTS: Photodynamic treatment with DMMB resulted in clear changes in RBC deformability. Deformability changes occurred before onset of hemolysis. Under relatively mild treatment conditions, especially deformability at low shear stress was decreased, whereas deformability changes at high shear stress only occurred under harsher treatment conditions. Inclusion of dipyridamole and/or Trolox primarily prevented deformability changes at high shear stress. CONCLUSION: LORCA measurements can effectively be used to detect changes in deformability that are induced by photodynamic treatment of human RBCs. A change in deformability represents an early marker of RBC damage under these conditions.
BACKGROUND: The ability to deform is important for circulating RBCs in vivo, and earlier studies showed that this property can objectively be measured in vitro by the LORCA. In this study it was investigated whether photodynamic treatment of human RBCs (meant to inactivate contaminating pathogens) affects deformability. STUDY DESIGN AND METHODS: WBC-reduced RBC suspensions (30% Hct) were treated with 1,9-dimethylmethylene blue (DMMB) and red light. Changes in deformability were analyzed by LORCA measurements, in which elongation of the cells is measured at increasing shear stress. The effect of DMMB concentration and light dose was determined as well as the interfering effect of two scavengers of reactive oxygen species, that is, dipyridamole and Trolox. RESULTS: Photodynamic treatment with DMMB resulted in clear changes in RBC deformability. Deformability changes occurred before onset of hemolysis. Under relatively mild treatment conditions, especially deformability at low shear stress was decreased, whereas deformability changes at high shear stress only occurred under harsher treatment conditions. Inclusion of dipyridamole and/or Trolox primarily prevented deformability changes at high shear stress. CONCLUSION: LORCA measurements can effectively be used to detect changes in deformability that are induced by photodynamic treatment of human RBCs. A change in deformability represents an early marker of RBC damage under these conditions.
Authors: Marcel H A M Fens; Richard van Wijk; Grietje Andringa; Karlijn L van Rooijen; Hilde M Dijstelbloem; Jan T Rasmussen; Karen M K de Vooght; Raymond M Schiffelers; Carlo A J M Gaillard; Wouter W van Solinge Journal: Haematologica Date: 2011-11-18 Impact factor: 9.941
Authors: Elliott Bennett-Guerrero; Tim H Veldman; Allan Doctor; Marilyn J Telen; Thomas L Ortel; T Scott Reid; Melissa A Mulherin; Hongmei Zhu; Raymond D Buck; Robert M Califf; Timothy J McMahon Journal: Proc Natl Acad Sci U S A Date: 2007-10-11 Impact factor: 11.205
Authors: Benjamin Czaja; Mario Gutierrez; Gábor Závodszky; David de Kanter; Alfons Hoekstra; Omolola Eniola-Adefeso Journal: PLoS Comput Biol Date: 2020-03-12 Impact factor: 4.475