Abstract
Application of Nanotechnology for the Preservation of Red Blood Cells
Highlights
Materials and MethodsMaterials: 1. Standardized intracorporeal nanobiocorrector of ICNB was taken as nanoparticles
This study was devoted to the learning of the use of nanotechnology to correct the functional activity of red blood cells (RBCs) at the storage stages at a positive temperature
Following the logic of the above reasoning, if improving sedimentation stability of RBC is associate with an increase in adenosine threephosphate (ATP), the isotonic solution which previously was processed by ICNB should actively stabilize the membranes of RBCs and inhibit hemolysis
Summary
Materials: 1. Standardized intracorporeal nanobiocorrector of ICNB was taken as nanoparticles. Standardized intracorporeal nanobiocorrector of ICNB was taken as nanoparticles. The main physics and chemical properties of ICNB the following data and in Tables 1-4; Figures 1,2 were presented:. Concentration of the colloidal solution of magnetite nanoparticles in physiology solution of NaCl is 0.0225%. Phases (method of corundum numbers) magnetite low magnetite low, syn (hexagonal). 3. 0.9% NaCl solution which previously was processed by ICNB in ratio 4:1. Red blood cells (RBCs) into bags containing anticoagulant citrate, nutrient phosphate and dextrose (CPD);. Red blood cells (RBCs) into bags containing anticoagulant citrate, nutrient phosphate, dextrose and adenine (CPDA-1)
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