Abstract:
This paper presents the results of studies on the kinetics of nucleation and growth process of
crystals in solutions simulating the composition of human blood plasma. By using optical density, conductivity and
pH ranges of the identified properties of the system that simulates the blood plasma,
depending on the
supersaturation: 3–15, 15–30, 30–90. The order and the constant nucleation (n = 1.6; k = 88.61)
calcium phosphate forming in model solution of blood plasma. A comparison of model types
crystallization solutions for plasma systems with different initial supersaturation. And the
presence of octocalciumphospate calcium- deficient hydroxyapatite in the composition of the
sediment was found. It was found that when the
supersaturation changes the composition of the precipitate — calcium octophosphate in converted
into hydroxyapatite. The influence of some inorganic (magnesium ions) and organic (alanine and
glucose) additives
on the crystallization kinetics of human plasma prototype was shown.