Kidney stones consist of various organic, inorganic and semi-organic
compounds. Mineral oxalate monohydrate and di-hydrate is the main inorganic
constituent of kidney stones. However, the mechanisms for the formation of
crystal mineral oxalate are not clearly understood. In this field of study
there are many hypothesis including nucleation, crystal growth and or
aggregation of formation of AOMH (ammonium oxalate monohydrate) and AODH
(ammonium oxalate di-hydrate) crystals. The effect of some urinary species
such as ammonium oxalates, calcium, citrate, proteins and trace mineral
elements have been previously reported by the author. The kidney stone
constituents are grown in the kidney environments, the sodium meta silica
gel medium (SMS) provides the necessary growth simulation (in vitro). In the
artificial urinary stone growth process, growth parameters within the
different chemical environments are identified. The author has reported the
growth of urinary crystals such as CHP, SHP, BHP and AHP. In the present
study, BaNH4MgHPO4 (barium ammonium magnesium hydrogen phosphate)
crystals have been grown in three different growth faces to attain the total
nucleation reductions. As an extension of this research, many
characterization studies have been carried out and the results are reported.