[The kinetic parameters of retainment and release of deposited in human tissue structures calcium].

The analysis of retainment and release kinetics of deposited in tissue structures calcium was made in the hypercalcemic conditions in 28 healthy volunteers (22 males and 6 females) of the age of 33 ± 6.5 years via drip infusion (Groups 1, 2) and in 9 individuals (3 males and 6 females) in 12 trials via stream infusion (Group 3). By the end of each hour after the termination of calcium infusion the amount of calcium retained in tissues was calculated (Mtis./kg); the parameters of its binding (specific buffer volume--ß3 sp, association constant--Ka, number of binding centers--n) were established using the Langmuir and Scetchard coordinates. The Group 1 volunteers (n = = 12) showed a section of positive cooperativity (a direct regression on Sketchard coordinates, Hill coefficient 3.36 ± 1.63) and 2 sections of the consecutive calcium separation from one set of noninteracting centers. 5 volunteers of Group 2 and 8 volunteers of Group 3 demonstrated a slight calcium delivery to tissues after 1 hour of observation which then followed for 2 volunteers of Group 2 and for 2 volunteers of Group 3. Other volunteers of Groups 2 and 3 showed a release of tissue-deposited calcium via the mechanism of the consecutive separation from one set of noninteracting centers with ßsp 3 times less and Ka 7 times higher than with the calcium infusion. The excretion of calcium in urine was the highest in Group 1 and the lowest in Group 3. The [Ca2+] and Mtis./kg values were normalized in Groups 1 and 2 the next morning and in Group 3 after 2-3 hours of observation. An assumption was made about the relationship between the tissue and kidney [Ca2+] normalizing mechanisms with hypercalcemia.

[Kinetic parameters of calcium binding to tissue structures in human acute hypercalcaemia].

Calcium binding kinetic by tissue structures was analysed in 19 health volunteers (13 men and 6 women) of the age group of 33 +/- 6.5 under conditions of acute hypercalcaemia followed by a drip i.v. infusion of calcium gluconate over 2.5 hours. At the end of each 30-minute period the calcium amount retained by tissue structures was recorded and the kinetic parameters of calcium binding were determined according to Langmuir and Scatchard. In all volunteers there was a segment of binding isotherm with positive cooperativity (direct regression in Scatchard) with analogous buffer capacity (beta) for calcium in Langmuir (0.58 +/- 0.24 L kg). One half of volunteers demonstrated cooperativity at [Ca++] 1.3-1.5, while another--at [Ca++] 1.0-1.3 mmol/L which corresponded to the differences in the association constant (Ka) and the number of interactive sites (n) with [Ca++] 1 mmol/L. Additionally, two segments of binding isotherm were detected with the successive binding of calcium to one set of noninteractive sites with similar kinetic parameters of calcium binding (beta, K(a), n). Four different curves of calcium binding in healthy volunteers were established. This study may serve as the basis for a functional diagnostic test of disorders of the tissue calcium-binding properties in different pathological conditions.