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Batch adsorption experiments were carried out to study the kinetics and thermodynamics of phosphate removal from model solutions on the surfaces of some selected adsorbents. The data obtained were analyzed using two reaction-based kinetic models and a diffusion-based model. In order to examine the extent to which diffusion participates in this adsorption process, the data were processed by the Weber-Morris mass transfer model. The Freundlich model represented a slightly better description of phosphate adsorption onto slovakite and GEH¹⁰⁴ than onto clinoptilolite-rich tuff, while the Redlich-Peterson model yields a better fit for phosphate adsorption onto clinoptilolite-rich tuff. Adsorption onto montmorillonite proceeds best using the Sips isotherm model. The calculated ΔG° values show that under standard conditions the adsorption of phosphate onto all adsorbents examined occurs spontaneously.
Bisphosphonates are a unique class of drugs. As a family they are characterized pharmacologically by their ability to inhibit bone resorption, whereas, pharmacokinetically, they are classified by their similarity in absorption, distribution and elimination. Bisphosphonates have become the most important class of antiresorptive drugs, not only for the treatment of Paget’s disease, but also for other diseases that involve excessive osteoclast-mediated bone resorption, such as tumor-induced osteolysis and hypercalcemia as well as osteoporosis. Although all bisphosphonates have similar psychochemical properties, their antiresorbing activities differ substantially. The structure of the R2 side chain is the major determinant of antiresorptive potency, both phosphonate groups are also required for the drugs to be active. Activity is dramatically increased when the amino group is contained in the aliphatic carbon chain. They act by inhibiting the enzyme farnesyl diphosphate synthase. Despite this, the molecular mode of their action is still not clear. There is substantial evidence that BPs can have a direct effect on osteoclasts by mechanisms that may lead to osteoclast cell death by apoptosis. BPs can also inhibit proliferation and cause cell death in macrophages in vitro. It has been shown that the toxic effect of BPs on macrophages is also due to the induction of apoptotic, rather than necrotic, cell death. Bisphosphonates may inhibit osteoclast-mediated bone resorption by several routes, although a direct effect on mature osteoclasts is the most likely. Bisphosphonates perturb cellular metabolism and induce osteoclast apoptosis. The molecular mechanisms by which these effects are brought about are only now becoming clear. The simple bisphosphonates that closely resemble pyrophosphonates (such as clodronate, etidronate and tiludronate) can be metabolically incorporated into non-hydrolysable analogues of ATP that accumulate intracellularly in osteoclasts, resulting in the induction of osteoclast apoptosis. The more potent, nitrogen-containing bisphosphonates (such as pamidronate, alendronate, risedronate, ibandronate and zoledronate) appear to act as analogues of isoprenoid diphosphate lipids, thereby inhibiting FPP synthase, an enzyme in the mevalonate pathway. Inhibition of this enzyme in osteoclasts prevents the biosynthesis of isoprenoid lipids (FPP and GGPP) that are essential for the post-translational farnesylation and geranylgeranylation of small GTPase signaling proteins. Loss of bone-resorptive activity and osteoclast apoptosis is primarily due to the loss of geranylgeranylated small GTPases.
W artykule przedstawiono badania nad określeniem przydatności owoców mrożonych do osmotycznego odwadniania. Omówiono analizę zmian tekstury w procesie mrożenia i samego procesu odwadniania osmotycznego.
The aim of the study was to determine the impact of steroidal medications on the structure and mechanical properties of supporting tissues of sheep under experimentally-induced osteoporosis. A total of 21 sheep were used, divided into three groups: a negative control (KN) (n = 3), a positive control (KP) (n = 3) with ovariectomy, and a steroidal group (KS) (n = 15) with ovariectomy and glucocorticosteroids. All animals were kept on a low protein and mineral diet and had limited physical activity and access to sunlight. Quantitative computed tomography was the examination method. The declines in the examined parameter values in the KS group were more than three times higher than in the KN group. The study suggests that a glucocorticosteroidal therapy accelerates and intensifies processes taking place in the course of osteoporosis. The combination of glucocorticosteroids with ovariectomy, a restrictive diet, limited physical activity, and no access to sunlight leads to a decrease in radiological bone density.
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