The study of the calcium and phosphorus metabolism impact on the development of demineralized enamel areas in adolescents

Relevance. The article presents the current data on the impact of calcium and phosphorus metabolism on the development of demineralized enamel areas in adolescents. The level of vitamin D3, osteocalcin, bone alkaline phosphatase isoenzyme and parathyroid hormone (PTH) in mixed saliva appeared to reflect the risk of the cariogenic situation in the oral cavity and the risk of enamel demineralization development, which are relevant in pediatric dentistry. Purpose – to reveal the relationship between the localized enamel demineralization and the calcium and phosphorus metabolism in teenagers.Materials and methods. In 45 adolescents, the study examined the vulnerability of hard dental tissues, including initial lesions and the mixed saliva mineral metabolism in teenagers. We formed the following groups to study the caries intensity level. Group 1 consisted of 12 adolescents with a DMF index of 3.8. 11 adolescents comprised group 2 and 11 adolescents – group 3 with DMF indices of 4.9 and 6.8, respectively; group 4 contained adolescents without caries.Results. The analysis of caries intensity and permanent enamel demineralization areas in adolescents and the main markers of mixed saliva mineralization revealed a correlation between the activity of the initial carious lesions and the calcium and phosphate metabolism.Conclusions. Evaluating the principal markers of calcium and phosphorus metabolism is relevant for the risk assessment of the cariogenic situation or enamel demineralization development in adolescents and preventive treatment planning.

Bone Mineralization and Calcium Phosphorus Metabolism

The accretion of adequate mineral content is essential for normal bone mineralization [...]

Fibroblast growth factor 23 and Klotho protein: assessment of the role in the development of secondary hyperparathyroidism in patients with various stages of chronic kidney disease

Background. Secondary hyperparathyroidism (SHPT) is universal complication of chronic kidney disease (CKD), the likelihood of which increases as renal function decreases. Currently, SHPT is considered in the context of mineral and bone disorders associated with CKD. Mineral and bone disorders associated with CKD include, in addition to SHPT, disorders of calcium-phosphorus metabolism, bone pathology and metastatic calcification, which determine poor outcomes of the disease. The purpose of the study was to evaluate the serum concentrations of fibroblast growth factor (FGF) 23 and Klotho protein in patients with various stages of CKD and their relationship with SHPT, vitamin D levels, and calcium-phosphorus metabolism in patients with varying degrees of decreased renal function. Materials and methods. Serum concentrations of FGF 23, Klotho protein, parathyroid hormone (PTH), 25(OH)D, calcium and phosphorus were evaluated in 229 patients with various stages of chronic kidney disease and in 40 people without signs of CKD. Results. It has been shown that individuals with CKD are characterized by overproduction of humoral phosphatonin FGF 23 and Klotho deficiency, which increase as renal failure worsens. A significant relationship was established between FGF 23 and the levels of PTH and blood phosphorus; Klotho protein — with the patient’s age and serum vitamin D. An early marker of disorders in the FGF 23-Klotho system is a decrease in the Klotho protein concentration, which occurs in the early stages of CKD and is aggravated with the progression of renal failure. A statistically significant overproduction of FGF 23 associated with secondary hyperparathyroidism was registered in patients with glomerular filtration rate less than 35 ml/min/1.73 m2. Conclusions. An early marker of disorders in the FGF 23-Klotho system is a decrease in the concentration of the Klotho protein, which occurs in the early stages of CKD and is aggravated with the progression of renal fai-lure. The relationship between Klotho deficiency and the formation of SHPT has not been found. As kidney function decreases, excess production of PTH and FGF 23 appears and increases, hyperphosphatemia progresses. This proves the pathogenetic relationship between the formation of SHPT and the overproduction of humoral phosphatonin FGF 23, since it is this glomerular filtration rate that determines the growth of PTH above the upper limit of the general population reference interval.

Modern problems of hyper- and hypoparathyroidism

The parathyroid glands are the most important regulators of mineral metabolism. The parathyroid glands were first discovered only in 1880 and their function went the long way unrecognized. Even the term "parathyroid gland" itself speaks of the initial misconception of it as an underdeveloped part of the thyroid. To date, there is a large amount of data regarding the role of this endocrine gland in the human body and the significant changes associated with their dysfunction, including such widespread diseases such primary, secondary and tertiary hyperparathyroidism, hypoparathyroidism. This review covers the problem of the main disturbances in calcium-phosphorus metabolism, presents the results of databases of patients with primary hyperparathyroidism and hypoparathyroidism, as well as current epidemiological trends in Russia and in the world.

Mineral metabolism and COVID-19: is there a connection?

Due to global spread of COVID-19, the search for new factors that could influence its clinical course becomes highly important. This review summarize the relevant publications on the association between immune system and the main regulators of mineral homeostasis including. In addition, we have highlighted the various aspects of phosphorus-calcium metabolism related to the acute respiratory diseases and in particular to COVID-19. The data about the calcium-phosphorus metabolism in SARS-CoV-2 infection is required to understand the possible clinical implications and to develop new therapeutic and preventive interventions.

The impact of harmful occupational risk factors on the markers of bone metabolism in industrial workers

Introduction. Unfavourable factors of the working environment affect bone tissue, increasing the risk of developing osteoporosis in workers of harmful industries, which is an urgent social and hygienic problem due to the high prevalence and severity of medical and social consequences. The aim of the study was to investigate the impact of industrial vibration and physical overload on the markers of bone metabolism in industrial workers. Materials and methods. One hundred fifty-two employees of mining and mechanical engineering enterprises in contact with industrial vibration and physical overload were examined. The assessment of bone tissue metabolism in the workers was carried out by the method of solid-phase enzyme immunoassay to determine biochemical markers of bone metabolism: bone alkaline phosphatase, osteocalcin, C-terminal serum telopeptide, cathepsin K, as well as indicators of calcium-phosphorus metabolism. X-ray densitometry was used to assess bone mineral density. Results. There was a significant decrease in the markers of osteogenesis: the concentration of CSF (14.26 ± 4.13 and 18.69±5.28, respectively, p< 0.05) and osteocalcin (12.23±4.15 and 17.84±5.17, respectively, p < 0.05) and an increase in the markers of bone resorption: the level of beta-CrossLaps (0.629±0.162 and 0.361±0.095, respectively, p = 0.002) and the level of cathepsin K (12.49±5.28 and 0.59±0.02, respectively, p < 0.001) in workers of industrial enterprises exposed to physical factors of production. The correlation between the markers of bone metabolism and the experience of exposure to adverse working conditions was established. Conclusion. Combined exposure to physical labour factors is a predictor of calcium-phosphorus metabolism and bone metabolism disorders, increasing the risk of metabolic osteopathy in industrial workers.