Supplementing Low-Sodium Bicarbonate–Calcic (Lete)® Water: Effects in Women on Bone and Systemic Metabolism

Calcium (Ca) represents about 40% of the total mineral mass, mainly in the bone, providing mechanical strength to the skeleton and teeth. An adequate Ca intake is necessary for bone growth and development in children and adolescents and for maintaining bone mineral loss in elderly age. Ca deficiency...

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Published in:Metabolites 2023-10, Vol.13 (11), p.1109
Main Authors: Marino, Carmen, Pagano, Imma, Castaldo, Giuseppe, Grimaldi, Manuela, D’Elia, Maria, Santoro, Angelo, Conte, Aurelio, Molettieri, Paola, Parisella, Chiara, Buonocore, Michela, D’Ursi, Anna Maria, Rastrelli, Luca
Format: Article
Language:English
Subjects:
1H-NMR
Bicarbonates
bicarbonate–calcium water
Body mass index
Bone composition
Bone growth
Bone mass
bone metabolism
Bone turnover
Bones
Calcium metabolism
Calcium, Dietary
Clinical trials
Creatinine
Dairy products
Dietary supplements
Estrogens
Exercise
Food intake
Fractures
Health aspects
Hormones
Laboratories
Mechanical properties
Medical research
Medicine, Experimental
Metabolism
Metabolites
metabolomic
Metabolomics
Mineral water
Nutrients
Nutrition
Osteopenia
Osteoporosis
Phosphatase
Physiological aspects
Skeleton
Sodium
Sodium bicarbonate
Urine
Women
Womens health
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Summary:Calcium (Ca) represents about 40% of the total mineral mass, mainly in the bone, providing mechanical strength to the skeleton and teeth. An adequate Ca intake is necessary for bone growth and development in children and adolescents and for maintaining bone mineral loss in elderly age. Ca deficiency predisposes to osteopenia and osteoporosis. Healthy nutrition, including an adequate intake of Ca-rich food, is paramount to prevent and cure osteoporosis. Recently, several clinical studies have demonstrated that, in conditions of Ca dysmetabolism, Ca-rich mineral water is beneficial as a valuable source of Ca to be used as an alternative to caloric Ca-rich dairy products. Although promising, these data have been collected from small groups of participants. Moreover, they mainly regard the effect of Ca-rich mineral water on bone metabolism. In contrast, an investigation of the effect of Ca supplementation on systemic metabolism is needed to address the spreading of systemic metabolic dysfunction often associated with Ca dysmetabolism. In the present study, we analyzed urine and blood sera of 120 women in perimenopausal condition who were subjected for six months to 2l daily consumption of bicarbonate–calcium mineral water marketed under ®Lete. Remarkably, this water, in addition to being rich in calcium and bicarbonate, is also low in sodium. A complete set of laboratory tests was carried out to investigate whether the specific water composition was such to confirm the known therapeutic effects on bone metabolism. Second, but not least, urine and blood sera were analyzed using NMR-based metabolomic procedures to investigate, other than the action on Ca metabolism, potential system-wide metabolic effects. Our data show that Lete water is a valid supplement for compensating for Ca dysmetabolism and preserving bone health and integrity.
ISSN:2218-1989
2218-1989
DOI:10.3390/metabo13111109