Advanced OsteoRX Bone Protection Calcium Magnesium with D 120 Capsules $13.95

Advanced OsteoRX   Calcium Magnesium with D-2 120 Capsules  $16.95  Limited time Only $13.95

Calcium and magnesium are two of the most important of all nutrients. Your body needs them for more than just bones and teeth; they are also critical for your muscles, heart, and nervous system. Advanced OsteoRX is pH-balanced, which is essential for the best absorption of calcium. Vitamin D, vitamin K, trace minerals, and boron play specific roles in healthy calcium metabolism, while calcium and magnesium team up with these vital nutrients to promote healthy bone structure, enhance muscle tone and relaxation, and maintain dental health. Magnesium is critical for more than 300 different enzymatic events in the body, and ATP production, your body's main energy molecule.

In one study, dealing with post-menopausal women who were already taking hormone replacement therapy HRT, involved a complete dietary program that included avoiding processed food, emphasized vegetable over animal protein, limited salt, sugar, alcohol, caffeine, and tobacco and emphasized supplementation of magnesium and calcium, along with vitamins B, C, and D, zinc, copper, manganese, and boron. The results showed an amazing average increase in bone density of 11% after only 9 months The control group of women taking hormone replacement alone saw only a .7% increase in bone density   Proving the bio-availability of Calcium Magnesium and vitamin D therapy.

A USDA study also indicated that maintaining sufficient calcium intake in a woman’s daily diet might also help reduce some of the occasional symptoms associated with premenstrual syndrome (PMS) and menstrual cramps.

Unlike other calcium supplements (many of which supply only calcium), Advanced OsteoRX provides 1000 mg of calcium and 500 mg magnesium per daily serving.   Compare these amounts with any other supplements available and you will see, that for the price, our product has no equal. 

Also included is the trace element boron, which appears to beneficially affect the metabolism of calcium, magnesium, copper, phosphorus, and vitamin D. When soil contains adequate amounts of boron, it is contained in fruits, vegetables, and nuts. Supplementation of boron has been associated with reduced loss of calcium in the urine in clinical research.

By supplementing with Advanced OsteoRX,  you are assured of receiving your daily value of calcium and magnesium, along with all the other nutrients scientifically known to be important for bone health. In addition, you benefit from the pH-balancing effects they provide in support of healthy metabolism. Also, you benefit from the calcium-retaining power of boron for muscles, heart, nerves, and bones.

Supplement Facts Serving Size 4 Capsules Amount Per Serving

Amount % Daily Value Vitamin D-2 (ergocalciferol)  400 IU 100% Calcium  ( from carbonate, citrate, hydroxyapatite, amino acid chelate, orotate, dicalcium phosphate, hydroxide, lactate, gluconate and glycinate. 1000 mg 100% Magnesium (oxide)  500 mg 125% Boron (amino acid chelate)  4 mg * *Daily Value not established

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What follows is the data and conclusion of a case study establishing the effectiveness of Calcium/Magnesium + Vitamin D  on bone density therapy.

Calcium-Magnesium-Vitamin D Supplementation
Improves Bone Mineralization in Preadolescent Girls
Tim Wood, Ph.D. and Toni McKinnon, R.N., C.C.R.P.

Eighty-one girls (38 active, 43 placebo) completed this one-year study. No differences in age, weight, height, or body mass index were found between groups at enrollment, or after six or 12 months of treatment. Tanner Stage, menarche status, and reported physical activity were also similar between groups at enrollment
and 12 months. There were no significant differences in dietary patterns between groups throughout the study. Compliance with the supplement regimes averaged 74% and 69% in the active and placebo groups respectively. As such, girls in the active treatment group consumed on average an additional 592 mg calcium, 296 mg magnesium, 296
IU vitamin D3, 1.0 mg boron, and 6.7 mg silicon per day through supplement use.
Cross sectional pQCT measurements of total, trabecular, and cortical bone mass at the distal tibia were similar between the two treatment groups at baseline. After 12 months of supplementation,
however,

girls receiving the calcium, magnesium, and vitamin D supplement showed a net gain in trabecular bone mineral density of 1.41%

over baseline while girls in the placebo group showed a net decline of -0.94% (Figure 1). This difference was statistically significant (p=0.005). Percent gains in trabecular bone mineral content
after 12 months of supplementation were also greater in the active treatment group than in the placebo group (5.83% versus 0.69% respectively) as were percent gains in trabecular bone cross sectional area (4.28% versus 1.30% respectively) (Figure 1). Gains in total and cortical bone mineral content, bone area, and bone mineral density did not differ between groups from baseline to study completion. Tests of correlation between baseline body weight,
height, BMI, and menarche status with total, cortical, and trabecular bone parameters were significant. Weight-bearing physical activity was weakly linked to total bone mineral density.

Results from this study clearly demonstrate that supplementation with a high quality calcium, magnesium, and vitamin D formula can improve bone mineralization in preadolescent girls. After 12 months of treatment, girls in the active group showed significantly greater gains in trabecular bone mass than did girls in the
placebo group.

The results of this study support those of previous calcium supplementation trials run with children and adolescents (5,6,7). Furthermore, they underscore the strategy of using high-quality calcium, magnesium, and vitamin D supplements during the formative years (as well as throughout life) to build and maintain strong,mineral rich bones and reduce the risk of osteoporosis.