Fermentation Improves Calcium Bioavailability in Moringa oleifera leaves and Prevents Bone Loss in Calcium-deficient Rats.

2020-05-25
Food science & nutrition 8(7)
- Jiahe Dai
- Liang Tao
- Chongyin Shi
- Shuwen Yang
- Depeng Li
- Jun Sheng
- Yang Tian

PubMed: 32724632
DOI: 10.1002/fsn3.1653

Study Design

Type: Clinical Trial
Population: Calcium-deficient rats
Methods: Using fermentation-based approaches, we developed a Moringa oleifera leaf ferment (MOLF); nine lactic acid bacteria and four yeasts were tested for better fermentation of MOL, and the resulting MOLF was subjected to cell experiments and animal experiments

Nowadays, there is an increasing demand of healthier plant calcium supplements. Moringa oleifera leaves (MOL) are rich in calcium and thus are promising candidates for developing efficient calcium supplements. Here, using fermentation-based approaches, we developed a Moringa oleifera leaf ferment (MOLF), which contents higher levels of calcium. The therapeutic potential of the MOLF was also examined both in vitro and in vivo. Nine lactic acid bacteria and four yeasts were tested for better fermentation of MOL. Calcium-deficient rats were used for evaluating the therapeutic effects of MOLF. The results of liquid fermentation showed that the mixture of Lactobacillus reuteri, Lactobacillus acidophilus, and Candida utilis elevated the content of MOL calcium most strikingly, with the content of calcium increased nearly 2.4-fold (from 2.08% to 4.90%). The resulting MOLF was then subjected to cell experiments and animal experiments. The results showed that calcium absorption in Caco-2 cells in MOLF group was higher than that in CaCl₂ group significantly. Interestingly, in calcium-deficient rats, MOLF treatment significantly increased the thickness of cortical bone, rat body weight, wet weight of the femur, and the femur bone density, whereas it decreased osteoclast numbers. These results indicate that microbial fermentation increased calcium bioavailability of MOL, promote the growth and development of calcium-deficient rats, bone calcium deposition, and bone growth; enhance bone strength; reduce bone resorption; and prevent calcium deficiency.

Research Insights

Saccharomyces cerevisiae→Improved Calcium Absorption
microbial fermentation increased calcium bioavailability of MOL
Effect
Beneficial
Effect size
Large
Saccharomyces cerevisiae→Increased Total Hip Bone Mineral Density
MOLF treatment significantly increased... the femur bone density
Effect
Beneficial
Effect size
Large
Saccharomyces cerevisiae→Reduced Bone Erosion
it decreased osteoclast numbers
Effect
Beneficial
Effect size
Moderate
Saccharomyces cerevisiae→Reduced Bone Loss
MOLF treatment significantly increased the thickness of cortical bone... and the femur bone density, whereas it decreased osteoclast numbers
Effect
Beneficial
Effect size
Large