Oaklife Vitamin D3K2 offers numerous health benefits, including reducing the risk of heart
disease and alleviating damage done to the heart by restoring the function of cardiovascular
The supplement also prevents the hardening of arterial walls by directing
absorbed calcium to the bones and teeth, and improves bone density, particularly in older
women susceptible to fractures from osteoporosis. Additionally, Oaklife Vitamin D3K2
balances immune function, boosting immunity and decreasing susceptibility to autoimmune
diseases and upper respiratory tract infections.
- Reduces risk of cardiovascular disease: Oaklife Vitamins d3 and k2 reduces the risk
of dying from heart diseases by minimizing harmful blood clots and lowering the risk of
high blood pressure associated with CVD, including hypertension, heart failure, and
ischemic heart disease.
- Alleviates damage done to the heart: Vitamin D3k2 restores the function of
cardiovascular endothelial cells, which are in direct contact with blood components and
cells and have been linked to several health problems.
- Prevents hardening of arterial walls: Vitamin d3 and k2 significantly reduces arterial
stiffness and calcification by directing absorbed calcium in the blood to the bones and teeth
where it is needed, preventing excess deposits in arterial walls.
- Improves bone density: Combined administration of vitamin D(3) and vitamin K(2)
stimulates bone formation in patients with osteoporosis, resulting in an increase in lumbar
bone mineral density and a reduction in fracture rates. Vitamin d3k2 works synergistically to
improve bone density, which is particularly important for older women susceptible to
fractures from osteoporosis.
- Balances immune function: The Oaklife vitamin d3 and k2 supplement improves
immune health and decreases susceptibility to autoimmune diseases and upper respiratory
tract infections by acting as a powerful immune booster. This is especially important for
dark-skinned people who are at a disadvantage regarding Vitamin D3 absorption in the body
due to melanin.