Zinc Picolinate capsules supply 50 mg of zinc from zinc picolinate complex. Zinc Picolinate may be a useful nutritional adjunct for individuals who wish to increase their intake of zinc.
Zinc is also offered in a 15mg capsule, check it out here!
Serving Size: 1 Capsule | Amount/Serving |
Zinc (as zinc picolinate) | 50 mg |
Other Ingredients: Microcrystalline cellulose, gelatin (capsule), vegetable stearate.
As a dietary supplement, adults take 1 capsule daily or as directed by your healthcare professional.
WARNING: If you are pregnant, nursing, have any health condition or taking any medication, consult your health professional before using this product. Keep out of reach of children.
STORAGE: Store in a cool, dry place.
Zinc is an essential trace element involved in most major metabolic pathways. General signs of human zinc deficiency indicate that zinc has important functions in maintaining immune function, reproduction, healthy skin, and growth. Numerous studies support the fundamental role of zinc in normal immune response in humans. Immune cells must be able to rapidly divide in order to respond to daily challenges. Like all rapidly dividing cells, immune cells depend on adequate amounts of dietary zinc. As a cofactor of the antioxidant enzyme superoxide dismutase (SOD), zinc can be considered an antioxidant nutrient. Zinc supplementation has been shown to increase the antioxidant activity of SOD, and provide increased free radical protection.
Body cells and tissues are threatened continuously by damage caused by toxic free radicals and reactive oxygen species (e.g., peroxides) which are produced during normal oxygen metabolism, by other chemical reactions, and by toxic agents in the environment. Free radicals, once formed, are capable of disrupting metabolic activity and cell structure. When this occurs, additional free radicals are produced which, in turn, can result in more extensive damage to cells and tissues. The uncontrolled production of free radicals is thought to be a major contributing factor to oxidative damage. Zinc deficiency is associated with increased production of free radicals and reactive oxygen species