Farnesol, (2E,6E)- is an isoprenoid found in many aromatic plants and is also produced in humans, where it acts on numerous nuclear receptors and has received considerable attention due to its apparent anticancer properties. Farnesol is present in many essential oils such as citronella, neroli, cyclamen, lemon grass, tuberose, rose, musk, balsam, and tolu. It is used in perfumery to emphasize the odors of sweet floral perfumes. Its method of action for enhancing perfume scent is as a co-solvent that regulates the volatility of the odorants. It is especially used in lilac perfumes. Farnesol is a natural pesticide for mites and is a pheromone for several other insects. In a 1994 report released by five top cigarette companies, farnesol was listed as one of 599 additives to cigarettes. Farnesol has been suggested to function as a chemopreventative and anti-tumor agent. Farnesol is subject to restrictions on its use in perfumery as some people may become sensitized to it, however, the evidence that farnesol can cause an allergic reaction in humans is disputed.

Hydroxytyrosol is an important phenolic compound obtained from olive oil. Hydroxytyrosol possesses anti-inflammatory properties and has the capacity to inhibit cyclooxygenase and lipoxygenase enzymes. Hydroxytyrosol is a powerful antioxidant due to its protective function in cells. Hydroxytyrosol protects the cardiovascular system, avoiding oxidation of LDL cholesterol, maintaining normal blood HDL cholesterol concentrations and thus preventing atherosclerosis. Hydroxytyrosol protects brain cells from lipid peroxidation because it easy penetrates through the blood-brain barrier. Thus, the compound can be used in the disease treatment of Alzheimer or Parkinson. In addition, the compound also helps to prevent osteoporosis because its consumption has positive effects on the formation and growth of bones. Hydroxytyrosol is under investigation phase II clinical trials for breast cancer women to evaluate its effect on mammographic density. The recently published article has shown hydroxytyrosol could prevent obesity and insulin resistance by altering the composition of the intestinal microbiota and improving the integrity of the intestinal wall.

Erythorbic acid, an epimer of L-ascorbic acid, is used in the United States as a food additive. It was studied, that erythorbic acid enhanced of iron absorption and could play a major role in enhancing iron bioavailability from mixed diets that include foods preserved with erythorbic acid. In addition, was investigated if the erythorbic acid could influence on the metabolism of vitamin C in young women, and obtained results showed, that prolonged ingestion of erythorbic acid had no effect on vitamin C uptake or clearance from the body.

Vitamin E quinone Alpha-tocopherylquinone is formed during free radical attack on vitamin E and has been shown to undergo reduction by NQO1 (NAD(P)H dehydrogenase [quinone] 1) to generate vitamin E hydroquinone. Since it has been recognized that alpha-tocopherylquinone in living tissue for global assessment of antioxidative defense system. The ratio of alpha-tocopherol alpha-tocopherylquinone concentrations were increased under oxidative stress with the exception of plasma. Alpha-tocopherylquinone and a low fat diet have positive effect on a patient with chronic continuous ulcerative colitis. The patient's condition improved dramatically with both colonic and extraintestinal manifestations of the disease. Withdrawal of alpha-tocopherylquinone for periods of one to two days produced recurrence of inflammation, which was again reduced upon re-introduction of alpha-tocopherylquinone.

Carnosine is a dipeptide composed of the amino acids beta-histidine and l-alanine. It is widely present in muscle and brain tissues. It possesses strong and specific antioxidant properties, protects against radiation damage, and promotes wound healing. The antioxidant mechanism of carnosine is attributed to its chelating effect against metal ions, superoxide dismutase (SOD)-like activity, ROS and free radicals scavenging ability. In addition, was shown, that carnosine significantly protects against TCA-induced liver carcinogenesis in rats, through its antioxidant, antinutritive, and anti-inflammatory effects, and induction of apoptosis. It also may be a therapeutic agent against Parkinson's disease. Experiments on animal have shown the sepsis healing therapeutic potential of carnosine.

Glutathione (GSH, also called as reduced glutathione) is a tripeptide with many roles in cells. It conjugates to drugs to make them more soluble for excretion, is a cofactor for some enzymes such as, glutathione reductase, glutathione peroxidases, peroxiredoxins. Glutathione S-transferases catalyse the conjugation of GSH via a sulfhydryl group to electrophilic centers on a wide variety of substrates in order to make the compounds more water-soluble. As a part of homeopathic product, glutathione is used for temporary relief of symptoms related to Free Radical Toxicity including tingling in hands and feet, mood changes, frequent colds, poor digestion, fatigue, and constipation. In addition, for temporary relief of pain in the back from urinating, constant urging and frequent urination, kidneys sensitive to pressure, and pain from back extending down the thigh. Glutathione is an important nutrient for brain function and loss of glutathione has been implicated in Parkinson's disease. In phase II of the clinical trial was investigated whether administration of either dose of glutathione, as a nasal spray, improves PD symptoms over time in a population of individuals with Parkinson's disease (PD). In addition in phase II of clinical trial was shown, that reduced glutathione, an ingredient of RayGel™, has been helpful in decreasing some radiation therapy side effects to the skin. Reduced glutathione plays a vital role in both making DNA and cell repair. Cystic fibrosis (CF) is the most common inherited disease among the Caucasian population with considerable morbidity and reduced life expectancy. Glutathione (GSH) represents the first-line defence of the lung against oxidative stress-induced cell injury. Therapeutic approaches with inhaled GSH could improve the reduced lung antioxidant capacity in order to counterbalance the oxidant stress linked to the chronic airway inflammation and bacterial infection.

L-isomer of selenomethionine (Se-met) is a major natural food-form of selenium, synthetic L-Se-met or enriched food sources thereof such as selenium yeast are appropriate supplemental forms of Se for humans; for animals, DL-Se-met is acceptable. Ingested Se-met is either metabolized directly to reactive forms of selenium or stored in place of methionine in body proteins. Se-met metabolism is closely linked to protein turnover. Selenium, which is nutritionally essential for humans, is a constituent of more than two dozen selenoproteins that play critical roles in reproduction, thyroid hormone metabolism, DNA synthesis, and protection from oxidative damage and infection.

Ascorbyl palmitate is a fat soluble vitamin C ester. An ester is simply a compound formed by the combination of an organic acid and an alcohol – in this case it is ascorbic acid and palmitic acid (a fat – which is composed of fatty acids and glycerol - an alcohol). Therefore, ascorbyl palmitate is formed by the esterification of ascorbic acid with palmitic acid to form vitamin C ester. Ascorbyl palmitate is an amphipathic molecule, meaning one end is water-soluble and the other end is fat-soluble. This dual solubility allows it to be incorporated into cell membranes. When incorporated into the cell membranes of human red blood cells, ascorbyl palmitate has been found to protect them from oxidative damage and to protect alpha-tocopherol (a fat-soluble antioxidant) from oxidation by free radicals. Basically, the fat-soluble aspect of ascorbyl palmitate extends vitamin C free radical protection into the fat parts of the body. However, the protective effects of ascorbyl palmitate on cell membranes have only been demonstrated in the test tube (in vitro). Taking ascorbyl palmitate orally may not result in any significant incorporation into cell membranes because most of it appears to be hydrolyzed (broken apart into palmitate and ascorbic acid) in the human digestive tract before it is absorbed. The ascorbic acid released by the hydrolysis of ascorbyl palmitate appears to be as bioavailable as ascorbic acid alone. The presence of ascorbyl palmitate in oral supplements contributes to the ascorbic acid content of the supplement and probably helps protect fat-soluble antioxidants in the supplement. This is also true for food products. Ascorbyl palmitate is used to increase the shelf life of vegetable oils and potato chips. The role of vitamin C in promoting collagen synthesis and its antioxidant properties have generated interest in its use on the skin. Ascorbyl palmitate is frequently used in topical preparations because it is more stable than some aqueous (water-soluble) forms of vitamin C. It is also suggested that this form of vitamin C is better able to penetrate the skin and the thin membrane of cells (due to its dual solubility), which can then go on to help produce collagen and elastin.

Coenzyme Q10, also known as ubiquinone, ubidecarenone, coenzyme Q, and abbreviated at times to CoQ10 or Q10 is a coenzyme that is ubiquitous in the bodies of most animals. It is a 1,4-benzoquinone, where Q refers to the quinone chemical group and 10 refers to the number of isoprenyl chemical subunits in its tail. This fat-soluble substance, which resembles a vitamin, is present in most eukaryotic cells, primarily in the mitochondria. It is a component of the electron transport chain and participates in aerobic cellular respiration, which generates energy in the form of ATP. Ninety-five percent of the human body’s energy is generated this way. Therefore, those organs with the highest energy requirements—such as the heart, liver, and kidney—have the highest CoQ10 concentrations. There are three redox states of CoQ10: fully oxidized (ubiquinone), semiquinone (ubisemiquinone), and fully reduced (ubiquinol). The capacity of this molecule to act as a 2 electron carrier (moving between the quinone and quinol form) and 1 electron carrier (moving between the semiquinone and one of these other forms) is central to its role in the electron transport chain, and as radical-scavenging antioxidant. Coenzyme Q10 works foremost in every cell of your body to synthesize energy. In cells' mitochondria, CoQ10 helps generate adenosine triphosphate (ATP), your body's energy currency. It makes sense that organs with the highest energy needs - including the heart, liver, and kidneys - contain large amounts of CoQ10. Among its roles, ubiquinol protects fats, protein, low-density lipoprotein (LDL, a cholesterol transporter), and DNA from oxidative damage. It also regenerates vitamin E, another powerful antioxidant. Even though Coenzyme Q10 is a supplement and occurs naturally in your body, it doesn't mean that it's side effect free. However, most CoQ10 side effects are mild. Some people may experience allergies to increased Coenzyme Q10. There have been some reports of rashes and itching. Other side effects include a lowering of blood sugar within the body. CoQ10 is not approved by the U.S. Food and Drug Administration (FDA) for the treatment of any medical condition. It is sold as a dietary supplement. In the U.S., supplements are not regulated as drugs, but as foods. How CoQ10 is manufactured is not regulated and different batches and brands may vary significantly. As an over-the-counter nutritional supplement, CoQ10 has been used to treat many things, from heart disease, high blood pressure and high cholesterol to diabetes, breast cancer and gum disease. CoQ10 supposedly can help with immune deficiencies, increase fertility, treat Alzheimer's and Parkinson's, reduce ringing in the ears, delay aging and improve skin, and increase athleticism The key benefits of coenzyme Q10 are summarized as below. A 2014 Cochrane Collaboration meta-analysis found "no convincing evidence to support or refute" the use of CoQ10 for the treatment of heart failure. Evidence with respect to preventing heart disease in those who are otherwise healthy is also poor. A 2009 Cochrane review concluded that studies looking at the effects of CoQ10 on blood pressure were unreliable, and therefore no conclusions could be made regarding its effectiveness in lowering blood pressure. Available evidence suggests that "CoQ10 is likely ineffective in moderately improving" the chorea associated with Huntington's disease. No large well-designed clinical trials of CoQ10 in cancer treatment have been done. The National Cancer Institute identified issues with the few, small studies that have been done stating, "the way the studies were done and the amount of information reported made it unclear if benefits were caused by the CoQ10 or by something else". The American Cancer Society has concluded, "CoQ10 may reduce the effectiveness of chemo and radiation therapy, so most oncologists would recommend avoiding it during cancer treatment. Lower levels of CoQ10 have also been observed in people with Parkinson's disease. Preliminary research has found that increasing CoQ10 may increase levels of the neurotransmitter dopamine, which is thought to be lowered in people with Parkinson's disease. It has also been suggested that CoQ10 might protect brain cells from damage by free radicals. A small, randomized controlled trial examined the use of 360 mg CoQ10 or a placebo in 28 treated and stable Parkinson's disease patients. After 4 weeks, CoQ10 provided a mild but significant significant mild improvement in early Parkinson's symptoms and significantly improved performance in visual function. As an antioxidant, Coenzyme Q10 helps protect your body against the harmful effects of toxins and also aids the absorption of beneficial vitamins and minerals. Antioxidants are sometimes credited with boosting weight loss, possibly due to their energising effect on the body helping increase the fat-burning benefits of exercise.