(-)-Limonene is found in mint oils and has a piney, turpentine-like odor. (-)-Limonene has an antioxidant effect and it cause rat myometrial contraction through activation of the A2A receptor and opening of the voltage-gated Ca(2+) channel. It is a natural larvicidal agents against A. aegypti. (-)-Limonene induced accumulation of protein droplets containing alpha 2 mu-globulin in proximal tubular epithelial cells in male rats, inducing nephropathy.

Doconexent (Docosahexaenoic acid, DHA) is an omega-3 fatty acid that is a primary structural component of the human brain, cerebral cortex, skin, and retina. DHA is widely used as a food supplement, and is beleived to support healthy brain development in young childred, prevent cardiovascular disease and cognitive decline during Alzheimer's disease. Most of these claims, however, were not supported by clinical trials. DHA spray is used as a tanner.

Limonene is a naturally occurring chemical which is used in many food products, soaps and perfumes for its lemon-like flavor and odor. Limonene also is a registered active ingredient in 15 pesticide products used as insecticides, insect repellents, and dog and cat repellents. Pesticide products containing limonene are used for flea and tick control on pets, as an insecticide spray, an outdoor dog and cat repellent. It has also been used for relief of heartburn and gastroesophageal reflux (GERD). D-limonene has well-established chemopreventive activity against many types of cancer. Limonene and its oxidation products are skin and respiratory irritants.

Ethyl vanillin is an important food additive and flavouring agent approved by FAO/WHO, has a vanilla odor four times that of vanillin and shows anti-mutagenic activity. It is used as flavoring agent and/or as an additive by the food, cosmetic, or pharmaceutic industries. Ethyl vanillin possesses antioxidant and anti-inflammatory properties. The antioxidant activity of ethyl vanillin was much stronger than that of vanillin in the oxidative hemolysis inhibition assay, but was the same as that of vanillin in the ORAC assay. Oral administration of ethyl vanillin to mice increased the concentration of ethyl vanillic acid, and effectively raised antioxidant activity in the plasma as compared to the effect of vanillin. The antioxidant activity of ethyl vanillin might be more beneficial than has been thought in daily health practice. The anti-angiogenic, anti-inflammatory and anti-nociceptive properties of EVA are based on its suppressive effect on the production of nitric oxide possibly via decreasing the reactive oxygen species level.

Lomerizine (INN) (also known as KB-2796) is a diphenylpiperazine class L-type and T-type calcium channel blocker with relatively selective CNS effects. Voltage dependent L-type Ca2+ channels play an important role Ca2+ influx. L-type calcium currents typically require a strong depolarization for activation and are long-lasting. The common pharmacological profile of L-type channels is determined by the α1 subunit, which forms the Ca2+ selective. Lomerizine was developed as a potential agent for the selective improvement of the ocular or cerebrovascular circulation with minimal adverse cardiovascular effects, and it is used as an anti- migraine drug. Lomerizine selectively relaxes smooth muscle cells by inhibiting L-type Ca2+ influx, thereby reducing tone and increasing blood flow in cerebral vessels. Lomerizine also shows neuroprotective effects against secondary degeneration resulting from injury in retinal ganglion cells. While some calcium-channel blockers, such as flunarizine, act on the dopaminergic system, lomerizine is ineffective in vivo at inhibiting the release of dopamine. However, it has been observed to weakly inhibit the binding of [3H]spiperone to D2 dopamine receptors in vitro. While researchers are unsure of the reason for this difference, one hypothesis is that the doses administered cannot reach a high enough concentration in the brain to affect D2 receptors.

Lercanidipine is antihypertensive drugs which acts by blocking L-type calcium channels, allowing relaxation and opening of blood vessels. Lercanidipine exists as a racemate, with anti-hypertensive activity residing primarily in S-enantiomer. NDA for lercanidipine was submitted to FDA in 2002 by Forest Laboratories, but FDA refused to approve the drug, and lercanidipine is not marketed in USA. Lercanidipine is also investigated in preclinical models of epilepsy and ischemic stroke.

(R)-Lercanidipine is enantiomer of antihypertensive drugs Lercanidipine, that acts by blocking L-type calcium channels, allowing relaxation and opening of blood vessels. The dihydropyridine calcium antagonists promote systemic vasodilatation by a reversible blockade of voltagedependent Ca2+ influx through L-type channels in the cell membrane. (S)-Lercanidipine has 100- to 200-fold greater affinity than the (R)-enantiomer for the L-type calcium channel. The pharmacokinectics of (S)- Lercanidipine has been evaluated in healthy volunteers, in elderly and non-elderly patients with hypertension, and in patients with renal or hepatic impairment. Patients from these studies were investigated after receiving a single 10 or 20 mgdose of [14C]-labeled rac-Lercanidipine as a solution. The maximum plasma concentrations of (S)-Lercanidipine were reached within 2–3 h and the area under the plasma concentration–time curves were not linearly related to the dose, indicating a saturable first-pass metabolism. The absorption of (S)-LER increases after the ingestion of a highfat meal. Lercanidipine is highly bound to plasma protein (>98%) in humans. Its volume of distribution of 2–2.5 L/kg was determined in healthy volunteers after intravenous infusion of 2 mg. Lercanidipine is extensively metabolized by CYP 3A4 to inactive pyridine derivatives. A crossover study involving a single administration of either 10 mg of (R)- or (S)-LER or 20 mg of rac-LER as a solution demonstrated no in vivo enantiomer interconversion

(S)-Lercanidipine is enantiomer of antihypertensive drugs Lercanidipine, that acts by blocking L-type calcium channels, allowing relaxation and opening of blood vessels. The dihydropyridine calcium antagonists promote systemic vasodilatation by a reversible blockade of voltage-dependent Ca2+ influx through L-type channels in the cell membrane. (S)-Lercanidipine has 100- to 200-fold greater affinity than the (R)-enantiomer for the L-type calcium channel. The pharmacokinetics of (S)- Lercanidipine has been evaluated in healthy volunteers, in elderly and non-elderly patients with hypertension, and in patients with renal or hepatic impairment. Patients from these studies were investigated after receiving a single 10 or 20 mg dose of [14C]-labeled rac-Lercanidipine as a solution. The maximum plasma concentrations of (S)-Lercanidipine were reached within 2–3 h and the area under the plasma concentration-time curves were not linearly related to the dose, indicating a saturable first-pass metabolism. The absorption of (S)-LER increases after the ingestion of a high-fat meal. Lercanidipine is highly bound to plasma protein (>98%) in humans. Its volume of distribution of 2–2.5 L/kg was determined in healthy volunteers after intravenous infusion of 2 mg. Lercanidipine is extensively metabolized by CYP 3A4 to inactive pyridine derivatives. A crossover study involving a single administration of either 10 mg of (R)- or (S)-LER or 20 mg of rac-LER as a solution demonstrated no in vivo enantiomer interconversion

Manidipine, (S)- is enantiomer of Manidipine a lipophilic, third-generation dihydropyridine calcium channel antagonist with a high degree of selectivity for the vasculature, thereby inducing marked peripheral vasodilation with negligible cardiodepression. Manidipine has different pharmacological effects and (S)-manidipine is shown to be about 30–80 times more potent than (R)-manidipine in its antihypertensive action and in the radioligand binding assay. Patch-clamp experiments revealed that the S-enantiomers of manidipine displayed a faster onset of action and produced a greater blockade than the R-enantiomer. Also, manidipine enantiomers have markedly different pharmacokinetics and the S/R ratio for (S)- and (R)-enantiomer concentrations is 2.0

Manidipine, (R)- is enantiomer of Manidipine a lipophilic, third-generation dihydropyridine calcium channel antagonist with a high degree of selectivity for the vasculature, thereby inducing marked peripheral vasodilation with negligible cardiodepression. Manidipine has different pharmacological effects and (S)-manidipine is shown to be about 30–80 times more potent than (R)-manidipine in its antihypertensive action and in the radioligand binding assay. Patch-clamp experiments revealed that the S-enantiomers of manidipine displayed a faster onset of action and produced a greater blockade than the R-enantiomer. Also, manidipine enantiomers have markedly different pharmacokinetics and the S/R ratio for (S)- and (R)-enantiomer concentrations is 2.0