Octodrine is a stimulant that is structurally similar to amphetamine and is included in several so-called “pre-workout” and “fat-burning” supplements. Octodrine, has a history of use as a pharmaceutical drug. It was originally developed in the United States as an aerosolized treatment for bronchitis, laryngitis and other conditions Initially approved by the FDA in 1946 as Eskay’s Oralator, this inhaler appeared only in the 1949 edition of the Physicians’ Desk Reference. Octodrine was combined with several other medications, including theophylline, 3-octopamine, and adenosine, in multi-ingredient tablets sold between the early 1960s through the mid-2000s under the trade names Ambredin, Ordinal, Ordinal Retard and Ordinal Forte. Some proponents say octodrine is a safer alternative to other stimulants like ephedra and Dimethylamylamine (DMAA), but there is no scientific information to support this claim. Originally developed in the early 1950’s as a remedy to nasal congestion and as a possible anti-tumor drug, Octodrine has resurfaced as a key ingredient in dietary supplements for its stimulant and thermogenic benefits.

Methionine is an non-polar, aliphatic, essential α-amino acid that is used in the biosynthesis of proteins. High levels of methionine can be found in eggs, sesame seeds, Brazil nuts, fish, meats and some other plant seeds; methionine is also found in cereal grains. Most fruits and vegetables contain very little of it. Most legumes are also low in methionine. However, it is the combination of methionine and cystine which is considered for completeness of a protein. There is scientific evidence that restricting methionine consumption can increase lifespans in some animals. However, since methionine is an essential amino acid, it cannot be entirely removed from animals' diets without disease or death occurring over time. For example, rats fed a diet without methionine developed steatohepatitis (fatty liver), anemia and lost two thirds of their body weight over 5 weeks. Administration of methionine ameliorated the pathological consequences of methionine deprivation.

Methionine is an non-polar, aliphatic, essential α-amino acid that is used in the biosynthesis of proteins. High levels of methionine can be found in eggs, sesame seeds, Brazil nuts, fish, meats and some other plant seeds; methionine is also found in cereal grains. Most fruits and vegetables contain very little of it. Most legumes are also low in methionine. However, it is the combination of methionine and cystine which is considered for completeness of a protein. There is scientific evidence that restricting methionine consumption can increase lifespans in some animals. However, since methionine is an essential amino acid, it cannot be entirely removed from animals' diets without disease or death occurring over time. For example, rats fed a diet without methionine developed steatohepatitis (fatty liver), anemia and lost two thirds of their body weight over 5 weeks. Administration of methionine ameliorated the pathological consequences of methionine deprivation.

Sulfabenzamide is an antibacterial/antimicrobial. Often used in conjunction with sulfathiazole and sulfacetamide (trade name - Sultrin) as a topical, intravaginal antibacterial preparation against Haemophilus (Gardnerella) vaginalis bacteria. The mode of action of SULTRIN is not completely known. Indirect effects, such as lowering the vaginal pH, may be equally important mechanisms.

TRICHOLINE CITRATE is indicated for the treatment and management of hepatic disorders and asthma symptoms in adults. It exerts lipotropic action in the hepatic cells. It also can lower the symptoms of asthma and reducing the pro-inflammatory and inflammatory mediators of the leukotriene pathway.

Dichlorophenarsine is a potent anti-syphilitic drug, which exhibits a rapid effect on the serological reactions of the blood in early syphilis. Dichlorophenarsine was more rapid than thiacetarsamide sodium in its action against the canine heartworms infections. Dichlorophenarsine was used for the treatment of canine filariasis - emesia, nausea, and shock occurred several to 30 minutes after injection. Ascorbic acid and hesperidin methyl chalcone when used as a combined therapy afforded a definite protection in mice against the toxic effect of a single dose of intravenously administered dichlorophenarsine hydrochloride.

TRICHOLINE CITRATE is indicated for the treatment and management of hepatic disorders and asthma symptoms in adults. It exerts lipotropic action in the hepatic cells. It also can lower the symptoms of asthma and reducing the pro-inflammatory and inflammatory mediators of the leukotriene pathway.

Glucosulfone (Glucosulfone Free Acid, or Promin) is a compound used to treat mycobacterial infections, such as tuberculosis and leprosy. It is converted to dapsone in the body, which also has been shown to have therapeutic effects against dermatitis herpetiformis, actinomycotic mycetoma, asthma, malaria, rheumatoid arthritis, Kaposiís sarcoma, pneumocystis carinii (pneumonia), subcorneal pustular dermatosis and cystic acne. Once converted to dapsone, it has haemotoxic effects (destroying red blood cells, or disrupting blood clotting, potentially causing organ or tissue damage).

Tubocurarine, a naturally occurring alkaloid, is used to treat smoking withdrawl syndrom. Tubocurarine, the chief alkaloid in tobacco products, binds stereo-selectively to nicotinic-cholinergic receptors at the autonomic ganglia, in the adrenal medulla, at neuromuscular junctions, and in the brain. Two types of central nervous system effects are believed to be the basis of Tubocurarine's positively reinforcing properties. A stimulating effect is exerted mainly in the cortex via the locus ceruleus and a reward effect is exerted in the limbic system. At low doses the stimulant effects predominate while at high doses the reward effects predominate. Intermittent intravenous administration of Tubocurarine activates neurohormonal pathways, releasing acetylcholine, norepinephrine, dopamine, serotonin, vasopressin, beta-endorphin, growth hormone, and ACTH. Tubocurarine competes with acetylcholine for post-synaptic nicotinic NM receptors and blocks them.