Bisdisulizole disodium (also known as disodium phenyl dibenzimidazole tetrasulfonate) under the brand name Neoheliopan AP is marketed in some Europe countries and in Australia. This compound is a part of sunscreens to absorb UVA rays.

Phytonadiol sodium diphosphate is an antihaemorrhagic agent.

Uric acid, generated from the metabolism of purines, has proven and emerging roles in human disease. Humans produce large quantities of uric acid. Excess serum accumulation of uric acid can lead to a type of arthritis known as gout. Hyperuricemia may increase risk factors for cardiovascular disease. High serum uric acid was associated with higher risk of type 2 diabetes and other diseases.

Lactic acid, D- is a natural optical isomer of lactic acid. It is a poorly utilized isomer – 30 to 40% of the dose ingested is excreted in the urine. Lactic acid, D- is known to be harmful to human metabolism and it can result in acidosis and decalcification. D-lactic acidosis, also referred as D-lactate encephalopathy, has been reported in patients with short bowl syndrome. Lactic acid, D- is an interesting precursor for manufacturing heat-resistant polylactic acid (PLA) bioplastics which can be widely used, for example as packaging material, coatings, for textiles or in the automotive industry.

Carbenoxolone is a glycyrrhetinic acid derivative with a steroid-like structure, similar to substances found in the flavor-ful root of the licorice plant. It influences endogenous glucocorticoids by potently inhibiting 11β-hydroxysteroid dehydrogenase. Electrolyte imbalance is a serious side effect of carbenoxolone when used systemically. Carbenoxolone is best known in cellular physiology as a modestly potent, reasonably effective, water-soluble blocker of gap junctions. It exerts anti-inflammatory activity. Carbenoxolone has used orally in the clinical treatment of peptic ulcers, now it is used topically for the treatment of lip sores and mouth ulcers.

Sulfaquinoxaline is a veterinary drug, which can be given to animals to treat coccidiosis and Acute Fowl cholera. It has often used in combinations with others drugs. It had its origins in the chemical synthetic program that sprang from the introduction of sulfonamide drugs into human medicine in the 1930s. The program was sustained through the years of World War II despite declining clinical use of that chemical class. Several sulfa drugs were known to be active against the sporozoan parasite (Plasmodium spp.) that causes malaria, but were not satisfactory in clinical practice. A sulfonamide that had a long plasma half-life would ipso facto be considered promising as an antimalarial drug. Sulfaquinoxaline, synthesized during the war, was such a compound. It proved too toxic to be used in human malaria, but was found to be a superior agent against another sporozoan parasite, Eimeria spp., the causative agent of coccidiosis in domestic chickens. In 1948 sulfaquinoxaline was introduced commercially as a poultry coccidiostat. The action mechanism of sulfaquinoxaline is to inhibit the dihydrofolate synthetase to encumber the nucleate synthesis of bacterium and coccidian its active peak to coccidian is at the second schizont stage (the fourth day of coccidial life cycle), so it will not affect the anti-coccidial immunity in chicken.