Rivenprost (ONO-4819) is a potent and selective EP4 receptor agonist. This compound can increase bone formation by stimulating osteoblast differentiation and function, possibly by modulating mesenchymal cell differentiation. Rivenprost has also been studied for its potential to prevent bone loss (in osteoporosis) and stabilize bone implants. Combined with risedronate, rivenprost may be an effective treatment for osteoporosis. A phase II study evaluating rivenprost in ulcerative colitis was terminated in 2009.

Arhalofenate is a uricosuric drug which lowers serum urate by blocking its reabsorption by the proximal tubules of the kidney. Arhalofenate activity is mediated by inhibition of URAT1, OAT4 and OAT10. Additionally, arhalofenate has been suggested to exert potent anti-inflammatory activity. Arhalofenate has completed Phase 2 and is ready to advance to Phase 3 as a novel potential treatment for gout. The drug was also tested in patients with type 2 diabetes mellitus (phase III study), where it demonstrated its ability to lower glucose level, acting as a selective, partial PPAR-gamma agonist. However, the development of arhalofenate as an anti-diabetic drug was terminated.

QGC-001 (also known as RB-150) is an aminobutane-1-sulfonic acid derivative patented by Institut National de la Sante et de la Recherche Medicale as antihypertensive agent. QGC-001 acts as aminopeptidase A inhibitor and suppress conversion of angiotensin II to angiotensin III in brain tissues Oral administration of RB150 in conscious deoxycorticosterone acetate (DOCA)–salt rats inhibited brain aminopeptidase A activity, resulting in values similar to those obtained with the brains of normotensive rats, demonstrating the central bioavailability of RB150. Oral RB150 treatment resulted in a marked dose-dependent reduction in blood pressure in DOCA-salt but not in normotensive rats. In clinical trials single oral administration of QGC001 up to 1,250 mg in healthy volunteers was well-tolerated. Following oral administration, QGC001 is absorbed via the gastrointestinal tract and converted partially into its active metabolite EC33 in plasma. As in animal experiments, in normotensive subjects QGC001 had no effect on the systemic renin-angiotensin-aldosterone parameters and on PCop concentrations, a marker of vasopressin release.

Pirinixic acid is a PPARα ligand that can affect atherogenesis by modulating hepatic lipid metabolism and by acting directly on vascular tissue. PPARα activation is generally assumed to be the primary means by which Pirinixic acid produces its biological effects. Nevertheless, there is increasing evidence to suggest that Pirinixic acid is also capable of affecting cellular processes directly. It is under experimental investigation for prevention of severe cardiac dysfunction, cardiomyopathy and heart failure as a result of lipid accumulation within cardiac myocytes. Treatment is primarily aimed at individuals with an adipose triglyceride lipase (ATGL) enzyme deficiency or mutation. For example, cardiac contractility was improved by treating ATGL(-/-) mice with the Pirinixic acid.

Ioxabrolic Acid is triiodobenzoic acid derivative and iodine-containing contrast media

Iomorinic Acid is triiodobenzamide derivative patented by Lentia G.m.b.H. as a radiographic contrast medium for liver imaging.

Clamidoxic acid is a derivative of phenoxyacetic acid developed in the late 1950s by Smith and Nephew Research Ltd. Clamidoxic acid has been shown to have anti-inflammatory activity and low toxicity in animal tests. The compound was investigated in the clinical trials in patients suffering from rheumatoid arthritis and painful uncomplicated osteoarthritis of the hip, however, no further clinical development was reported.

Sparfosate (PALA) is a stable transition state analogue for an aspartate transcarbamylase- cartalyzed reaction with antineoplastic activity. PALA is a potent inhibitor of aspartate transcarbamylase (Ki about 10(-8) M for ACTases of various origins), which in whole cells blocks the de novo synthesis of pyrimidines. Thus PALA inhibits de novo pyrimidine biosynthesis and increases the extent to which fluorouracil metabolites are incorporated into RNA. In vivo, low doses of PALA inhibit whole body pyrimidine synthesis. While this action is cytotoxic in vitro, extensive human testing demonstrates that PALA alone is devoid of selective antitumor activity. Interest in the therapeutic action of PALA derives from the demonstration that its action potentiates the cytotoxicity of several cytotoxic drugs, notably 5-fluorouracil (5-FU). Development of Sparfosate for cancer and Hepatitis B treatment is assumed to have been discontinued.

Bromebric Acid (Cytembena) is a derivative of bromoacrylic acid with cytostatic and antineoplastic activity. Chemical structure of Bromebric Acid is not related to any previous antineoplastic agent. In animal tumor screens, Jelinek and Semonsky noted antineoplastic activity of Cytembena against sarcoma 180, atlenocarcinoina of the lactic gland in mice, Ehrlich’s ascitic carcinoma, Yoshida’s ascitic sarcoma, and Zojdeln’s heap