Piquindone is an antipsychotic pyrroloisoquinoline derivative that binds to dopamine D2 receptors. It is a potent D-2 antagonist. It has a low potential for extrapyramidal effects and tardive dyskinesia. Piquindone exhibited relatively weaker cataleptogenic and antistereotypic activity than haloperidol, and had minimal activity in a rat chronic stereotypy model of receptor supersensitivity. Piquindone almost as potent as haloperidol, with fewer or less intense extrapyramidal effects and low potential for tardive dyskinesia. Piquindone led to moderate but significant improvements in the positive symptoms of schizophrenia and to improvements in negative symptoms just below the level of statistical significance. Therapeutic efficacy of a piquindone antagonist in Tourette Syndrome can be achieved without production of disabling extrapyramidal-side effects.

Pinacyanol iodide is a fluorescent cationic cyanine dye used to stain biological specimens. It is the obstetric diagnostic aid. The mechanism of tracing with pinacyanol iodide dyes is based on their lipid solubility. Pinacyanol iodide dyes are more efficacious than classical tracing methodologies especially during early stages of development and consequently have been used to reveal the spatiotemporal patterns of axonal development in different species. The unique properties of the pinacyanol iodide dye tracing method have opened up new avenues for tracing connections in human postmortem specimens. Pinacyanol iodide dye tracing is incompatible with alcohol fixation and paraffin embedding of tissue.

Teloxantrone (also known as DuP 937) was developed as an anthrapyrazole intercalator that inhibits DNA synthesis. Teloxantrone interacts with topoisomerase II, thereby inhibiting DNA replication and repair, as well as RNA and protein synthesis. The drug participated in phase II clinical trials in colorectal carcinoma, in non-small cell lung cancer, in metastatic malignant melanoma. However, these studied apparently were discontinued.

Quinelorane is an octahydropyrimido[4,5-g]quinolone derivative patented by American pharmaceutical company Eli Lilly and Co. as for the treatment anxiety, Parkinson's syndrome, depression, and hypertension. Quinelorane acts as an agonist of dopamine agonist for the D2 and D3 receptors. In preclinical studies Quinelorane (IM) treatment produced dose-dependent effects on male sexual responding. Penile erections and masturbation were markedly facilitated following treatment with either 2.5 or 5 micrograms/kg quinelorane. Higher doses of quinelorane (10 and 25 micrograms/kg) generally did not further augment sexual responding but rather resulted in a return in sexual responding to control vehicle levels. Quinelorane had a biphasic effect on yawning behavior of the monkeys with low doses (2.5 and 5 micrograms/kg) facilitating yawning and high doses (25 micrograms/kg) inhibiting yawning.

Delequamine is a selective antagonist of alpha2 adrenoreceptor, developed by Syntex Research. The compound was investigated for the treatment of erectile dysfunction and was modestly effective in younger (less than 45 years) subjects.

Droxacin is quinolone antibiotic. It is topoisomerase inhibitor.

Dofamium is the antiseptic agent. It was used for the water sterilization.

Davalintide (AC-2307) is a second-generation mimetic of a pancreatic peptide hormone amylin, developed by Amylin Pharmaceuticals. In preclinical models, davalintide possessed enhanced pharmacological properties and was able to reduce food intake. Safety, tolerability, and effect on body weight of subcutaneous davalintide were investigated in obese or overweight subjects. The results of the clinical trial were not reported, but Amylin decided to discontinue davalintide in 2010.

Mimbane was developed by Parke-Davis as an analgesic. Information about the current use of the drug is not available.

Nitroarginine (LNNA), an analog of L-arginine, is a competitive inhibitor of nitric oxide synthase which has been shown to prevent glutamate toxicity. Nitroarginine has been experimentally tested for its ability to prevent ammonia toxicity and ammonia-induced alterations in brain energy and ammonia metabolites. The Kd value (k(off)/k(on)) of bovine brain cNOS for LNNA was 15 nM. In contrast to the potent and slow onset of LNNA inhibition of brain cNOS, LNNA inhibition of inducible mouse macrophage NOS (iNOS) was weaker (Ki = 4.4 uM) and rapidly reversible. Thus, LNNA was a 300-fold more potent inhibitor of bovine brain cNOS than mouse macrophage iNOS. By inhibiting nitric oxide synthase LNNA causes the selective reduction of blood flow to tumor cells. Despite the potential of LNNA to function as an adjuvant in cancer therapies, its poor solubility and stability have hindered the development of an injectable formulation of LNNA that is suitable for human administration.