Tandamine was developed as a selective serotonin reuptake inhibitor for the treatment of depression. Tandamine participated in clinical trials in hospitalized depressed patients, where it showed that the well-tolerated drug could be of some benefit for retarded depressions. In addition, was found in human volunteers, that tandamine possessed significant anticholinergic activity, to reduce appetite and to produce sedation. However, this drug has never been marketed.

Pridefine (AHR-1118) is a pyrrolidine derivative with clinically established antidepressant efficacy. Pridefine acted predominantly as a reuptake blocker of norepinephrine, dopamine, and 5-hydroxytryptamine, although some releasing activity was also present. Several clinical studies have demonstrated that pridefine is clinically as efficacious as imipramine and, perhaps more importantly, less toxic than standard antidepressants used.

Etoxadrol is an NMDA receptor antagonist. It exerts phencyclidine-like properties. Etoxadrol has anticonvulsant and anesthetic activity. Intravenous etoxadrol was clinically tested as an anesthetic.

Piroxantrone is one of a series of compounds commonly known as anthrapyrazoles developed in an effort to combine the broad antitumor activity of the anthracyclines with decreased myocardial toxicity. The mechanism of action of piroxantrone and other anthrapyrazoles is incompletely understood but likely involves DNA binding with induction of DNA strand breaks, DNA-protein cross-linking, and inhibition of DNA, RNA, and protein synthesis. Collectively, these findings suggested an interaction with topoisomerase II. Piroxantrone demonstrated antitumor activity in a wide spectrum of experimental systems against breast carcinoma, colon carcinoma, sarcoma, melanoma and leukemia. Piroxantrone is inactive in patients with persistent, progressive, or recurrent ovarian cancer who recently had received a platinum-based regimen. Piroxantrone has detectable but minimal activity against disseminated malignant melanoma. A phase II clinical trial of the piroxantrone administration for the treatment of advanced metastatic or recurrent endometrial cancer was prematurely terminated due to lack of patient accrual.

Milipertine was studied in patients with severe schizophrenia. Information about the current use of the drug is not available.

Nafoxidine is a nonsteroidal antiestrogen available as an investigational agent from the Investigational Drug Branch of the National Cancer Institute. It has been used effectively in the treatment of breast cancer patients. Nafoxidine competes with endogenous estrogen for binding to specific estrogen receptors. This agent also inhibits angiogenesis in some tissues by blocking the effects of fibroblast growth factor (FGF) and vascular endothelial growth factor (VEGF); paradoxically, it may enhance angiogenesis in uterine tissue. Nafoxidine also induces oxidative stress, protein kinase C and calcium signaling.

Metethoheptazine (WY-535) is an analgesic agent.

Solypertine (WIN-18413-2) is an antiadrenergic drug. Solypertine selectively blocked the conditioned avoidance response in rats. Solypertine potentiated hexobarbitone sleeping time, caused hypothermia and afforded protection from amphetamine toxicity inaggregated mice.

Tiapamil (also known as Ro 11-1781) is a dithiane derivative patented by Hoffmann-La Roche, F., und Co., A.-G. as calcium-channel antagonist useful for myocardial infarction treatment. Tiapamil, like verapamil, inhibited in a concentration-dependent manner Ca2+-induced contractions in isolated, K+-depolarized preparations of rat renal artery, dog coronary artery and rabbit main pulmonary artery. The inhibitory effects of Tiapamil can be overcome by raising the Ca2+ concentration of the bath fluid. In the rabbit main pulmonary artery, Tiapamil reduces 45Ca influx into the K+-depolarized vascular smooth muscle cells. Tiapamil inhibits the slow potentials in partially depolarized guinea-pig papillary muscles. Tiapamil decreases contractile force in isolated guinea-pig atria and papillary muscles, as well as in isolated cat hearts. Tiapamil also reduces heart rate and increases coronary flow in these preparations. Tiapamil doubled coronary artery blood flow in the coronary sinus blood without producing major changes in blood pressure and heart rate in anesthetized dogs. Tiapamil did not affect contractions of isolated guinea-pig ileum, rat stomach strips or rat vas deferens in response to various stimulants. Tiapamil have no major effects on renal water and electrolyte excretion, on autonomic nerves and receptors, on pain perception and on the central nervous system. Acute, subacute, and chronic toxicity studies demonstrate low toxicity for Tiapamil with no tendency for accumulation. In clinical trials, Tiapamil effectively lowers systolic and diastolic blood pressure, but have no effects on heart rate

Etoxadrol is an NMDA receptor antagonist. It exerts phencyclidine-like properties. Etoxadrol has anticonvulsant and anesthetic activity. Intravenous etoxadrol was clinically tested as an anesthetic.