Aronixil was developed as an anti-atherosclerotic drug.

Ecabapide (DQ 2511) is a compound with antiulcer and gastroprokinetic activity. Evidence from basic studies in animal models suggests that the drug acts on peripheral mechanisms of neural control. In the stomach, ecabapide acts to suppress firing in vagal afferent nerves and thereby reduce the flow of sensory information into the dorsal vagal complex. The mechanism of action of ecabapide in suppressing discharge in vagal afferent terminals appears to mimic that of nitric oxide by stimulating formation of cGMP and activation of an inhibitory transduction cascade in the sensory fibres. In this respect the mechanism of its pro-kinetic action differs from other promoter agents. Ecabapide development has been discontinued.

Glypinamide is a part of the second-generation sulfonamide derivatives. Members of this group of compounds are used to control blood sugar levels in diabetes mellitus type 2.

Eclanamine is a nontricyclic antidepressant agent. Down-regulation of beta-adrenergic receptors in the cerebral cortex may be involved in mediating the eclanamine pharmacological effect.

Ecastolol is a beta-sympatholytic agent.

Ecopipam (SCH-39166) is a selective D1 dopamine receptor antagonist both in vitro and in vivo. Additionally, it exhibits saturable, high-affinity binding to D5 receptors. Ecopipam was studied clinically for a variety of indications, including schizophrenia, drug abuse, and obesity, but in each case undesirable effects were observed. Currently, ecopipam is in clinical trials for the treatment of Lesch-Nyhan and Gilles de la Tourette's syndromes.

Pinokalant is the isoquinoline derivative. It is a broad-spectrum cation channel blocker which inhibits store-operated cation channels in human endothelial cells, mast cells, HL60 cells and in primary cultures of cortical and hippocampal neurons. Pinokalant inhibits voltage-operated calcium channels of the L- and N-subtypes in primary cultures of cortical neurons and shows some antagonism on the NMDA- and AMPA glutamate receptor subtypes. Pinokalant also acts as an antagonist at the delayed rectifier K+ channel in PC12 cells and cortical neurons. Pinokalant reduced in vivo lesion size as well as post mortem infarct size derived from 2,3,5-triphenyltetrazolium chloride-stained brain slices 24 hr after middle cerebral artery occlusion. Pinokalant has been evaluated as a potential neuroprotectant in rodent models of stroke.

Pincainide is a new beta-amino anilide with local anesthetic properties. It has been shown to be 3 times more potent than lidocaine as a local anaesthetic on desheathed frog sciatic nerve. It was found to be effective against arrhythmias induced in guinea-pigs by ouabain infusion or by administration of adrenaline and chloroform. Pincainide not only inhibited the influx of Ca 2+ and increased 45Ca efflux, thus reducing the contractile responses induced in rat aorta by noradrenaline and high K +, but it also inhibited other effects related to the noradrenaline-induced release of intracellular Ca 2+ stores. Further studies, however, must be performed in experimental models of arrhythmias before the effectiveness of pincainide as an antiarrhythmic drug can be established.