Cinchonidine is an alkaloid found in Cinchona officinalis and Gongronema latifolium. Cinchonidine is an antimalarial drug which has been used clinically in malaria caused by Plasmodium falciparum. Cinchonidine is reported as an ingredient of Quinimax in a number of countries. Quinimax is a combination of four alkaloids (quinine, quinidine, cinchoine and cinchonidine).

Ipidacrine (Neiromidin) is a drug first synthesized by the National Research Center for Biologically Active Compounds in the Russian Federation. Neuromidin has a direct stimulating effect on the conduct of the pulse along the nerve fibers, interneuronal and neuromuscular synapses of the CNS and peripheral nervous system. Pharmacological action neuromidin is based on a combination of two mechanisms of action: blockade of potassium channels of the membrane of neurons and muscle cells; reversible inhibition of cholinesterase in synapses. Neuromidin enhances the effect on smooth muscle acetylcholine not only, but epinephrine, serotonin, histamine and oxytocin. It has the following pharmacological effects: - Improve and stimulate impulse conduction in the nervous system and neuromuscular transmission; - Enhances contractility of smooth muscle organs under the influence of acetylcholine agonists, adrenaline, serotonin, histamine and oxytocin receptors, with the exception of potassium chloride; - Improves memory, slows progressive course of dementia. In preclinical studies Neuromidin is not teratogenic, embryotoxic, mutagenic, carcinogenic and immunotoxic action, had no effect on the endocrine system

Ipidacrine (Neiromidin) is a drug first synthesized by the National Research Center for Biologically Active Compounds in the Russian Federation. Neuromidin has a direct stimulating effect on the conduct of the pulse along the nerve fibers, interneuronal and neuromuscular synapses of the CNS and peripheral nervous system. Pharmacological action neuromidin is based on a combination of two mechanisms of action: blockade of potassium channels of the membrane of neurons and muscle cells; reversible inhibition of cholinesterase in synapses. Neuromidin enhances the effect on smooth muscle acetylcholine not only, but epinephrine, serotonin, histamine and oxytocin. It has the following pharmacological effects: - Improve and stimulate impulse conduction in the nervous system and neuromuscular transmission; - Enhances contractility of smooth muscle organs under the influence of acetylcholine agonists, adrenaline, serotonin, histamine and oxytocin receptors, with the exception of potassium chloride; - Improves memory, slows progressive course of dementia. In preclinical studies Neuromidin is not teratogenic, embryotoxic, mutagenic, carcinogenic and immunotoxic action, had no effect on the endocrine system

Azapropazone is a non-steroidal anti-inflammatory drug. It is indicated for use in the treatment of rheumatoid arthritis, osteo-arthritis and gout. Gastro-intestinal disturbances, allergic skin rashes and photosensitivity, headache, vertigo, oedema and kidney impairment may occur. Gastro-intestinal bleeding and angioedema have been reported. Pre-treatment with this drug failed to modify plasma concentrations of phenobarbitone. Brain levels of imipramine or desmethyl imipramine were unaffected 60 minutes after oral administration of imipramine.

Nepaprazole is a proton pump inhibitor of substituted 2-(2-pyridinylmethylsulfinyl)-1H-benzimidazole class evaluated as useful drug for the clinical treatment of peptic ulcer diseases. The effects of the TY-11345 (nepaprazole sodium salt) on gastric mucosal proton pump (H+/K(+)-ATPase) activity, gastric acid secretion and gastro-duodenal lesions were investigated in experimental animals. TY-11345 potently inhibited H+/K(+)-ATPase activity in isolated rabbit gastric mucosal microsomes and the inhibitory effect was enhanced under weak acid conditions. In Ghosh & Schild rats, intravenous injection of TY-11345 significantly inhibited gastric acid secretion stimulated by tetragastrin; the effect of TY-11345 was twice as potent as that of omeprazole. In pylorus ligated rats, TY-11345 inhibited basal gastric acid secretion by both the intraduodenal and oral routes with 9 and 5 times more greater potency than those of omeprazole, respectively. The antisecretory effect of TY-11345 persisted for more than 24 h in pylorus ligated rats. In experimental ulcer models, TY-11345 prevented the formation of water-immersion stress, ethanol or indomethacin-induced gastric lesions and mepirizole-induced duodenal lesions in rats. The antiulcer effects of TY-11345 were 3 to 15 times more potent than those of omeprazole. These results suggested that TY-11345 had potent antisecretory and antiulcer effects which are exerted by suppression of H+/K(+)-ATPase activity in gastric parietal cells. Nepaprazole sodium had been studied in phase II clinical trials for treatment of gastric ulser but this research has been discontinued.

Bucladesine is a cyclic nucleotide derivative which mimics the action of endogenous cAMP and is a phosphodiesterase inhibitor. The compound is used in a wide variety of research applications because it mimics cAMP and can induce normal physiological responses when added to cells in experimental conditions. cAMP is only able to elicit minimal responses in these situations. The neurite outgrowth instigated by bucladesine in cell cultures has been shown to be enhanced by nardosinone. Recently, the effect of bucladesine as a cAMP analog has been studied on the pentylenetetrazol-induced seizure in the wild-type mice. The data showed that bucladesine (300nM/mouse) reduced the seizure latency and threshold. In addition they found that combination of bucladesine and pentoxyfillin has additive effect on seizure latency and threshold. Bucladesine is more lipophilic than cAMP and in contrast to cAMP capable of penetrating cell membranes. Bucladesine interferes with different protein kinases which are normally activated by cAMP. Bucladesine has undergone in the past clinical developments as systemic treatment for cardioprotection and as topical treatment to improve wound healing. In Japan, a bucladesine ointment (Actosin® ointment; Daiichi Pharmaceutical Co., Ltd., Tokyo, Japan) was marketed to treat skin ulcers. Clinical studies have shown favourable effects on diabetic foot ulcers or decubitus, but the compound was later withdrawn despite good tolerability. One possible reason for the withdrawal may be the odour of the cream formulation which can be related to the hydrolytic cleavage in aqueous solutions resulting in release of butyric acid.

Exatecan (DX-8951f), a new hexacyclic camptothecin analogue, is a second-generation topoisomerase inhibitor that prevents rapidly dividing cells from replicating by interrupting DNA transcription, ultimately leading to cell death. Preclinical studies showed exatecan to have broad-spectrum antitumor efficacy. Exatecan is in phase III clinical trials for the treatment of pancreas cancer. However, there is no recent report of this research. The compound was co-developed by Daiichi Pharmaceutical (now Daiichi Sankyo) and Yakult Honsha.

Pimethixene is an antihistamine exerting sedative and antitussive properties. Pimethixene displayed high affinity to serotonin 5-HT2A and 2B, histamine H1 and muscarinic acetylcholine M2 receptors. Oral pimethixene used to calm dry cough and irritation coughs in children.

Mazaticol is an anti-acetylcholine agent used in Japan for the treatment of Parkinson's syndrome.

Metralindole (Inkazan) is a reversible inhibitor of monoamine oxidase A (RIMA) which was used in Russia as an antidepressant. Inkasan (3-methyl-8-methoxy-3H, 1,2,5,6- tetrahydropyrazine /1.2.3-ab/-beta-carboline hydrochloride) has pharmacological properties characteristic of antidepressants. The clinical antidepressant effect of inkasan is combined with stimulating action. The drug is primarily indicated for patients in whom adynamic (anergic) disturbances are predominant in the clinical picture of depression.