Bamipine (trade name Soventol) is a sedating antihistamine with pronounced sedative effects. Bamipine is a pharmaceutical drug acting as an H1 antihistamine with anticholinergic properties. It is used as an antipruritic ointment. Bamipine hydrochloride has been given by mouth. Bamipine, bamipine lactate, and bamipine salicylate have all been applied topically.

Balofloxacin (Q-35), is an orally active fluoroquinolone antibiotic. It has been developed for the treatment of urinary tract infection. The bactericidal action of Balofloxacin results from interference with the enqyme DNA gyrase which is needed for the synthesis of bacterial DNA. Balofloxacin is efficacious against Gram-negative bacteria. It also has enhanced activity against Gram positive bacteria, including MRSA and Streptococcus pneumoniae. Side effects of Balofloxacin are: sensitivity to light, abdominal pain, nausea, heartburn, urticarial, irritation when applied locally. Balofloxacin may interact with the following medicines and salts: antacids, non-steroidal anti-inflammatory drug, quinolones, theophylline.

Kainic acid (kainate) is a natural marine acid present in some seaweed. Kainic acid is a potent neuroexcitatory amino acid that acts by activating receptors for glutamate, the principal excitatory neurotransmitter in the central nervous system. Kainic acid is commonly injected into laboratory animal models to study the effects of experimental ablation. Kainic acid is a direct agonist of the glutamic kainate receptors and large doses of concentrated solutions produce immediate neuronal death by overstimulating neurons to death. Such damage and death of neurons is referred to as an excitotoxic lesion. Thus, in large, concentrated doses kainic acid can be considered a neurotoxin, and in small doses of dilute solution kainic acid will chemically stimulate neurons. Kainic acid is utilised in primary neuronal cell cultures and acute brain slice preparations [5] to study of the physiological effect of excitotoxicity and assess the neuroprotective capabilities of potential therapeutics. Kainic acid is a potent central nervous system excitant that is used in epilepsy research to induce seizures in experimental animals, at a typical dose of 10–30 mg/kg in mice. In addition to inducing seizures, kainic acid is excitotoxic and epileptogenic. Kainic acid induces seizures via activation of kainate receptors containing the GluK2 subunit and also through activation of AMPA receptors, for which it serves as a partial agonist.

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

Tipepidine (INN) also known as tipepidine hibenzate (JAN), is a synthetic, non-opioid antitussive and expectorant of the thiambutene class. The drug was discovered in the 1950s, and was developed in Japan in 1959. It is used as the hibenzate and citrate salts. The safety of tipepidine in children and adults has already been established. It is reported that tipepidine inhibits G-protein-coupled inwardly rectifying potassium (GIRK)-channel currents. The inhibition of GIRK channels by tipepidine is expected to modulate the level of monoamines in the brain. Tipepidine can improve attention deficit/hyperactivity disorder (ADHD) symptoms by modulating monoaminergic neurotransmission through the inhibition of GIRK channels. Tipepidine also is being investigated in depression, obsessive-compulsive disorder, and attention-deficit hyperactivity disorder (ADHD). As it acts on the central nervous system, overdose can cause altered mental status and other neurological symptoms; however, there have been few reports of tipepidine intoxication, including six cases in children and no cases in adults.

Tipepidine (INN) also known as tipepidine hibenzate (JAN), is a synthetic, non-opioid antitussive and expectorant of the thiambutene class. The drug was discovered in the 1950s, and was developed in Japan in 1959. It is used as the hibenzate and citrate salts. The safety of tipepidine in children and adults has already been established. It is reported that tipepidine inhibits G-protein-coupled inwardly rectifying potassium (GIRK)-channel currents. The inhibition of GIRK channels by tipepidine is expected to modulate the level of monoamines in the brain. Tipepidine can improve attention deficit/hyperactivity disorder (ADHD) symptoms by modulating monoaminergic neurotransmission through the inhibition of GIRK channels. Tipepidine also is being investigated in depression, obsessive-compulsive disorder, and attention-deficit hyperactivity disorder (ADHD). As it acts on the central nervous system, overdose can cause altered mental status and other neurological symptoms; however, there have been few reports of tipepidine intoxication, including six cases in children and no cases in adults.

Octopamine is an organic chemical closely related to norepinephrine. In many types of invertebrates it functions as a neurotransmitter. Octopamine is known to exert adrenergic effects in mammals although specific octopamine receptors have been cloned only in invertebrates. It has been shown that octopamine can stimulate alpha(2)-adrenoceptors (ARs) in Chinese hamster ovary cells transfected with human alpha(2)-ARs. Octopamine stimulates lipolysis through beta(3)-rather than beta(1)-or beta(2)-AR activation in white adipocytes from different mammalian species. Octopamine activates only beta(3)-ARs and is devoid of alpha(2)-adrenergic agonism. Thus, octopamine could be considered as an endogenous selective beta(3)-AR agonist. In humans Octopamine is a trace amine found endogenously in the human brain where it interacts with signalling of catecholamines; it is structurally similar to synephrine and tyramine, being a metabolite of the latter (via dopamine β-hydroxylase) and substrate for the synthesis of the former (via phenethanolamine N-methyltransferase[3]) while being perhaps the closest in structure to noradrenaline. Octopamine is found in the bitter orange similar to many biogenic amines related to L-tyrosine that are used as dietary supplements, this includes synephrine and hordenine. p-Octopamine HCl (Norphen) was studied in the late 1960’s and 1970’s as a drug for the treatment of hypotensive regulatory and circulatory disorders. Octopamine was used as a nootropic. All optical isomers (enantiomers) of octopamine are on the World Anti-Doping Agency (WADA) 2014 list of substances prohibited in competition.

Dimetacrine is a tricyclic antidepressant. It has been used in the treatment of depressive states. Dimetacrine usage associates with risk of cardiovascular side effects.

Caroverine is a spasmolytic drug used in tinnitus treatment improves mechanosensitivity and mechanotransduction phenomenon and otoneuroprotective agent. Caroverine acts as an N-type calcium channel blocker, competitive AMPA receptor antagonist, and non-competitive NMDA receptor antagonist. When excessive glutamate binds to NMDA receptors, the receptor opens and allows calcium and sodium to enter the neuron, abnormal levels of calcium disturbs ionic balance causing spontaneous depolarization state. Pathological spontaneous depolarization state is reversed back to physiological polarization state by antagonistic property of Caroverine.