Brovincamine also known as brovincamine fumarate (BV, Sabromin) was used in Japan mainly as an improver of cerebral circulation and metabolism, and also as an inhibitor of the aggregation of platelets through the cyclic AMP pathway in patients with normal tension glaucoma. Brovincamine exerts its action via calcium channels blockade. The current drug status is unknown.

Butoctamide (Butoctamide hydrogen succinate, BAHS), which is related to an organic compound naturally occurring in CSF, has been demonstrated to increase REM sleep in cats and young adults. BAHS was confirmed also to increase REM sleep in healthy aged subjects. The drug is marketed under the brand named Listomin S in Japan. It is effective against insomnia and other sleep disorders.

Xanthinol (xanthinol nicotinate) is a xanthine derivative, peripheral vasodilator agent. It exerts it`s pharmacological action by acting as a vasodilator and improves blood flow to brain, arteries, and to the periphery. It increases brain glucose metabolism and thus improves brain ATP levels. It stimulates memory and concentration elevates brain energy levels. Indications for Xanthinol Nicotinate: 1. Peripheral vascular sclerosis 2. Cerebral circulatory disorders 3. Arteriosclerosis 4. Endarteritis obliterans 5. Short term memory disorders 6. Mental flagging 7. Anti ageing memory support 8. Diabetic angiopathy 9. Diabetic gangrene 10. Hyperlipidaemia 11. Intermittent claudication Side Effects of Xanthinol Nicotinate: 1. Flushing 2. Feeling of warmth 3. Nausea 4. Heart burn 5. Vomiting 6. Itching of skin For 30 years, Xanthinol nicotinate has been on the market for the treatment of impaired brain function, i.e., organic brain syndromes of various etiologies. Controlled double-blind phase-III clinical trials have shown that xantinol nicotinate is also an effective drug in the treatment of dementia. Xanthinol nicotinate is also helpful in the management of leg ulcers associated with haemoglobinopathies. Xanthinol was approved as a drug in 1998 in Canada and nowadays its status is cancelled post marketing. The positively charged xanthinol ion is thought to help the transportation of the nicotinic acid into the cell since the later cannot freely diffuse through the cell membrane. The mechanism of action is thought to be related to present influence in the cell metabolism through the nucleotides NAD and NADP. Also, the nicotinic acid is a coenzyme for a lot of proteins involved in tissue respiration (Embden-Meyerhof and citrate cycle). The effect of xanthinol nicotinate causes an increase in glucose metabolism and energy gain.

Benproperine (Cofrel) is a cough suppressant. It is used for symptomatic relief of cough. Cofrel is 2-4 times as potent as codeine in suppressing cough in animals. It acts peripherally by blocking afferent sensory nerve impulses originating from receptors in the lungs and pleura.

Methylarsonic acid, monosodium salt is an organoarsenic compound formed from the methylation of inorganic arsenic by living organisms. Methylarsonate is used as a contact herbicide in either the monosodium or disodium salt form. It goes by the trade names Weed-E-Rad, Ansar 170 H.C., Ansar 529 H.C., DiTac and others. Methylarsonate is considered only slightly toxic, having an oral LD50 of 2200 mg/Kg for rats. The inhalation risk is greater with LD50 Rats >20 mg. Long term studies with people exposed to organoarsenicals has shown an increased risk of skin cancer (Spiewak, 2001), lung cancer and some liver cancers, although some recent studies have shown some arsenic containing compounds (specifically Arsine trioxide) may have anticarcinogenic properties (Wang, 2001). In mammals, Methylarsonate is also an intermediate in the detoxification of inorganic arsenic. In the arsenate detoxification I pathway, arsenite reacts with S-adenosyl-L-methionine to produce methylarsonate and S-adenosyl-L-homocysteine. Arsenite methyltransferase catalyzes this reaction. Methylarsonate then reacts with 2 glutathione molecules to produce glutathione disulfide and methylarsonite. This reaction is catalyzed by methylarsonate reductase. Methylarsonate is an organic arsenic compound with adverse effects similar to those of arsenic trioxide. Methylarsonate was formerly included in some vitamin and mineral preparations. It was once used to treat tuberculosis, chorea, and other affections in which the cacodylates were used.

Methylarsonic acid, monosodium salt is an organoarsenic compound formed from the methylation of inorganic arsenic by living organisms. Methylarsonate is used as a contact herbicide in either the monosodium or disodium salt form. It goes by the trade names Weed-E-Rad, Ansar 170 H.C., Ansar 529 H.C., DiTac and others. Methylarsonate is considered only slightly toxic, having an oral LD50 of 2200 mg/Kg for rats. The inhalation risk is greater with LD50 Rats >20 mg. Long term studies with people exposed to organoarsenicals has shown an increased risk of skin cancer (Spiewak, 2001), lung cancer and some liver cancers, although some recent studies have shown some arsenic containing compounds (specifically Arsine trioxide) may have anticarcinogenic properties (Wang, 2001). In mammals, Methylarsonate is also an intermediate in the detoxification of inorganic arsenic. In the arsenate detoxification I pathway, arsenite reacts with S-adenosyl-L-methionine to produce methylarsonate and S-adenosyl-L-homocysteine. Arsenite methyltransferase catalyzes this reaction. Methylarsonate then reacts with 2 glutathione molecules to produce glutathione disulfide and methylarsonite. This reaction is catalyzed by methylarsonate reductase. Methylarsonate is an organic arsenic compound with adverse effects similar to those of arsenic trioxide. Methylarsonate was formerly included in some vitamin and mineral preparations. It was once used to treat tuberculosis, chorea, and other affections in which the cacodylates were used.

Dicethiamine hydrochloride (DCET) is a vitamin B(1) derivative that has excellent absorbability and transformability in tissues. It is an analogue of thiamine, improved performance in an animal model of complex fatigue.

Cefatrizine is a broad-spectrum, semisynthetic, first-generation cephalosporin with antibacterial activity. Cefatrizine binds to and inactivates penicillin-binding proteins (PBPs) located on the inner membrane of the bacterial cell wall. PBPs are enzymes involved in the terminal stages of assembling the bacterial cell wall and in reshaping the cell wall during growth and division. Inactivation of PBPs interferes with the cross-linkage of peptidoglycan chains necessary for bacterial cell wall strength and rigidity. This results in the weakening of the bacterial cell wall and causes cell lysis. Cefatrizine is used to treat a large variety of bacterial infections, such as respiratory tract, ear, skin and urinary tract infections. Cefatrizine is less effective against gram positive bacteria than first generation drugs. Antibiotics require constant drug level in body for therapeutic effect.

Flomoxef is a cephamycin antibiotic with a difluoromethylthio-acetamido group at the 7-beta position of the cephem nucleus, commonly used for postoperative prophylaxis. Flomoxef has activity against epidermides, streptococci, propionibacteria, and both methicillin-resistant and -susceptible Staphylococcus aureus. Flomoxef exhibits a broad spectrum of antibacterial activity against G(+), G(-) and even anaerobes such as Staphylococcus sp., Escherichia coli, and Bacteroides sp., and it can be used singly to treat infection caused by aerobes and anaerobes (Mixed infection) effectively. Flomoxef belongs to the cephamycin, so it is very stable against β-lactamase as well as Extended Spectrum β-lactamase (ESBL), a novel resistance induced by Enterobacteriaceae. There is no Oxyimino group in the structure of Flomoxef, so it won’t derive ESBL and it is also effective for the treatment to ESBL infection. No disulfiram-like reaction and less incidence of vitamin K deficiency than that of Latamoxef. Marketed in Japan as FLUMARIN.

Flucloxacillin is an isoxazolyl penicillin of the β-lactam group of antibiotics, which exerts a bactericidal effect upon many Gram-positive organisms including β-lactamase-producing staphylococci and streptococci. While no longer used in the United States, Flucloxacillin is supplied under a variety of trade names in other countries, including Floxapen, Flopen, Staphylex. Floxapen is indicated for the treatment of infections due to sensitive Gram-positive organisms, including β-lactamase-producing staphylococci and streptococci. Typical indications including, skin and soft tissue infections; respiratory tract infections; other infections caused by floxapen-sensitive organisms, like example, osteomyelitis, urinary tract infection, septicaemia, endocarditis. Floxapen is also indicated for use as a prophylactic agent during major surgical procedures when appropriate; for example cardiothoracic and orthopaedic surgery. Flucloxacillin, by its action on the synthesis of the bacterial wall, exerts a bactericidal effect on streptococci except those of group D (Enterococcus faecalis) staphylococci. It is not active against methicillin-resistant staphylococci. There is evidence that the risk of flucloxacillin induced liver injury is increased in subjects carrying the HLA-B*5701 allele. Despite this strong association, only 1 in 500-1000 carriers will develop liver injury. Consequently, the positive predictive value of testing the HLA-B*5701 allele for liver injury is very low (0.12%) and routine screening for this allele is not recommended. Flucloxacillin diffuses well into most tissue. Specifically, active concentrations of flucloxacillin have been recovered in bones: 11.6 mg/L (compact bone) and 15.6 mg/L (spongy bone), with a mean serum level of 8.9 mg/L. Flucloxacillin diffuses in only small proportion into the cerebrospinal fluid of subjects whose meninges are not inflamed. It is also excreted in small quantities in mother's milk. In normal subjects approximately 10% of the flucloxacillin administered is metabolised to penicilloic acid. The elimination half-life of flucloxacillin is in the order of 53 minutes.