SALT INFORMATIONDiclofenac (50mg) TYPICAL USAGE Adnexitis, dysmenorrhoea, inflammation, migraine, post-operative pain, post-traumatic pain, rheumatoid arthritis. SIDE EFFECTS Dizziness, vertigo, headache, rashes, GI upset, elevation of liver enzymes, GI hemorrhage, vision disturbances, erythema multiforme. DRUG INTERACTION Diclofenac is known to interact with other drugs like cholestyramine, colestipol (HCl), cyclosporin A, misoprostol, nitrendipine, sucralfate. Always consult your physician for the change of dose regimen or an alternative drug of choice that may strictly be required. MECHANISM OF ACTION Diclofenac inhibits both leukocyte migration and the enzyme cylooxygenase (COX-1 and COX-2), leading to the peripheral inhibition of prostaglandin synthesis. As prostaglandins sensitize pain receptors, inhibition of their synthesis is responsible for the analgesic effects of diclofenac. Antipyretic effects may be due to action on the hypothalamus, resulting in peripheral dilation, increased cutaneous blood flow, and subsequent heat dissipation. Paracetamol(325mg) TYPICAL USAGE Ear pain, fever, headache, malaise, migraine, mild to moderate pain, pain, post-vaccine reaction, short-bowel syndrome. SIDE EFFECTS Bronchospasm, blood dyscrasias, centribular necrosis, liver damage, hypoglycemic coma, hepatic necrosis, liver failure, skin rashes, GI adverse effects. DRUG INTERACTION Paracetamol is known to interact with other drugs like alcohol, ascorbic acid, azilisartan medoxomil, busulphan, carbamazepine, chloramphenicol, cimetidine (HCl), diflunisal, interferon alpha, isoniazid, itopride (HCl), metoclopramide (HCl). Always consult your physician for the change of dose regimen or an alternative drug of choice that may strictly be required. MECHANISM OF ACTION Paracetamol is thought to act primarily in the CNS, increasing the pain threshold by inhibiting both isoforms of cyclooxygenase, COX-1, COX-2, and COX-3 enzymes involved in prostaglandin (PG) synthesis. Paracetamol indirectly blocks COX, and that this blockade is ineffective in the presence of peroxides. paracetamol is effective in the central nervous system and in endothelial cells but not in platelets and immune cells which have high levels of peroxides. The antipyretic properties of paracetamol are likely due to direct effects on the heat-regulating centres of the hypothalamus resulting in peripheral vasodilation, sweating and hence heat dissipation.