Medical uses
Ticlopidine isStroke
Ticlopidine is considered a second-line option for the prevention of thrombotic strokes among patients who have previously had a stroke or TIA. Studies have shown that it is superior to aspirin in the prevention of death or future strokes. However, it also has more frequent and serious side effects compared to aspirin, so it is reserved for those patients that cannot take aspirin.Heart disease
When a patient needs to have a stent placed in one of the vessels around their heart, it is important that that stent stay open to keep blood flowing to the heart. Therefore, patients with stents must take medications after the procedure to help maintain that blood flow. Ticlopidine, taken together with aspirin, is FDA approved for this purpose, and in studies it has been shown to work better than aspirin alone or aspirin with an anticoagulant. However, ticlopidine’s serious side effects make it less useful than its cousin, clopidogrel. Current recommendations no longer recommend ticlopidine’s use.Contraindications
The use of ticlopidine is contraindicated in anyone with: * Increased risk of bleeding (i.e. frequent falls, gastrointestinal bleeds) * History of hematological disease * Severe liver disease * History of allergic reaction to ticlopidine or any thienopyridine drug such as clopidogrel Because of the increased risk of bleeding, patients taking ticlopidine should discontinue the medication 10–14 days before surgery.Adverse effects
The most serious side effects associated with ticlopidine are those that affect the blood cells, although these life-threatening complications are relatively rare. The most common side effects include: * Diarrhea * Nausea * Dyspepsia * Rash * Abdominal pain Ticlopidine may also cause an increase in cholesterol, triglycerides, liver enzymes, and bleeding.Hematological
Use of ticlopidine has been associated with neutropenia, thrombocytopenia, thrombotic microangiopathy (TMA), and aplastic anemia. Because of this risk, patients who are started on ticlopidine are typically monitored with blood tests to test their cell counts every two weeks for the first three months.Pregnancy and lactation
Ticlopidine is a FDA pregnancy risk category B. There have been no studies done in humans. Studies in rats show that high drug levels could cause toxicity in both mother and fetus, but there are no known birth defects associated with its use. There have been no studies to test whether ticlopidine goes into breast milk. Studies in rats have shown that it is passed in rats’ milk.Interactions
Ticlopidine interacts with several classes of medications. It increases the antiplatelet effects of aspirin and other NSAIDs. Taking ticlopidine at the same time as antacids decreases the absorption of ticlopidine. Ticlopidine inhibits liver CYP2C19 and CYP2B6 and thus can affect blood levels of medications metabolized by these systems.Mechanism of action
Ticlopidine is a tetrahydro-thienopyridine which, when metabolized by the body, irreversibly blocks the P2Y12 component of the ADP receptor on the surface of platelets. Without ADP, fibrinogen does not bind to the platelet surface, preventing platelets from sticking to each other. By interfering with platelet function, ticlopidine prevents clots from forming on the inside of blood vessels. Anti-platelet effects start within 2 days and reach their maximum by 6 days of therapy. Ticlopidine’s effects persist for 3 days after discontinuing ticlopidine although it may take 1–2 weeks for platelet function to return to normal, as the medication affects platelets irreversibly. Therefore, new platelets must be formed before platelet function normalizes.Pharmacokinetics
Ticlopidine is ingested orally with 80% bioavailability with rapid absorption. Even higher absorption can occur if ticlopidine is taken with food. It is metabolized by the liver with both renal and fecal elimination. Clearance is nonlinear and varies with repeated dosing. After the first dose the half life is 12.6 hours, but with repeated dosing the maximum half life is 4–5 days. Clearance is also slower in the elderly. The drug is 98% reversibly bound to proteins.Chemical properties
Ticlopidine's systemic name is 5- 2-chlorophenyl)methyl4,5,6,7-tetrahydrothieno ,2-''c''yridine. Its molecular weight is 263.786 g/mol. It is a white crystalline solid. It is soluble in water and methanol and somewhat soluble in methylene chloride, ethanol, and acetone. It self-buffers in water to a pH of 3.6.History
Ticlopidine was discovered in the 1970s in France by a team led by Fernand Eloy and including Jean-Pierre Maffrand at Castaigne SA that was trying to discover a new anti-inflammatory medication. Pharmacology developers noted that this new compound had strong anti-platelet properties. Castaigne was acquired byResearch
Soon after its release, studies regarding ticlopidine found it had the potential to be helpful for other diseases including peripheral vascular disease, diabetic retinopathy, and sickle cell disease. However, none had enough evidence for FDA approval. Due to the blood cell side effects associated with ticlopidine, researchers for treatments for these conditions have turned to other avenues.References
External links
* * {{Portal bar , Medicine Adenosine diphosphate receptor inhibitors 2-Chlorophenyl compounds CYP2D6 inhibitors Thienopyridines