COX Inhibitors and Blood Coagulation PHM 142 – Tuesday September 16 th, 2014 Chris Gallant Edmond Chiu Maggie Huynh Bavithra Kumar PHM142 Fall 2014 Instructor:

COX Inhibitors and Blood Coagulation

PHM 142 – Tuesday September 16th, 2014

Chris GallantEdmond Chiu

Maggie HuynhBavithra Kumar

PHM142 Fall 2014 Instructor: Dr. Jeffrey Henderson

What is COX?• Enzyme cyclooxygenase 1

• Responsible for the formation of prostanoids1

• 3 main groups of prostanoids include:• prostaglandins• prostacyclins• thromboxanes

*These are all involved in inflammatory responses/are inflammatory mediators*

What is COX?

Two forms of cyclooxygenase enzymes exist:

COX-1 -> present in most tissues1

● e.g in GI tract it maintains the normal lining of the stomach. The enzyme is also involved in kidney and platelet function. 2,3

COX-2 -> primarily present at sites of inflammation1

What is Blood Coagulation?

Adapted from reference 5

COX’s Relationship to Blood Coagulation

● COX plays a role in cessation of bleeding 4-6

● COX activates a chemical known as thromboxane A2 4-6

● The aggregation of platelets, in concert with the clotting process, results in a fibrin clot which stops bleeding and aids repair of the blood vessel. 7

What are COX inhibitors?• A class of drugs that target the cyclooxygenase

enzyme and act as an effective treatment to pain and inflammation. Also known as nonsteroidal anti-inflammatory drugs (NSAIDs).8

• Can be nonspecific (target both COX-1 and COX-2) or specifically target COX-2.8

• COX-2 inhibition is desirable since this will reduce pain and inflammation in certain areas, while COX-1 inhibition is associated with side effects, such as stomach lining damage and gastric ulcers.8

http://img.wikinut.com/img/297i4cfbldfkof_v/jpeg/0/Ibuprofen-Advil-tablets.jpeghttp://a.espncdn.com/photo/2007/1112/pg2_a_aleve_300.jpg

How COX Inhibitors Work• Decrease the production of

prostaglandins, which promote pain, inflammation and fever.9

• Prostaglandins also protect the lining of the stomach and intestines, promote blood clotting, and affect kidney function.9

• COX inhibitors are taken orally, and after absorption into the bloodstream they bind to the cyclooxygenase enzymes. COX-1 is found in all tissues constitutively, while COX-2 is induced by inflammation.9

• Binding can be reversible or irreversible.7

http://www.cheapmedicinechest.com/wp-content/uploads/2010/03/Figure-2-Nonselective-nonsteroidal-anti-inflammatory-drugs.pnghttp://publications.nigms.nih.gov/structlife/images/ch4_valine.gif

Aspirin and COX: Mechanism of Action

• Serine acetylation3

• Non-selective3

• Irreversible3

Adapted from reference 4

Issues with COX-2 specific inhibitors• COX-2 inhibition

reduces prostacyclin production, which is an important prostaglandin that prevents platelet clumping.9

• Without prostacyclin, platelets can build up and clump, leading to increased heart attacks and strokes in patients. Since COX-1 is unaffected, thromboxane A2 contributes to thrombosis as well.9

• Examples are Vioxx and Bextra, which have both been discontinued.9

http://img.timeinc.net/time/covers/1101050228/map/viox.gif

Case StudyCOX-2 inhibitors used to treat

pain after surgery 10,11

Possible complications?◦Increased risk of thrombosis

Concern in Coronary-Artery Bypass Grafting (CABG)?

Factors ConsideredCABG increases thromboembolic

events:◦Platelet activation

Pre-exisiting cardiovascular conditions12

Sheer stress from atherosclerosis

◦Ischemia13

During procedure14

COX-2 inhibitors increase risk of thrombosis

Clinical Data

Figure adapted from reference 15

Conclusion of Study

Risk outweighs benefits16

Advised to discontinue use of COX-2 specific inhibitors after CABG16

◦Drug discontinued in 2005

SkitTo exemplify case study in clinical

settingEnjoy!

Summary SlideCOX is an enzyme cyclooxygenase responsible

for the formation of prostanoids which are involved in inflammatory response

COX plays a role in cessation of bleeding and activates a chemical known as thromboxane A2 which relates to blood coagulation and platelet aggregation

COX inhibitors nonspecifically bind to COX-1 and COX-2 or specifically bind to COX-2. Binding to COX-2 is desirable for reducing inflammation, pain and fever as it also avoids gastric ulceration. This effect is caused by reducing prostaglandin production.

COX-2 inhibitors should be avoided when risk of thromboembolic events is higher

References1. Eustice, C. (2014, May 19). What Is Cyclooxygenase (COX)?. About Health . Retrieved

September 15, 2014, from http://osteoarthritis.about.com/od/osteoart2. Lipsky, A. J. (n.d.). Clinical Considerations for Gastric Protection in the Presence of

NSAID Therapy. Medscape. Retrieved September 15, 2014, from http://www.medscape.org/viewarticle/4739

3. University, Department of Epidemiology and Preventative Medicine. (n.d.). How Aspirin Works. How Aspirin Works. Retrieved September 15, 2014 from http://www.aspree.org/AUS/aspree- content/aspirin/how-aspirin-works.aspx

4. Ophardt, Charles. "Prostaglandins." Virtual Chembook. N.p., n.d. Web. 15 Sept. 2014. <http://www.elmhurst.edu/~chm/vchembook/555prostagland.html>.

5. "How The Blood Clots." How Does Blood Clot? Coagulation Explained, Diagram, Blood Clotting Process, Stages, Hemostasis. N.p., 2010. Web. 15 Sept. 2014.

6. Rhoades, Rodney , and David Bell. "Blood Clotting." Inkling. Wolters Kluwer, n.d. Web. 15 Sept. 2014. https://www.inkling.com/read/medical-physiology-rodney-rhoades-david-bell-4th/chapter-9/blood- clotting.

7. Stenina, Olga, and Edward Plow. "MET orchestrates cancer and blood coagulation." Nature.com. Nature Publishing Group, n.d. Web. 15 Sept. 2014. <http://www.nature.com/nm/journal/v11/n4/fig_tab/nm0405- 376_F1.html>.

8. McGettigan, P. and Henry, D. (2000). Current problems with non-specific COX inhibitors. Curr Pharm Des, 6(17): 1693-1724.

9. Eustice, Carol. Cyclooxygenase: COX-1 and COX-2 explained. About Health, http://osteoarthritis.about.com/od/osteoarthritismedications/a/cyclooxygenase.htm (accessed September 10th, 2014).

References10.Daniels, S. E., Grossman, E. H., Kuss, M. E., Talwalker, S., & Hubbard,

R. C. (2001). A double-blind, randomized comparison of intramuscularly and intravenously administered parecoxib sodium versus ketorolac and placebo in a post—oral surgery pain model. Clinical therapeutics, 23(7), 1018-1031.

11.Ng, A., Smith, G., & Davidson, A. C. (2003). Analgesic effects of parecoxib following total abdominal hysterectomy†‡. British Journal of Anaesthesia, 90(6), 746-749.

12.Konstantopoulos, K., Grotta, J. C., Sills, C., Wu, K. K., & Hellums, J. D. (1995). Shear- induced platelet aggregation in normal subjects and stroke patients.Thrombosis and haemostasis, 74(5), 1329-1334.

13.Park, J. L., & Lucchesi, B. R. (1999). Mechanisms of myocardial reperfusion injury. The Annals of thoracic surgery, 68(5), 1905-1912.

14.Wan, S., LeClerc, J. L., & Vincent, J. L. (1997). Inflammatory response to cardiopulmonary bypass mechanisms involved and possible therapeutic strategies. CHEST Journal, 112(3), 676-692.

15.Nussmeier, N. A., Whelton, A. A., Brown, M. T., Langford, R. M., Hoeft, A., Parlow, J. L., ... & Verburg, K. M. (2005). Complications of the COX-2 inhibitors parecoxib and valdecoxib after cardiac surgery. New England Journal of Medicine, 352(11), 1081- 1091.