Adrenergic beta-antagonist: Difference between revisions
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==Pharmacogenomics== | ==Pharmacogenomics== | ||
Regarding he treatment of heart failure, there is conflicting evidence whether [[beta-blocker]]s are as effective in African-American patients as in Anglo patients.<ref name="pmid12742294">{{cite journal |author=Shekelle PG, Rich MW, Morton SC, ''et al'' |title=Efficacy of angiotensin-converting enzyme inhibitors and beta-blockers in the management of left ventricular systolic dysfunction according to race, gender, and diabetic status: a meta-analysis of major clinical trials |journal=J. Am. Coll. Cardiol. |volume=41 |issue=9 |pages=1529–38 |year=2003 |pmid=12742294 |doi=}}</ref> This may be due to a polymorphism in African-American patients of the G protein–coupled [[cell surface receptor]] kinase (GRK5) ([http://www.ncbi.nlm.nih.gov/entrez/dispomim.cgi?id=600870 OMIM]) that confers a natural "genetic beta-blockade".<ref name="doi10.1038/nm1750">Liggett, Stephen B et al. 2008. A GRK5 polymorphism that inhibits [beta]-adrenergic receptor signaling is protective in heart failure. Nat Med advanced online publication. http://dx.doi.org/10.1038/nm1750 (Accessed April 29, 2008).</ref> | Regarding he treatment of heart failure, there is conflicting evidence whether [[beta-blocker]]s are as effective in African-American patients as in Anglo patients.<ref name="pmid12742294">{{cite journal |author=Shekelle PG, Rich MW, Morton SC, ''et al'' |title=Efficacy of angiotensin-converting enzyme inhibitors and beta-blockers in the management of left ventricular systolic dysfunction according to race, gender, and diabetic status: a meta-analysis of major clinical trials |journal=J. Am. Coll. Cardiol. |volume=41 |issue=9 |pages=1529–38 |year=2003 |pmid=12742294 |doi=}}</ref> This may be due to a polymorphism in African-American patients of the G protein–coupled [[cell surface receptor]] kinase (GRK5) ([http://www.ncbi.nlm.nih.gov/entrez/dispomim.cgi?id=600870 OMIM]) that confers a natural "genetic beta-blockade".<ref name="doi10.1038/nm1750">Liggett, Stephen B et al. 2008. A GRK5 polymorphism that inhibits [beta]-adrenergic receptor signaling is protective in heart failure. Nat Med advanced online publication. http://dx.doi.org/10.1038/nm1750 (Accessed April 29, 2008).</ref> | ||
Variation adrenergic receptor genotype may also influence effectiveness.<ref name="pmid17585213">{{cite journal |author=Zaugg M, Bestmann L, Wacker J, ''et al'' |title=Adrenergic receptor genotype but not perioperative bisoprolol therapy may determine cardiovascular outcome in at-risk patients undergoing surgery with spinal block: the Swiss Beta Blocker in Spinal Anesthesia (BBSA) study: a double-blinded, placebo-controlled, multicenter trial with 1-year follow-up |journal=Anesthesiology |volume=107 |issue=1 |pages=33–44 |year=2007 |month=July |pmid=17585213 |doi=10.1097/01.anes.0000267530.62344.a4 |url=http://meta.wkhealth.com/pt/pt-core/template-journal/lwwgateway/media/landingpage.htm?an=00000542-200707000-00010 |issn=}}</ref> | |||
==Availability== | ==Availability== |
Revision as of 15:18, 5 January 2009
Adrenergic beta-receptor blockaders (beta-blockers) are "drugs that bind to but do not activate beta-adrenergic receptors thereby blocking the actions of beta-adrenergic agonists. Adrenergic beta-antagonists are used for treatment of hypertension, cardiac arrhythmias, angina pectoris, glaucoma, migraine headaches, and anxiety".[1]
Beta-blockers vary within the class regarding their properties. Beta-blockers that have low intrinsic sympathomimetic activity (ISA), low membrane stabilizing activity, high beta 1-selectivity, and high lipophilicity may be more effective.[2]
Pharmacogenomics
Regarding he treatment of heart failure, there is conflicting evidence whether beta-blockers are as effective in African-American patients as in Anglo patients.[3] This may be due to a polymorphism in African-American patients of the G protein–coupled cell surface receptor kinase (GRK5) (OMIM) that confers a natural "genetic beta-blockade".[4]
Variation adrenergic receptor genotype may also influence effectiveness.[5]
Availability
Generically available beta-blockers include:[6][7]
- Betaxolol
- Nadolol
- Propranolol
- Timolol
Generic beta-blockers with beta 1-selectivity:[2]
- Atenolol (less lipid soluble; renally excreted)
- Bisoprolol
- Metoprolol (hepatically metabolized by cytochrome P-450 2D6 allele)
Generic beta-blockers with intrinsic sympathomimetic activity (less resting bradycardia and lipid changes):[6]
- Acebutolol
- Pindolol
Generic beta-blockers with alpha blocking activity (more orthostatic hypotension):[6]
- Carvedilol
- Labetalol
Clinical uses
The individual beta-blockers have been compared in the treatment of various diseases.[8]
Coronary heart disease
A meta-analysis has concluded that metoprolol may be the best beta-blocker for secondary prevention of myocardial infarction.[2]
Heart failure
Two cohort studies suggest that atenolol and carvedilol may be more effect than metoprolol for the treatment of heart failure.[9][10]
References
- ↑ Anonymous (2024), Adrenergic beta-antagonist (English). Medical Subject Headings. U.S. National Library of Medicine.
- ↑ 2.0 2.1 2.2 Soriano JB, Hoes AW, Meems L, Grobbee DE (1997). "Increased survival with beta-blockers: importance of ancillary properties". Prog Cardiovasc Dis 39 (5): 445–56. PMID 9122425. [e]
- ↑ Shekelle PG, Rich MW, Morton SC, et al (2003). "Efficacy of angiotensin-converting enzyme inhibitors and beta-blockers in the management of left ventricular systolic dysfunction according to race, gender, and diabetic status: a meta-analysis of major clinical trials". J. Am. Coll. Cardiol. 41 (9): 1529–38. PMID 12742294. [e]
- ↑ Liggett, Stephen B et al. 2008. A GRK5 polymorphism that inhibits [beta]-adrenergic receptor signaling is protective in heart failure. Nat Med advanced online publication. http://dx.doi.org/10.1038/nm1750 (Accessed April 29, 2008).
- ↑ Zaugg M, Bestmann L, Wacker J, et al (July 2007). "Adrenergic receptor genotype but not perioperative bisoprolol therapy may determine cardiovascular outcome in at-risk patients undergoing surgery with spinal block: the Swiss Beta Blocker in Spinal Anesthesia (BBSA) study: a double-blinded, placebo-controlled, multicenter trial with 1-year follow-up". Anesthesiology 107 (1): 33–44. DOI:10.1097/01.anes.0000267530.62344.a4. PMID 17585213. Research Blogging.
- ↑ 6.0 6.1 6.2 (June 2005) "Drugs for hypertension". Treat Guidel Med Lett 3 (34): 39–48. PMID 15912125. [e]
- ↑ (March 2008) "Nebivolol (Bystolic) for hypertension". Med Lett Drugs Ther 50 (1281): 17–9. PMID 18323772. [e]
- ↑ Dean L (2007). “Comparing Beta Blockers”, PubMed Clinical Q&A. Bethesda (MD): National Library of Medicine (US), National Center for Biotechnology Information. “Based on http://www.ohsu.edu/drugeffectiveness/”
- ↑ Kramer JM, Curtis LH, Dupree CS, et al (December 2008). "Comparative effectiveness of beta-blockers in elderly patients with heart failure". Arch. Intern. Med. 168 (22): 2422–8; discussion 2428–32. DOI:10.1001/archinternmed.2008.511. PMID 19064824. Research Blogging.
- ↑ Go AS, Yang J, Gurwitz JH, Hsu J, Lane K, Platt R (December 2008). "Comparative effectiveness of different beta-adrenergic antagonists on mortality among adults with heart failure in clinical practice". Arch. Intern. Med. 168 (22): 2415–21. DOI:10.1001/archinternmed.2008.506. PMID 19064823. Research Blogging.