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Beta blockers and COPD (chronic obstructive pulmonary disease)

Authoring team

  • beta blockers are generally contraindicated in chronic obstructive airways disease and asthma
    • note however that there is evidence that cardioselective beta blockers are >20 times more selective for ß1 than ß2 receptors and should carry less risk of bronchoconstriction in reactive airways disease (1)

      • there is evidence that, in patients with COPD, cardioselective beta blockers do not change FEV1 or increase respiratory symptoms (2)

      • in a small study on asthmatics, propranolol caused a reduction in lung function, but celiprolol was shown not only to improve spirometry readings, it also inhibits the bronchoconstrictor effects of propranolol (3)

      • in mice studies, initial therapy with beta blockers increased airway hyperresponsiveness, whereas longer therapy decreased hyperresponsiveness and seemed to have an anti-inflammatory effect (4)

    • the BNF states '...beta-blockers can precipitate bronchospasm and should therefore usually be avoided in patients with a history of asthma. When there is no suitable alternative, it may be necessary for a patient with well-controlled asthma, or chronic obstructive pulmonary disease (without significant reversible airways obstruction), to receive treatment with a beta-blocker for a co-existing condition (e.g. heart failure or following myocardial infarction). In this situation, a cardioselective beta-blocker should be selected and initiated at a low dose by a specialist; the patient should be closely monitored for adverse effects..."

Notes:

  • there are 3 types of beta receptors
    • beta 1-Adrenoceptors
      • situated in the cardiac sarcolemma
        • if activated, they lead to an increase in the rate and force of myocardial contraction (positive inotropic effect) by opening the calcium channels
    • beta 2-Adrenoceptors
      • found mainly in bronchial and vascular smooth muscles
        • if activated, they cause broncho- and vaso-dilatation
          • there are, however, sizable populations of beta 2-Adrenoceptors in the myocardium, of about 20%-25%, which leads to the cardiac effects of any beta2-Adrenoceptors stimulation. There is a relative up-regulation of these receptors to about 50% in heart failure
    • beta 3 Adrenoceptors
      • the role of beta 3-Adrenoceptors in the heart is not yet fully identified and accepted

  • beta-blockers are classified into three generations
    • the first generation agents (such as Propranolol, Sotalol, Timolol, and Nadolol), are nonselective and block beta 1 and beta 2 receptors
      • blocking beta1-receptors affects the heart rate, conduction and contractility, while blocking beta 2-receptors, tends to cause smooth muscle contraction, therefore, bronchospasm in predisposed individuals

    • second-generation agents or the cardioselective agents (such as Atenolol, Bisoprolol, Celiprolol, and Metoprolol)
      • block beta 1-receptors in low doses but are capable of blocking beta 2-receptors in higher doses
        • selective mode of action makes the use of these agents more suitable in patients with chronic lung disease or those with insulin-requiring diabetes mellitus
        • cardioselectivity varies between agents with the Bisoprolol among the most selective

    • third generation agents have vasodilatory properties
      • action is either selective (Nebivolol) or nonselective (Carvidolol and Labetolol)
      • vasodilatory properties are mediated either by nitric oxide release as for Nebivolol or Carvidolol or by added alpha-adrenergic blockade as in Labetolol and Carvidolol
      • a third vasodilatory mechanism, as in Pindolol and Acebutolol, acts via beta 2-intrinsic sympathomimetic activity (ISA)
      • these beta-blockers therefore have the capacity to stimulate as well as to block adrenergic receptors and tend to cause less bradycardia than the other beta-blockers and may cause less coldness of the extremities

Contributor: Dr Nick Bradshaw (January 2014)

Reference:

  1. Salpeter SR et al. Cardioselective beta-blockers in patients with reactive airway disease: a meta-analysis. Ann Intern Med 2002; 137:715-25.
  2. Salpeter S et al. Cardioselective beta-blockers for chronic obstructive pulmonary disease. Cochrane Database Syst Rev 2005;(4):CD003566.
  3. Pujet JC, et al. Effects of celiprolol, a cardioselective beta-blocker, on respiratory function in asthmatic patients. Eur Respir J. 1992 Feb;5(2):196-200.
  4. Callaerts-Vegh Z, Evans KL, Dudekula N, et al. Effects of acute and chronic administration of beta-adrenoceptor ligands on airway function in a murine model of asthma. Proc Natl Acad Sci USA. 2004;101(14):4948-4953.
  5. British National Formulary (BNF). Section 2.4 (Accessed January 7th 2014).
  6. Int J Chron Obstruct Pulmon Dis. 2007 December; 2(4): 535-540.

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