Category:Beta Blockers: Difference between revisions

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The beta blockers, more formally the beta-adrenergic receptor antagonists, are a class of medicines that blunt the effect of adrenaline and related stress hormones on the heart and other organs. They are ~~among~~ the ~~most widely used medicines in cardiovascular medicine, and their discovery is the classic example~~ of a medicine designed deliberately from a theory rather than ~~found by chance~~.

The '''beta blockers''', more formally the beta-adrenergic receptor antagonists, are a class of medicines that blunt the effect of adrenaline and the related stress hormones on the heart and other organs. They are the textbook case of a medicine designed deliberately from a theory rather than stumbled upon, and the theory came first. In 1948, at the Medical College of Georgia, the American pharmacologist Raymond Ahlquist proposed that adrenaline and noradrenaline act through two distinct kinds of receptor, which he named alpha and beta; the beta receptors, he argued, were the ones that quickened and strengthened the heartbeat.<ref name="ahlquist1948">Ahlquist RP. A study of the adrenotropic receptors. ''The American Journal of Physiology''. 1948 Jun;153(3):586–600. PMID: 18882199.</ref> The idea met caution at first, because no medicine then existed that could block one kind of receptor and spare the other, and so prove the distinction real.<ref name="quirke2006">Quirke V. Putting theory into practice: James Black, receptor theory and the development of the beta-blockers at ICI, 1958–1978. ''Medical History''. 2006 Jan;50(1):69–92. PMID: 16502872.</ref>

~~== A theory of two receptors ==~~

That medicine was found by the Scottish pharmacologist James Black. In 1958 Black joined the pharmaceutical division of Imperial Chemical Industries in England and set Ahlquist's theory against a practical problem: angina, the chest pain that comes when the heart's demand for oxygen outruns its supply. Rather than widen the arteries, as the medicines of the day did, Black reasoned that blocking the beta receptors of the heart would make the heart work less hard, and so need less oxygen. An early compound, pronethalol, proved the principle and was set aside; its successor, propranolol, reached the market in 1965 as the first widely successful beta blocker.<ref name="quirke2006"/> The achievement was twofold. Propranolol changed the treatment of angina and was soon found to help in disordered heart rhythm and in high blood pressure; and beyond the medicine itself, Black had shown a method, beginning from an understanding of how the body works and designing a molecule to act on it. That method became a model for the whole pharmaceutical industry, and in 1988 Black received the Nobel Prize in Physiology or Medicine.<ref name="quirke2006"/>

~~The story begins not with a drug but with an idea~~. In ~~1948~~ the ~~American pharmacologist Raymond~~ Ahlquist ~~proposed~~ that the ~~effects~~ of ~~adrenaline and noradrenaline were mediated by two distinct kinds~~ of ~~receptor~~, ~~which he called alpha~~ and ~~beta~~, the ~~beta receptors being responsible for~~, ~~among other things~~, the ~~quickening and strengthening of~~ the ~~heartbeat~~.<ref name="~~practice~~">~~Maulik SK~~. ~~The discovery~~ of ~~beta-blockers. ''J Pract Cardiovasc Sci.'' 2018~~;~~4(1):49~~. ~~DOI 10.4103/jpcs.jpcs_11_18.</ref> At the time~~ the ~~idea was treated with some caution~~, ~~because there were no agents that could selectively block one type of receptor~~ and ~~so demonstrate that~~ the ~~distinction was real~~.

~~== James~~ Black and ~~propranolol ==~~

Black's first beta blockers, propranolol among them, blocked beta receptors throughout the body: both the beta-1 receptors concentrated in the heart and the beta-2 receptors of the airways and elsewhere. Blocking the beta-2 receptors could be a liability, above all in people with asthma. The cardioselective beta blockers that followed, among them atenolol, metoprolol, and bisoprolol, were built to act more on the heart's beta-1 receptors and less on the rest, though the selectivity is relative and fades as the dose rises. A later group again, sometimes called the third generation and including carvedilol, labetalol, and nebivolol, adds a widening of the blood vessels to the beta blockade.<ref name="poirier2014">Poirier L, Tobe SW. Contemporary use of β-blockers: clinical relevance of subclassification. ''The Canadian Journal of Cardiology''. 2014 May;30(5 Suppl):S9–S15. PMID: 24684855.</ref>

~~That changed through~~ the ~~work~~ of the ~~Scottish pharmacologist James Black~~. ~~In 1958 Black joined~~ the ~~pharmaceutical division of Imperial Chemical Industries (ICI)~~ in ~~England~~, ~~where he set out~~ to ~~apply Ahlquist's theory to a practical problem: angina, the chest pain that arises when~~ the heart's ~~demand for oxygen outstrips its supply. Black reasoned that a medicine which blocked the~~ beta receptors of the ~~heart would reduce how hard~~ the ~~heart worked~~, and ~~so reduce its oxygen demand~~, ~~treating angina not by widening the arteries~~, ~~as existing medicines did~~, ~~but by easing~~ the ~~load on~~ the ~~heart itself~~.<ref name="~~icihist~~">~~Quirke V~~. ~~Putting theory into practice: James Black, receptor theory and the development~~ of ~~the beta~~-blockers ~~at ICI, 1958–1978~~. ''~~Med Hist.~~'' ~~2006~~;50(1):~~69–92~~. PMID ~~16502872~~.</ref>

~~The approach worked~~. ~~An early compound~~, ~~pronethalol~~, ~~proved~~ the ~~principle but was set aside; its successor~~, ~~[[propranolol]]~~, ~~was launched~~ in ~~1965 and became the~~ first ~~widely successful beta blocker~~.<ref name="~~practice~~"/> ~~The significance was twofold. [[Propranolol]] transformed~~ the ~~treatment~~ of ~~angina~~ and ~~was soon found useful in disorders of~~ heart ~~rhythm~~ and ~~in high blood pressure~~, ~~but beyond the drug itself~~, ~~Black had demonstrated~~ a ~~method: beginning from a theory of how the body works~~ and ~~deliberately designing a molecule to act on~~ it~~. This approach, now called rational drug design, became a model for the pharmaceutical industry, and in 1988 Black was awarded the Nobel Prize in Physiology or Medicine~~.<ref name="~~icihist~~"/>

Beta blockers are now used across a wide range of conditions. Within the heart they treat angina, several disorders of heart rhythm, and the period after a heart attack, and certain agents, shown in large trials to lengthen life, are a mainstay of treatment for chronic heart failure. They lower high blood pressure, although many present-day guidelines no longer place them first for raised blood pressure alone.<ref name="poirier2014"/> Beyond the cardiovascular system they prevent migraine, settle the bodily signs of an overactive thyroid, lessen essential tremor, and, because they quiet the racing heart and trembling of an adrenaline surge, ease performance anxiety, a use well known among musicians and other performers though never formally approved for it.<ref name="srinivasan2019">Srinivasan AV. Propranolol: a 50-year historical perspective. ''Annals of Indian Academy of Neurology''. 2019 Jan-Mar;22(1):21–26. PMID: 30692755.</ref>

~~== Generations and selectivity ==~~

All of this follows from a single action. A beta blocker binds to the beta-adrenergic receptors and occupies them without switching them on, so that adrenaline and noradrenaline can no longer reach them. Blocking the heart's beta-1 receptors slows the rate and softens the force of each beat, and so lowers the heart's workload; that much is well established, and it accounts plainly for the effect in angina and in disorders of heart rhythm. The benefit in high blood pressure, and above all the survival gained in heart failure, are understood to draw on more than this, including actions on the hormones that govern blood pressure and on the slow remodeling of the heart muscle, and the full account is still being worked out. A firm practical point is that a beta blocker is not stopped abruptly after regular use: sudden withdrawal can rebound into a dangerous worsening of heart rate, blood pressure, and chest pain, and the dose is instead lowered by degrees.<ref name="poirier2014"/> This category collects the wiki's beta-blocker pages and groups them, as cardiology does, by generation and selectivity.

~~Black's first~~ beta ~~blockers, [[propranolol]] among them, blocked~~ beta receptors ~~throughout the body~~, ~~both~~ the beta-1 receptors ~~concentrated in~~ the heart and the ~~beta-2 receptors found~~ in ~~the airways~~ and ~~elsewhere~~. ~~Blocking beta-2 receptors could be a disadvantage, particularly~~ in ~~people with asthma. Later "cardioselective" beta blockers, among them [[atenolol]], [[metoprolol]]~~, and ~~[[bisoprolol]]~~, ~~were developed~~ to ~~act~~ more ~~strongly~~ on the ~~heart's beta-1 receptors~~ and ~~less~~ on the ~~rest~~, ~~although this selectivity~~ is ~~relative~~ and ~~diminishes at higher doses~~.<ref name="~~cjc~~">~~Poirier L, Tobe SW. Contemporary use of β-blockers: clinical relevance of subclassification.~~ '~~'Can J Cardiol.'' 2014;30(5 Suppl):S9–S15. PMID 24684855.</ref> A further group, sometimes called third~~-~~generation agents~~ and ~~including [[carvedilol]]~~, ~~[[labetalol]]~~, and ~~[[nebivolol]], combine beta blockade with an additional widening of the blood vessels~~.

== ~~Modern use ==~~

== Beta blockers indexed ==

Beta blockers are used across a wide range of conditions. In the heart they are used for angina, for several disorders of heart rhythm, after a heart attack, and, in particular agents shown in large trials to prolong life, for chronic heart failure. They are used for high blood pressure, though in many current guidelines they are no longer a first-choice treatment for it. Beyond the cardiovascular system, beta blockers are used to prevent migraine, to control the physical symptoms of an overactive thyroid, to reduce essential tremor, and, because they blunt the bodily signs of adrenaline such as a racing heart and trembling, to ease performance anxiety, a use for which they are well known among musicians and other performers though not formally approved for it.<ref name=~~"propranolol50">Srinivasan AV. Propranolol: a 50-year historical perspective. ''Ann Indian Acad Neurol.'' 2019;22(1):21–26. PMID 30692755.</ref>~~

~~== Mechanisms ==~~

The beta blockers are grouped, as cardiology groups them, by generation: by whether a medicine blocks beta receptors throughout the body or chiefly in the heart, and whether it also widens the blood vessels.

~~Beta~~ blockers are ~~understood to act by binding to beta-adrenergic receptors and preventing adrenaline and noradrenaline from activating~~ them, ~~that is, they occupy the receptor without switching it on. Blocking the~~ beta-1 receptors of the ~~heart slows~~ the heart ~~rate and reduces the force of each contraction~~, ~~lowering the heart's workload~~ and ~~its demand for oxygen; this is understood to underlie their effect in angina and in disorders of heart rhythm. Their effect in high blood pressure and, especially,~~ the ~~survival benefit they provide in heart failure are understood to involve more than this, including effects on hormones that regulate~~ blood pressure and on the longer-term remodelling of the heart muscle, and the full account is more complex. That beta blockers block these receptors is well established; the relationship between that blockade and each of their clinical effects is established to varying degrees and in some areas remains a subject of research.

~~== Members ==~~

* '''Non-selective (first generation)''': block the beta-1 and beta-2 receptors alike. [[propranolol]]; also nadolol, timolol, and sotalol.

~~The~~ beta ~~blockers are often grouped by generation. The first~~-~~generation, non~~-~~selective agents include~~ [[propranolol]]~~, [[~~nadolol]], [[timolol]], and [[sotalol]]. ~~The cardioselective~~ (beta-1-selective) ~~agents include [[atenolol]],~~ [[metoprolol]], [[bisoprolol]], and [[esmolol]]. ~~The vasodilating agents include [[carvedilol]], [[labetalol]], and~~ [[nebivolol]]~~. The list is not exhaustive,~~ and ~~the agents differ in other properties, such as how long they act and whether they enter the brain, that influence which is chosen~~.

* '''Cardioselective (beta-1-selective)''': act more strongly on the heart's beta-1 receptors. [[metoprolol]], [[bisoprolol]]; also atenolol and esmolol.

* '''Vasodilating (third generation)''': add a widening of the blood vessels to the beta blockade. [[nebivolol]]; also carvedilol and labetalol.

== ~~Safety~~ ==

== Notes on scope ==

The ~~effects of~~ beta ~~blockers follow from~~ what they do~~: by slowing the heart~~ and ~~lowering blood pressure~~ they ~~can cause tiredness~~, ~~dizziness~~, ~~cold hands and feet~~, and ~~a slow heart rate~~. ~~Because they blunt~~ the ~~body~~'s ~~adrenaline response~~, ~~the non~~-~~selective~~ agents ~~can narrow the airways and~~ are ~~used with caution in people with asthma, and they can mask some~~ of the ~~warning signs of low blood sugar, which matters for people with diabetes~~. ~~An important~~ and ~~well-established hazard is~~ that ~~beta blockers should not be stopped abruptly after regular use~~: ~~sudden withdrawal can cause a rebound worsening of heart rate, blood pressure,~~ and ~~chest pain~~, ~~and so~~ the ~~dose is reduced gradually under medical guidance~~. ~~As with all~~ medicines, ~~figures for these risks vary between studies and individual response varies considerably between people~~.

This category indexes the beta-adrenergic receptor antagonists: medicines whose defining action is the blockade of beta receptors. The grouping above is by generation and selectivity, the axis cardiology itself uses.

Some members carry a second action as well. Carvedilol and labetalol block alpha-adrenergic receptors in addition to beta, and sotalol is also a class III antiarrhythmic; they are indexed here because beta blockade is central to what they do, and they may also be indexed under whatever other categories their pharmacology warrants. Beta blockers treat a number of conditions outside cardiology, among them migraine and essential tremor, but a medicine is indexed here for what it is, a beta blocker, and not for every condition it is used to treat.

== About these pages ==

Each beta blocker indexed here has, or will have, its own page, built on the wiki's standard structure for a medicine: a history-first account, then pharmacology, indications, adverse effects, and interactions. The wiki's medicine-page coverage of this class is still being filled in, which is why several agents above are named without a link.

This is one of the wiki's MedCategory class-overview pages. It carries the [[:Category:MedCategory|MedCategory]] and [[:Category:MedCategoryFull|MedCategoryFull]] marker tags; the second suppresses the member list that MediaWiki would otherwise generate automatically, leaving the curated index above as the only one the reader sees. The category sits beneath [[:Category:Medicines|Medicines]] and beneath [[:Category:Pharmaceutical|Pharmaceutical]], the origin category for medicines that came into use through scientific discovery rather than traditional practice. Few medicines belong there more plainly than the beta blockers, which were designed from a theory in a laboratory.

== References ==

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[[Category:MedCategoryFull]]

[[Category:~~Anxiolytics & Sedative-Hypnotics~~]]

[[Category:Medicines]]

[[Category:Pharmaceutical]]

[[Category:Non-psychotropic medicines]]

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