Tachycardia, inhibition

The side effects of tricyclic antidepressants are largely attributable to the ability of these compounds to bind to and block receptors for endogenous transmitter substances. These effects develop acutely. Antagonism at muscarinic cholinoceptors leads to atropine-like effects such as tachycardia, inhibition of exocrine glands, constipation, impaired micturition, and blurred vision. 

Adenosine is produced by many tissues, mainly as a byproduct of ATP breakdown. It is released from neurons, glia and other cells, possibly through the operation of the membrane transport system. Its rate of production varies with the functional state of the tissue and it may play a role as an autocrine or paracrine mediator (e.g. controlling blood flow). The uptake of adenosine is blocked by dipyridamole, which has vasodilatory effects. The effects of adenosine are mediated by a group of G protein-coupled receptors (the Gi/o-coupled Ai- and A3 receptors, and the Gs-coupled A2a-/A2B receptors). Ai receptors can mediate vasoconstriction, block of cardiac atrioventricular conduction and reduction of force of contraction, bronchoconstriction, and inhibition of neurotransmitter release. A2 receptors mediate vasodilatation and are involved in the stimulation of nociceptive afferent neurons. A3 receptors mediate the release of mediators from mast cells. Methylxanthines (e.g. caffeine) function as antagonists of Ai and A2 receptors. Adenosine itself is used to terminate supraventricular tachycardia by intravenous bolus injection. 

Yohimbine is an indole alkaloid produced in the bark of yohimbe trees. It selectively inhibits a2-adrenergic receptors in the brain that are associated with libido and penile erection. Since there is only limited data supporting its efficacy, yohimbine is not a recommended treatment for any form of ED.22 Adverse effects of the drug include nausea, irritability, headaches, anxiety, tachycardia, and hypertension. 

Pamidronate -organic bisphosphonate inhibits bone resorption by osteoclasts -hypotension -syncope -tachycardia -hypocalcemia, hypokalemia, hypomagnesemia -nausea and vomiting rarely... 

There are two main treatments for the opiate withdrawal syndrome. One is replacement therapy with methadone or other X agonists that have a longer half-life than heroin or morphine, and produce mild stimulation rather than euphoria. They also produce cross-tolerance to heroin, lessening heroin s effect if patients relapse. Withdrawal is also treated with the 0C2 agonist clonidine, which inhibits LC neurons, thus counteracting autonomic effects of opiate withdrawal — such as nausea, vomiting, cramps, sweating, tachycardia and hypertension — that are due in part to loss of opiate inhibition of LC neurons. 

Type IV drugs inhibit calcium entry into the cell, which slows conduction, prolongs refractoriness, and decreases SA and AV nodal automaticity. Calcium channel antagonists are effective for automatic or reentrant tachycardias that arise from or use the SA or AV nodes. 

Anticholinergic (ACh) side effects include impaired memory, dry mouth, constipation, tachycardia, blurred vision, inhibition of ejaculation, and... 

Many patients discontinue oxybutynin IR because of adverse effects due to antimuscarinic effects (e.g., dry mouth, constipation, vision impairment, confusion, cognitive dysfunction, and tachycardia), a-adrenergic inhibition (e.g., orthostatic hypotension), and histamine 111 inhibition (e.g., sedation, and weight gain). 

Presynaptic a2-adrenoceptors function like sensors that enable norepinephrine concentration outside the axolemma to be monitored, thus regulating its release via a local feedback mechanism. When presynaptic a2-re-ceptors are stimulated, further release of norepinephrine is inhibited. Conversely, their blockade leads to uncontrolled release of norepinephrine with an overt enhancement of sympathetic effects at Pi-adrenoceptor-mediated myocardial neuroeffector junctions, resulting in tachycardia and tachyarrhythmia. 

Counter-regulation in acute hypotension due to vasodilators (B). Increased sympathetic drive raises heart rate (reflex tachycardia) and cardiac output and thus helps to elevate blood pressure. Patients experience palpitations. Activation of the renin-angioten-sin-aidosterone (RAA) system serves to increase blood volume, hence cardiac output. Fluid retention leads to an increase in body weight and, possibly, edemas. These counter-regulatory processes are susceptible to pharmacological inhibition ( 3-blockers, ACE inhibitors, ATI-antagonists, diuretics). 

Indications. Verapamil is used as an antiarrhythmic drug in supraventricular tachyarrhythmias. In atrial flutter or fibrillation, it is effective in reducing ventricular rate by virtue of inhibiting AV-conduction. Verapamil is also employed in the prophylaxis of angina pectoris attacks (p. 308) and the treatment of hypertension (p. 312). Adverse effects Because of verapamil s effects on the sinus node, a drop in blood pressure fails to evoke a reflex tachycardia Heart rate hardly changes bradycardia may even develop. AV-block and myocardial insufficiency can occur. Patients frequently complain of constipation. 

Most of the human experience with disulfiram has come from its use as an avoidance therapy for alcoholism. Metabolites of disulfiram inhibit aldehyde dehydrogenase, resulting in elevated levels of acetaldehyde after ethanol ingestion. Side effects include flushing of the face, tachycardia, severe headache, apprehension, hyperpnea, hypotension, dizziness, nausea, vomiting, and fainting. Severe reactions may include convulsions, myocardial infarction, and marked respiratory depression. ... 

Drugs of this group are calcium channel blockers that inhibit slow transmembrane calcium ion flow in the cell of the conductive system of the heart during depolarization, which causes a slowing of atrioventricular conductivity and increased effective refractive period of atrioventricular ganglia, which eventually leads to the relaxation of smooth muscle of heart musculature and restores normal sinus rhythm during supraventricular tachycardias. 

Pharmacology Bretylium tosylate inhibits norepinephrine release by depressing adrenergic nerve terminal excitability, inducing a chemical sympathectomy-like state. Bretylium blocks the release of norepinephrine in response to neuron stimulation. Peripheral adrenergic blockade causes orthostatic hypotension but has less effect on supine blood pressure. It has a positive inotropic effect on the myocardium. Pharmacokinetics Peak plasma concentration and peak hypotensive effects are seen within 1 hour of IM administration. However, suppression of premature ventricular beats is not maximal until 6 to 9 hours after dosing, when mean plasma concentration declines to less than 50% of peak level. Antifibrillatory effects occur within minutes of an IV injection. Suppression of ventricular tachycardia and other ventricular arrhythmias develops more slowly, usually 20 minutes to 2 hours after parenteral administration. 

Antihistamines, nonsedating/Cisapride/Pimozide- Cisapride and pimozide are metabolized by the cytochrome P-450 3A4 isozyme inhibitors of 3A4 can block the metabolism of these drugs, resulting in increased plasma concentrations of parent drug, which is associated with QT prolongation and with rare cases of serious cardiovascular adverse events, including death, because of ventricular tachycardia of the torsades de pointes type. In vitro, nefazodone inhibits 3A4. It is recommended that nefazodone not be used in combination with cisapride or pimozide. 

While the inhibition of noradrenaline re-uptake exerts predominantly an a-adrenergic effect, a selective jS-adrenergic effect can not be obtained by such an indirect mechanism. All selective /3-sympathomi-metics activate the receptors, P -, P2- or both sub-types, directly. The first pure jS-sympathomimetic in clinical use was isoproterenol which is structurally identical to adrenaline except the methyl-moiety at the N-position in the side-chain is replaced by an isopropyl-group. All effects produced by isoproterenol are due to either P -or 62-adrenoceptor stimulation tachycardia, increased stroke volume, decreased vascular resistance, broncho dilatation and, in pregnancy, uterus relaxation. The metabolic effects of isoproterenol are less pronounced than those of adrenaline. 

Since the bronchial tonus is under the relaxant influence of 62-adrenoceptor stimulation, especially unselective jS-blockers increase the respiratory resistance. In susceptible patients this might induce airway obstruction or even acute asthma. The blockade of jS2-adrenoceptors inhibits the mobilization of free fatty acids and glucose. This might result in hypoglycemia in diabetic patients. Furthermore, these patients will be not aware of the danger since most of the sympathetically mediated alerting symptoms like tachycardia are suppressed by the jS-blockers as well. jSi-Selective blockers show this type of side-effect less pronounced than unselective compounds. 

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