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Nitrovasodilator

August 25, 2023

A nitrovasodilator is a pharmaceutical agent that causes vasodilation (widening of blood vessels) by donation of nitric oxide (NO),[1] and is mostly used for the treatment and prevention of angina pectoris.

This group of drugs includes nitrates (esters of nitric acid), which are reduced to NO in the body, as well as some other substances.

Examples Edit

Here is a list of examples of the nitrate type (in alphabetical order):[2]

  1. Diethylene glycol dinitrate
  2. Glyceryl trinitrate (nitroglycerin)
  3. Isosorbide mononitrate and dinitrate
  4. Itramin tosilate
  5. Nicorandil (which additionally acts as a potassium channel opener)
  6. Pentaerithrityl tetranitrate
  7. Propatylnitrate
  8. Sinitrodil
  9. Tenitramine
  10. Trolnitrate

Nitrovasodilators which aren't nitrates include molsidomine and its active metabolite linsidomine, as well as sodium nitroprusside. These substances do not need to be reduced to donate NO.[2][3]

Medical uses Edit

 
Glyceryl trinitrate (nitroglycerine)
 
Molsidomine
 
Sodium nitroprusside

The nitrates are used for the treatment and prevention of angina and acute myocardial infarction, while molsidomine acts too slowly to be useful for the treatment of acute angina.[2] For quick action in the treatment of angina, glyceryl trinitrate is used in form of a sublingual spray (nitro spray) or as soft capsules to be crunched.[4]

Nitroprusside is used intravenously for the treatment of hypertensive crises, heart failure, and lowering of blood pressure during surgery.[5][6]

Contraindications Edit

Nitrovasodilators are contraindicated under circumstances where lowering of blood pressure can be dangerous. This includes, with some variation between the individual substances, severe hypotension (low blood pressure), shock including cardiogenic shock, and anaemia. Whether a specific drug is useful or harmful under heart failure and myocardial infarction depends on its speed of action: Fast acting substances such as glyceryl trinitrate and nitroprusside can be helpful for controlling blood pressure and consequently the amount of blood the heart has to pump, if the application is monitored continuously. Slow acting substances would hold the danger of ischaemia due to an uncontrollably low blood pressure and are therefore contraindicated. Depending on the circumstances, even fast acting substances can be contraindicated – for example, glyceryl trinitrate in patients with obstructive heart failure.[2][4]

These drugs are also contraindicated in patients that have recently taken PDE5 inhibitors such as sildenafil (Viagra).[4]

Adverse effects Edit

Most side effects are direct consequences of the vasodilation and the resultant low blood pressure. They include headache ("nitrate headache") resulting from the widening of blood vessels in the brain, reflex tachycardia (fast heart rate), flush, dizziness, nausea and vomiting. These effects usually subside after a few days if the treatment is continued.[2]

Occasionally, severe hypotension occurs shortly after beginning of treatment, possibly resulting in intensified angina symptoms or syncope, sometimes with bradycardia (slow heart rate).[4]

Interactions Edit

A number of drugs add to the low blood pressure caused by nitrovasodilators: for example, other vasodilators, antihypertensive drugs, tricyclic antidepressantss, antipsychotics, general anaesthetics, as well as ethanol. Combination with PDE5 inhibitors, including sildenafil (Viagra), is contraindicated because potentially life-threatening hypotension may occur.[2][4]

Nitrates increase the bioavailability of dihydroergotamine (DHE). High DHE levels may result in coronary spasms in patients with coronary disease.[4] This interaction is not described for non-nitrate nitrovasodilators.

Mechanism of action Edit

Nitrovasodilators are prodrugs that donate NO by various mechanisms. Nitrates undergo chemical reduction, likely mediated by enzymes. Molsidomine and nitroprusside already contain nitrogen in the right oxidation state (+2) and liberate NO without the aid of enzymes.[3]

NO stimulates the soluble form of the enzyme guanylate cyclase in the smooth muscle cells of blood vessels. Guanylate cyclase produces cyclic guanosine monophosphate (cGMP) from guanosine triphosphate (GTP). cGMP in turn activates cyclic nucleotide-dependent protein kinase G, which phosphorylates various proteins that play a role in decreasing intracellular calcium levels, leading to relaxation of the muscle cells and thus to dilation of blood vessels.[3][7]

The most important effect in angina is the widening of veins, which increases their capacity to hold blood ("venous pooling") and reduces the pressure of the blood returning to the heart (the preload). Widening of the large arteries also reduces the pressure against which the heart has to pump, the afterload. Lower preload and afterload result in the heart needing less energy and thus less oxygen. Besides, NO donated by nitrovasodilators can reduce coronary spasms, increasing the heart's oxygen supply.[2]

PDE5 inhibitors block deactivation of cGMP by the enzyme phosphodiesterase-5. In combination with the increased cGMP production caused by nitrovasodilators, this leads to high concentrations of cGMP, extensive venous pooling, and potentially life-threatening hypotension.[8][9]

Nitrate tolerance Edit

Nitrates exhibit development of tolerance, or more specifically tachyphylaxis, meaning that repeated application results in a fast decrease of effect, usually within 24 hours. A pause of six to eight hours restores the original effectiveness. This phenomenon was originally thought to be a consequence of depletion of thiol (–SH) groups necessary for the reduction of nitrates. While this theory would fit the fact that molsidomine (which is not reduced) does not exhibit tachyphylaxis, it has meanwhile been refuted. Newer theories include increase of oxidative stress resulting in deactivation of NO to peroxynitrite, and liberation of the vasoconstrictors angiotensin II and endothelin as the blood vessels' reaction to NO-mediated vasodilation.[2]

Differences in pharmacokinetics Edit

Nitrates mainly differ in speed and duration of their action. Glyceryl trinitrate acts fast and short (10 to 30 minutes), while most other nitrates have a slower onset of action, but are effective for up to six hours. Molsidomine, as has been mentioned, not only acts slowly but also differs from the nitrates in exhibiting no tolerance.[2] Nitroprusside, given intravenously, acts immediately, and after stopping the infusion blood pressure returns to its previous level within ten minutes.[6]

See also Edit

References Edit

  1. ^ Brandes RP, Kim D, Schmitz-Winnenthal FH, et al. (January 2000). "Increased nitrovasodilator sensitivity in endothelial nitric oxide synthase knockout mice: role of soluble guanylyl cyclase". Hypertension. 35 (1 Pt 2): 231–6. doi:10.1161/01.hyp.35.1.231. PMID 10642303.
  2. ^ a b c d e f g h i Mutschler, Ernst; Schäfer-Korting, Monika (2001). Arzneimittelwirkungen (in German) (8 ed.). Stuttgart: Wissenschaftliche Verlagsgesellschaft. pp. 554–558. ISBN 978-3-8047-1763-3.
  3. ^ a b c Steinhilber, D; Schubert-Zsilavecz, M; Roth, HJ (2005). Medizinische Chemie (in German). Stuttgart: Deutscher Apotheker Verlag. pp. 257–61. ISBN 978-3-7692-3483-1.
  4. ^ a b c d e f Haberfeld, H, ed. (2007). Austria-Codex (in German) (2007/2008 ed.). Vienna: Österreichischer Apothekerverlag. pp. 5417–8, 5426–9, 5784–5. ISBN 978-3-85200-181-4.
  5. ^ Friederich, JA; Butterworth, JF 4th (July 1995). "Sodium Nitroprusside: Twenty Years and Counting". Anesthesia and Analgesia. 81 (1): 152–162. doi:10.1213/00000539-199507000-00031. PMID 7598246.
  6. ^ a b Sodium nitroprusside: Monograph.
  7. ^ Tanaka, Y.; Tang, G.; Takizawa, K.; Otsuka, K.; Eghbali, M.; Song, M.; Nishimaru, K.; Shigenobu, K.; Koike, K.; Stefani, E.; Toro, L. (2005). "Kv Channels Contribute to Nitric Oxide- and Atrial Natriuretic Peptide-Induced Relaxation of a Rat Conduit Artery". Journal of Pharmacology and Experimental Therapeutics. 317 (1): 341–354. doi:10.1124/jpet.105.096115. PMID 16394199. S2CID 14909302.
  8. ^ Webb, D. J.; Freestone, S.; Allen, M. J.; Muirhead, G. J. (1999). "Sildenafil citrate and blood-pressure-lowering drugs: Results of drug interaction studies with an organic nitrate and a calcium antagonist". The American Journal of Cardiology. 83 (5A): 21C–28C. doi:10.1016/S0002-9149(99)00044-2. PMID 10078539.
  9. ^ Cheitlin, M. D.; Hutter Jr, A. M.; Brindis, R. G.; Ganz, P.; Kaul, S.; Russell Jr, R. O.; Zusman, R. M.; Forrester, J. S.; Douglas, P. S.; Faxon, D. P.; Fisher, J. D.; Gibbons, R. J.; Halperin, J. L.; Hutter, A. M.; Hochman, J. S.; Kaul, S.; Weintraub, W. S.; Winters, W. L.; Wolk, M. J. (1999). "ACC/AHA expert consensus document. Use of sildenafil (Viagra) in patients with cardiovascular disease. American College of Cardiology/American Heart Association". Journal of the American College of Cardiology. 33 (1): 273–282. doi:10.1016/S0735-1097(98)00656-1. PMID 9935041.

August 25, 2023
nitrovasodilator, nitrovasodilator, pharmaceutical, agent, that, causes, vasodilation, widening, blood, vessels, donation, nitric, oxide, mostly, used, treatment, prevention, angina, pectoris, drug, classnitric, oxideclass, identifiersuseangina, pectoris, vaso. A nitrovasodilator is a pharmaceutical agent that causes vasodilation widening of blood vessels by donation of nitric oxide NO 1 and is mostly used for the treatment and prevention of angina pectoris NitrovasodilatorDrug classNitric oxideClass identifiersUseAngina pectoris vasodilationATC codeC01DABiological targetGuanylate cyclaseIn WikidataThis group of drugs includes nitrates esters of nitric acid which are reduced to NO in the body as well as some other substances Contents 1 Examples 2 Medical uses 3 Contraindications 4 Adverse effects 5 Interactions 6 Mechanism of action 7 Nitrate tolerance 8 Differences in pharmacokinetics 9 See also 10 ReferencesExamples EditHere is a list of examples of the nitrate type in alphabetical order 2 Diethylene glycol dinitrate Glyceryl trinitrate nitroglycerin Isosorbide mononitrate and dinitrate Itramin tosilate Nicorandil which additionally acts as a potassium channel opener Pentaerithrityl tetranitrate Propatylnitrate Sinitrodil Tenitramine Trolnitrate Nitrovasodilators which aren t nitrates include molsidomine and its active metabolite linsidomine as well as sodium nitroprusside These substances do not need to be reduced to donate NO 2 3 Medical uses Edit Glyceryl trinitrate nitroglycerine Molsidomine Sodium nitroprussideThe nitrates are used for the treatment and prevention of angina and acute myocardial infarction while molsidomine acts too slowly to be useful for the treatment of acute angina 2 For quick action in the treatment of angina glyceryl trinitrate is used in form of a sublingual spray nitro spray or as soft capsules to be crunched 4 Nitroprusside is used intravenously for the treatment of hypertensive crises heart failure and lowering of blood pressure during surgery 5 6 Contraindications EditNitrovasodilators are contraindicated under circumstances where lowering of blood pressure can be dangerous This includes with some variation between the individual substances severe hypotension low blood pressure shock including cardiogenic shock and anaemia Whether a specific drug is useful or harmful under heart failure and myocardial infarction depends on its speed of action Fast acting substances such as glyceryl trinitrate and nitroprusside can be helpful for controlling blood pressure and consequently the amount of blood the heart has to pump if the application is monitored continuously Slow acting substances would hold the danger of ischaemia due to an uncontrollably low blood pressure and are therefore contraindicated Depending on the circumstances even fast acting substances can be contraindicated for example glyceryl trinitrate in patients with obstructive heart failure 2 4 These drugs are also contraindicated in patients that have recently taken PDE5 inhibitors such as sildenafil Viagra 4 Adverse effects EditMost side effects are direct consequences of the vasodilation and the resultant low blood pressure They include headache nitrate headache resulting from the widening of blood vessels in the brain reflex tachycardia fast heart rate flush dizziness nausea and vomiting These effects usually subside after a few days if the treatment is continued 2 Occasionally severe hypotension occurs shortly after beginning of treatment possibly resulting in intensified angina symptoms or syncope sometimes with bradycardia slow heart rate 4 Interactions EditA number of drugs add to the low blood pressure caused by nitrovasodilators for example other vasodilators antihypertensive drugs tricyclic antidepressantss antipsychotics general anaesthetics as well as ethanol Combination with PDE5 inhibitors including sildenafil Viagra is contraindicated because potentially life threatening hypotension may occur 2 4 Nitrates increase the bioavailability of dihydroergotamine DHE High DHE levels may result in coronary spasms in patients with coronary disease 4 This interaction is not described for non nitrate nitrovasodilators Mechanism of action EditNitrovasodilators are prodrugs that donate NO by various mechanisms Nitrates undergo chemical reduction likely mediated by enzymes Molsidomine and nitroprusside already contain nitrogen in the right oxidation state 2 and liberate NO without the aid of enzymes 3 NO stimulates the soluble form of the enzyme guanylate cyclase in the smooth muscle cells of blood vessels Guanylate cyclase produces cyclic guanosine monophosphate cGMP from guanosine triphosphate GTP cGMP in turn activates cyclic nucleotide dependent protein kinase G which phosphorylates various proteins that play a role in decreasing intracellular calcium levels leading to relaxation of the muscle cells and thus to dilation of blood vessels 3 7 The most important effect in angina is the widening of veins which increases their capacity to hold blood venous pooling and reduces the pressure of the blood returning to the heart the preload Widening of the large arteries also reduces the pressure against which the heart has to pump the afterload Lower preload and afterload result in the heart needing less energy and thus less oxygen Besides NO donated by nitrovasodilators can reduce coronary spasms increasing the heart s oxygen supply 2 PDE5 inhibitors block deactivation of cGMP by the enzyme phosphodiesterase 5 In combination with the increased cGMP production caused by nitrovasodilators this leads to high concentrations of cGMP extensive venous pooling and potentially life threatening hypotension 8 9 Nitrate tolerance EditNitrates exhibit development of tolerance or more specifically tachyphylaxis meaning that repeated application results in a fast decrease of effect usually within 24 hours A pause of six to eight hours restores the original effectiveness This phenomenon was originally thought to be a consequence of depletion of thiol SH groups necessary for the reduction of nitrates While this theory would fit the fact that molsidomine which is not reduced does not exhibit tachyphylaxis it has meanwhile been refuted Newer theories include increase of oxidative stress resulting in deactivation of NO to peroxynitrite and liberation of the vasoconstrictors angiotensin II and endothelin as the blood vessels reaction to NO mediated vasodilation 2 Differences in pharmacokinetics EditNitrates mainly differ in speed and duration of their action Glyceryl trinitrate acts fast and short 10 to 30 minutes while most other nitrates have a slower onset of action but are effective for up to six hours Molsidomine as has been mentioned not only acts slowly but also differs from the nitrates in exhibiting no tolerance 2 Nitroprusside given intravenously acts immediately and after stopping the infusion blood pressure returns to its previous level within ten minutes 6 See also EditHistory of glyceryl trinitrate Biological functions of nitric oxideReferences Edit Brandes RP Kim D Schmitz Winnenthal FH et al January 2000 Increased nitrovasodilator sensitivity in endothelial nitric oxide synthase knockout mice role of soluble guanylyl cyclase Hypertension 35 1 Pt 2 231 6 doi 10 1161 01 hyp 35 1 231 PMID 10642303 a b c d e f g h i Mutschler Ernst Schafer Korting Monika 2001 Arzneimittelwirkungen in German 8 ed Stuttgart Wissenschaftliche Verlagsgesellschaft pp 554 558 ISBN 978 3 8047 1763 3 a b c Steinhilber D Schubert Zsilavecz M Roth HJ 2005 Medizinische Chemie in German Stuttgart Deutscher Apotheker Verlag pp 257 61 ISBN 978 3 7692 3483 1 a b c d e f Haberfeld H ed 2007 Austria Codex in German 2007 2008 ed Vienna Osterreichischer Apothekerverlag pp 5417 8 5426 9 5784 5 ISBN 978 3 85200 181 4 Friederich JA Butterworth JF 4th July 1995 Sodium Nitroprusside Twenty Years and Counting Anesthesia and Analgesia 81 1 152 162 doi 10 1213 00000539 199507000 00031 PMID 7598246 a b Sodium nitroprusside Monograph Tanaka Y Tang G Takizawa K Otsuka K Eghbali M Song M Nishimaru K Shigenobu K Koike K Stefani E Toro L 2005 Kv Channels Contribute to Nitric Oxide and Atrial Natriuretic Peptide Induced Relaxation of a Rat Conduit Artery Journal of Pharmacology and Experimental Therapeutics 317 1 341 354 doi 10 1124 jpet 105 096115 PMID 16394199 S2CID 14909302 Webb D J Freestone S Allen M J Muirhead G J 1999 Sildenafil citrate and blood pressure lowering drugs Results of drug interaction studies with an organic nitrate and a calcium antagonist The American Journal of Cardiology 83 5A 21C 28C doi 10 1016 S0002 9149 99 00044 2 PMID 10078539 Cheitlin M D Hutter Jr A M Brindis R G Ganz P Kaul S Russell Jr R O Zusman R M Forrester J S Douglas P S Faxon D P Fisher J D Gibbons R J Halperin J L Hutter A M Hochman J S Kaul S Weintraub W S Winters W L Wolk M J 1999 ACC AHA expert consensus document Use of sildenafil Viagra in patients with cardiovascular disease American College of Cardiology American Heart Association Journal of the American College of Cardiology 33 1 273 282 doi 10 1016 S0735 1097 98 00656 1 PMID 9935041 Retrieved from https en wikipedia org w index php title Nitrovasodilator amp oldid 1143769520, wikipedia, wiki, book, 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