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Also known as: 93413-69-5, D,l-venlafaxine, Elafax, Venlafaxina, 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)cyclohexanol, Venlafaxinum
Molecular Formula
C17H27NO2
Molecular Weight
277.4  g/mol
InChI Key
PNVNVHUZROJLTJ-UHFFFAOYSA-N
FDA UNII
GRZ5RCB1QG

CAS 93413-69-5
A cyclohexanol and phenylethylamine derivative that functions as a SEROTONIN AND NORADRENALINE REUPTAKE INHIBITOR (SNRI) and is used as an ANTIDEPRESSIVE AGENT.
Venlafaxine is a Serotonin and Norepinephrine Reuptake Inhibitor. The mechanism of action of venlafaxine is as a Norepinephrine Uptake Inhibitor, and Serotonin Uptake Inhibitor.
1 2D Structure

CAS 93413-69-5

2 Identification
2.1 Computed Descriptors
2.1.1 IUPAC Name
1-[2-(dimethylamino)-1-(4-methoxyphenyl)ethyl]cyclohexan-1-ol
2.1.2 InChI
InChI=1S/C17H27NO2/c1-18(2)13-16(17(19)11-5-4-6-12-17)14-7-9-15(20-3)10-8-14/h7-10,16,19H,4-6,11-13H2,1-3H3
2.1.3 InChI Key
PNVNVHUZROJLTJ-UHFFFAOYSA-N
2.1.4 Canonical SMILES
CN(C)CC(C1=CC=C(C=C1)OC)C2(CCCCC2)O
2.2 Other Identifiers
2.2.1 UNII
GRZ5RCB1QG
2.3 Synonyms
2.3.1 MeSH Synonyms

1. 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)cyclohexanol Hcl

2. Cyclohexanol, 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)-, Hydrochloride

3. Dobupal

4. Efexor

5. Effexor

6. Hydrochloride, Venlafaxine

7. Sila Venlafaxine

8. Sila-venlafaxine

9. Trevilor

10. Vandral

11. Venlafaxine Hydrochloride

12. Wy 45,030

13. Wy 45030

14. Wy-45,030

15. Wy-45030

16. Wy45,030

17. Wy45030

2.3.2 Depositor-Supplied Synonyms

1. 93413-69-5

2. D,l-venlafaxine

3. Elafax

4. Venlafaxina

5. 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)cyclohexanol

6. Venlafaxinum

7. Efectin

8. Effexor

9. Velafax

10. Trevilor

11. 1-[2-(dimethylamino)-1-(4-methoxyphenyl)ethyl]cyclohexanol

12. 1-[2-(dimethylamino)-1-(4-methoxyphenyl)ethyl]cyclohexan-1-ol

13. Kanghong

14. Venlor

15. Venlafaxine (inn)

16. Grz5rcb1qg

17. Nsc-758676

18. Chebi:9943

19. Cyclohexanol, 1-[2-(dimethylamino)-1-(4-methoxyphenyl)ethyl]-

20. Venlafaxine [inn:ban]

21. Ncgc00095109-01

22. Venlafaxinum [inn-latin]

23. Venlafaxin

24. Venlafaxina [inn-spanish]

25. Venlafaxine [inn]

26. Dsstox_cid_3737

27. Dsstox_rid_77175

28. Dsstox_gsid_23737

29. Venlafexine

30. Efectin (tn)

31. Cas-93413-69-5

32. Sr-01000762930

33. Unii-grz5rcb1qg

34. 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)cyclohexan-1-ol

35. Dl-venlafaxine

36. Venflaxine Ep

37. Cyclohexanol, 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)-

38. Hsdb 6699

39. Venlafaxine-d6 Hcl

40. Spectrum_001671

41. Specplus_000842

42. Venlafaxine [mi]

43. Spectrum2_000542

44. Spectrum3_000989

45. Spectrum4_001115

46. Spectrum5_001516

47. Venlafaxine Ep Impurity H

48. Chembl637

49. Ec 618-944-2

50. Venlafaxine [vandf]

51. Schembl35154

52. Bspbio_002657

53. Kbiogr_001590

54. Kbioss_002151

55. Venlafaxine [who-dd]

56. Mls006011859

57. Divk1c_006938

58. Spectrum1504171

59. Spbio_000583

60. Gtpl7321

61. Dtxsid6023737

62. Bdbm82071

63. Kbio1_001882

64. Kbio2_002151

65. Kbio2_004719

66. Kbio2_007287

67. Kbio3_001877

68. Hms1922f05

69. Hms2090f04

70. Hms2093a12

71. Hms3714k11

72. Hms3886k14

73. Pharmakon1600-01504171

74. 1-{2-(dimethylamino)-1-[4-(methyloxy)phenyl]ethyl}cyclohexanol

75. Amy39116

76. Hy-b0196

77. Tox21_111425

78. Ccg-39577

79. Mfcd00864385

80. N,n-dimethyl-2-(1-hydroxycyclohexyl)-2-(4-methoxyphenyl)ethylamine

81. Nsc_62923

82. Nsc758676

83. S5655

84. Stk621394

85. Akos005555049

86. Cyclohexanol, 1-(2-(dimethylamino)-1-(4-methoxyphenyl)ethyl)-, (+-)-

87. Tox21_111425_1

88. Wy 45030wy 45030

89. Ac-1547

90. Db00285

91. Nsc 758676

92. Sdccgsbi-0052740.p003

93. Ncgc00095109-02

94. Ncgc00095109-03

95. Ncgc00095109-04

96. Ncgc00095109-05

97. Ncgc00095109-06

98. Ncgc00095109-08

99. Ncgc00095109-20

100. As-76254

101. Smr002204138

102. Wy-45655

103. Sbi-0052740.p002

104. Cas_93413-69-5

105. Cas_99300-78-4

106. Db-057399

107. Ft-0642242

108. Ft-0675793

109. Ft-0675795

110. C07187

111. D08670

112. D82446

113. Ab00053751-08

114. Ab00053751-10

115. Ab00053751-11

116. Ab00053751_12

117. Ab00053751_13

118. 413v695

119. Q898407

120. Sr-01000762930-3

121. Sr-01000762930-4

122. Brd-a51714012-001-02-3

123. Brd-a51714012-003-01-1

124. 1-[2-dimethylamino-1-(4-methoxylphenyl)ethyl]cyclohexanol

125. (rs)-1-[2-(dimethylamino)-1-(4-methoxyphenyl)ethyl]cyclohexanol

126. (+/-)-1-(.alpha.-((dimethylamino)methyl)-p-methoxybenzyl)cyclohexanol

127. 540726-98-5

2.4 Create Date
2005-03-25
3 Chemical and Physical Properties
Molecular Weight 277.4 g/mol
Molecular Formula C17H27NO2
XLogP32.9
Hydrogen Bond Donor Count1
Hydrogen Bond Acceptor Count3
Rotatable Bond Count5
Exact Mass277.204179104 g/mol
Monoisotopic Mass277.204179104 g/mol
Topological Polar Surface Area32.7 Ų
Heavy Atom Count20
Formal Charge0
Complexity279
Isotope Atom Count0
Defined Atom Stereocenter Count0
Undefined Atom Stereocenter Count1
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
Covalently Bonded Unit Count1
4 Drug and Medication Information
4.1 Therapeutic Uses

Antidepressive Agents, Second-Generation; Serotonin Uptake Inhibitors

National Library of Medicine's Medical Subject Headings online file (MeSH, 2011)


Venlafaxine hydrochloride is used in the treatment of major depressive disorder. /Included in US product labeling/

American Society of Health-System Pharmacists 2011; Drug Information 2011. Bethesda, MD. 2011, p. 2360


Venlafaxine hydrochloride is used in the treatment of generalized anxiety disorder. /Included in US product labeling/

American Society of Health-System Pharmacists 2011; Drug Information 2011. Bethesda, MD. 2011, p. 2360


Venlafaxine hydrochloride is used in the treatment of social phobia (social anxiety disorder). /Included in US product labeling/

2011 Emergency Response Planning Guidelines (ERPG) & Workplace Exposure Level (WEEL). American Industrial Hygiene Association, Fairfax, VA 2011, p. 2360


For more Therapeutic Uses (Complete) data for Venlafaxine (10 total), please visit the HSDB record page.


4.2 Drug Warning

/BOXED WARNING/ WARNING: SUICIDAL THOUGHTS AND BEHAVIORS. Antidepressants increased the risk of suicidal thoughts and behavior in children, adolescents, and young adults in short-term studies. These studies did not show an increase in the risk of suicidal thoughts and behavior with antidepressant use in patients over age 24; there was a reduction in risk with antidepressant use in patients aged 65 and older. In patients of all ages who are started on antidepressant therapy monitor closely for clinical worsening and emergence of suicidal thoughts and behaviors. Advise families and caregivers of the need for close observation and communication with the prescriber.

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (Updated: February 2015). Available from, as of April 24, 2015: https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=53c3e7ac-1852-4d70-d2b6-4fca819acf26


The US Food and Drug Administration (FDA) recommends that all patients being treated with antidepressants for any indication be appropriately monitored and closely observed for clinical worsening, suicidality, and unusual changes in behavior, particularly during initiation of therapy (i.e., the first few months) and during periods of dosage adjustments. Families and caregivers of patients being treated with antidepressants for major depressive disorder or other indications, both psychiatric and nonpsychiatric, should be advised to monitor patients on a daily basis for the emergence of agitation, irritability, or unusual changes in behavior, as well as the emergence of suicidality, and to report such symptoms immediately to a health-care provider.

American Society of Health-System Pharmacists 2011; Drug Information 2011. Bethesda, MD. 2011, p. 2361


Although a causal relationship between the emergence of symptoms such as anxiety, agitation, panic attacks, insomnia, irritability, hostility, aggressiveness, impulsivity, akathisia, hypomania, and/or mania and either the worsening of depression and/or the emergence of suicidal impulses has not been established, there is concern that such symptoms may represent precursors to emerging suicidality. Consequently, consideration should be given to changing the therapeutic regimen or discontinuing therapy in patients whose depression is persistently worse or in patients experiencing emergent suicidality or symptoms that might be precursors to worsening depression or suicidality, particularly if such manifestations are severe, abrupt in onset, or were not part of the patient's presenting symptoms. If a decision is made to discontinue therapy, venlafaxine dosage should be tapered as rapidly as is feasible but with recognition of the risks of abrupt discontinuance.

American Society of Health-System Pharmacists 2011; Drug Information 2011. Bethesda, MD. 2011, p. 2361


A case of venlafaxine-induced serotonin syndrome is described with relapse following the introduction of amitriptyline, despite a 2-week period between the discontinuation of one drug and the commencement of the other. Electroencephalography may play an important part in diagnosis. With the increasing use of selective serotonin re-uptake inhibitors, greater awareness of the serotonin syndrome is necessary. Furthermore, the potential for drug interactions which may lead to the syndrome needs to be recognized.

Perry N; Postgrad Med J 76(894): p.254-256 (2000)


For more Drug Warnings (Complete) data for Venlafaxine (20 total), please visit the HSDB record page.


4.3 Drug Indication

Venlafaxine is indicated in the management of major depressive disorder (MDD), generalized anxiety disorder (GAD), social anxiety disorder (social phobia), and panic disorder with or without agoraphobia. Venlafaxine is also used off-label for prophylaxis of migraine headaches, for reduction of vasomotor symptoms associated with menopause, and for management of neuropathic pain (although there is only minimal evidence of efficacy for this condition). It is also considered a second-line option for management of obsessive-compulsive disorder (OCD).


5 Pharmacology and Biochemistry
5.1 Pharmacology

The mechanism of venlafaxine's (and its metabolite, O-desmethylvenlafaxine (ODV)) antidepressant effect is believed to be due to their potentiation of neurotransmitter activity in the central nervous system through the inhibition of the reuptake of serotonin and norepinephrine from within the synapse. Venlafaxine has also been shown to weakly inhibit dopamine reuptake. Neither venlafaxine nor ODV bind to muscarinic, histaminergic, or alpha-1 adrenergic receptors; pharmacologic activity at these receptors is hypothesized to be associated with the various anticholinergic, sedative, and cardiovascular effects seen with other psychotropic drugs. Hyponatremia has also been shown to occur as a result of treatment with SNRIs, and is associated with the development of the syndrome of inappropriate antidiuretic hormone secretion (SIADH). Venlafaxine also demonstrates a clinically significant and dose-related effect on blood pressure, likely due to its potentiation of norepinephrine.


5.2 MeSH Pharmacological Classification

Antidepressive Agents, Second-Generation

A structurally and mechanistically diverse group of drugs that are not tricyclics or monoamine oxidase inhibitors. The most clinically important appear to act selectively on serotonergic systems, especially by inhibiting serotonin reuptake. (See all compounds classified as Antidepressive Agents, Second-Generation.)


Serotonin and Noradrenaline Reuptake Inhibitors

Drugs that selectively block or suppress the plasma membrane transport of SEROTONIN and NORADRENALINE into axon terminals and are used as ANTIDEPRESSIVE AGENTS. (See all compounds classified as Serotonin and Noradrenaline Reuptake Inhibitors.)


5.3 FDA Pharmacological Classification
5.3.1 Active Moiety
VENLAFAXINE
5.3.2 FDA UNII
GRZ5RCB1QG
5.3.3 Pharmacological Classes
Serotonin Uptake Inhibitors [MoA]; Serotonin and Norepinephrine Reuptake Inhibitor [EPC]; Norepinephrine Uptake Inhibitors [MoA]
5.4 ATC Code

N06AX16

S76 | LUXPHARMA | Pharmaceuticals Marketed in Luxembourg | Pharmaceuticals marketed in Luxembourg, as published by d'Gesondheetskeess (CNS, la caisse nationale de sante, www.cns.lu), mapped by name to structures using CompTox by R. Singh et al. (in prep.). List downloaded from https://cns.public.lu/en/legislations/textes-coordonnes/liste-med-comm.html. Dataset DOI:10.5281/zenodo.4587355


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N06AX16

S66 | EAWAGTPS | Parent-Transformation Product Pairs from Eawag | DOI:10.5281/zenodo.3754448


N - Nervous system

N06 - Psychoanaleptics

N06A - Antidepressants

N06AX - Other antidepressants

N06AX16 - Venlafaxine


5.5 Absorption, Distribution and Excretion

Absorption

Venlafaxine is well absorbed, with at least 92% of a single dose absorbed on the basis of mass balance studies. Food does not affect the absorption of venlafaxine or its subsequent metabolism into ODV. Bioavailability is 45% following oral administration. Time to steady state = 3 days.


Route of Elimination

Renal elimination of venlafaxine and its metabolites is the primary route of excretion. Approximately 87% of a venlafaxine dose is recovered in the urine within 48 hours as either unchanged venlafaxine (5%), unconjugated ODV (29%), conjugated ODV (26%), or other minor inactive metabolites (27%).


Volume of Distribution

7.5 3.7 L/kg [venlafaxine]

5.7 1.8 L/kg [O-desmethylvenlafaxine(active metabolite)]


Clearance

Steady state plasma clearance, venlafaxine = 1.3 0.6 L/h/kg; Steady state plasma clearance, ODV = 0.4 0.2 L/h/kg.


Venlafaxine is well absorbed ... .On the basis of mass balance studies, at least 92% of a single oral dose of venlafaxine is absorbed. The absolute bioavailability of venlafaxine is about 45%

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


Steady-state concentrations of venlafaxine and O-desmethylvenlafaxine in plasma are attained within 3 days of oral multiple dose therapy. Venlafaxine and O-desmethylvenlafaxine exhibited linear kinetics over the dose range of 75 to 450 mg/day. Mean +/-SD steady-state plasma clearance of venlafaxine and O-desmethylvenlafaxine is 1.3 +/- 0.6 and 0.4 0.2 L/hr/kg, respectively; apparent elimination half-life is 5 +/- 2 and 11 +/- 2 hours, respectively; and apparent (steady-state) volume of distribution is 7.5 +/- 3.7 and 5.7 +/- 1.8 L/kg, respectively. Venlafaxine and O-desmethylvenlafaxine are minimally bound at therapeutic concentrations to plasma proteins (27% and 30%, respectively).

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


Approximately 87% of a venlafaxine dose is recovered in the urine within 48 hours as unchanged venlafaxine (5%), unconjugated O-desmethylvenlafaxine (29%), conjugated O-desmethylvenlafaxine (26%), or other minor inactive metabolites (27%). Renal elimination of venlafaxine and its metabolites is thus the primary route of excretion

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


Venlafaxine is a unique antidepressant ... . The pharmacokinetics and relative bioavailability of venlafaxine were evaluated in healthy volunteers after oral administration. The bioavailability of 50 mg of venlafaxine as a tablet relative to a solution was determined in a two-period randomized crossover study. The rate of absorption from the gastrointestinal tract was assessed by the time to peak plasma concentration (tmax), a model-dependent calculation of the first-order absorption rate constant, and a model-independent calculation of mean residence time. The extent of absorption was assessed by peak plasma concentration (Cmax) and area under the concentration-time curve (AUC). No statistically significant differences were observed between the two formulations for either the rate or extent of absorption. Similarly, systemic concentrations of the active O-demethylated metabolite did not significantly differ after administration of the two venlafaxine formulations. AUC ratios indicated that the relative bioavailabilities of the parent drug, and formulation of metabolite were approximately 98% and 92%, respectively, for the tablet versus the solution. A separate study was conducted to examine the influence of food on venlafaxine absorption from the 50-mg tablet. A standard, medium-fat breakfast eaten immediately before drug administration delayed the tmax of venlafaxine but did not affect Cmax or AUC. Therefore the tablet formulation of venlafaxine is bioequivalent to the oral solution, and the presence of food appears to decrease the rate but not the extent of absorption of venlafaxine from the tablet formulation.

Troy S et al; J Clin Pharmacol 37(10): p.954-961 (1997)


For more Absorption, Distribution and Excretion (Complete) data for Venlafaxine (8 total), please visit the HSDB record page.


5.6 Metabolism/Metabolites

Undergoes extensive first pass metabolism in the liver to its major, active metabolite, O-desmethylvenlafaxine ODV, and two minor, less active metabolites, N-desmethylvenlafaxine and N,O-didesmethylvenlafaxine. Formation of ODV is catalyzed by cytochrome P450 (CYP) 2D6, whereas N-demethylation is catalyzed by CYP3A4, 2C19 and 2C9. ODV possesses antidepressant activity that is comparable to that of venlfaxine.


Following absorption, venlafaxine undergoes extensive presystemic metabolism in the liver, primarily to O-desmethylvenlafaxine, but also to N-desmethylvenlafaxine, N,O-didesmethylvenlafaxine, and other minor metabolites. In vitro studies indicate that the formation of O-desmethylvenlafaxine is catalyzed by CYP2D6; this has been confirmed in a clinical study showing that patients with low CYP2D6 levels ("poor metabolizers") had increased levels of venlafaxine and reduced levels of O-desmethylvenlafaxine compared to people with normal CYP2D6 ("extensive metabolizers"). The differences between the CYP2D6 poor and extensive metabolizers, however, are not expected to be clinically important because the sum of venlafaxine and O-desmethylvenlafaxine is similar in the two groups and venlafaxine and O-desmethylvenlafaxine are pharmacologically approximately equiactive and equipotent.

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


The biotransformation of venlafaxine (VF) into its two major metabolites, O-desmethylvenlafaxine (ODV) and N-desmethylvenlafaxine (NDV) was studied in vitro with human liver microsomes and with microsomes containing individual human cytochromes from cDNA-transfected human lymphoblastoid cells. VF was coincubated with selective cytochrome P450 (CYP) inhibitors and several selective serotonin reuptake inhibitors (SSRIs) to assess their inhibitory effect on VF metabolism. Formation rates for ODV incubated with human microsomes were consistent with Michaelis-Menten kinetics for a single-enzyme mediated reaction with substrate inhibition. Mean parameters determined by non-linear regression were: Vmax = 0.36 nmol/min/mg protein, K(m) = 41 microM, and Ks 22901 microM (Ks represents a constant which reflects the degree of substrate inhibition). Quinidine (QUI) was a potent inhibitor of ODV formation with a Ki of 0.04 microM, and paroxetine (PX) was the most potent SSRI at inhibiting ODV formation with a mean Ki value of 0.17 microM. Studies using expressed cytochromes showed that ODV was formed by CYP2C9, -2C19, and -2D6. CYP2D6 was dominant with the lowest K(m), 23.2 microM, and highest intrinsic clearance (Vmax/K(m) ratio). No unique model was applicable to the formation of NDV for all four livers tested. Parameters determined by applying a single-enzyme model were Vmax = 2.14 nmol/min/mg protein, and K(m) = 2504 microM. Ketoconazole was a potent inhibitor of NDV production, although its inhibitory activity was not as great as observed with pure 3A substrates. NDV formation was also reduced by 42% by a polyclonal rabbit antibody against rat liver CYP3A1. Studies using expressed cytochromes showed that NDV was formed by CYP2C9, -2C19, and -3A4. The highest intrinsic clearance was attributable to CYP2C19 and the lowest to CYP3A4. However the high in vivo abundance of 3A isoforms will magnify the importance of this cytochrome. Fluvoxamine (FX), at a concentration of 20 microM, decreased NDV production by 46% consistent with the capacity of FX to inhibit CYP3A, 2C9, and 2C19. These results are consistent with previous studies that show CYP2D6 and -3A4 play important roles in the formation of ODV and NDV, respectively. In addition we have shown that several other CYPs have important roles in the biotransformation of VF.

PMID:10192828 Fogelman S et al; Neuropsychopharmacology 20(5): 480-490 (1999)


On three occasions, unusually high trough plasma concentrations of venlafaxine were measured in a patient phenotyped and genotyped as being an extensive CYP2D6 metabolizer and receiving 450 mg/day of venlafaxine and multiple comedications. Values of 1.54 and of 0.60 mg/l of venlafaxine and O-desmethylvenlafaxine, respectively, were determined in the first blood sample, giving an unusually high venlafaxine to O-desmethylvenlafaxine ratio. This suggests an impaired metabolism of venlafaxine to O-desmethylvenlafaxine, and is most likely due to metabolic interactions with mianserin (240 mg/day) and propranolol (40 mg/day). Concentration of (S)-venlafaxine measured in this blood sample was almost twice as high as (R)-venlafaxine ((S)/(R) ratio: 1.94). At the second blood sampling, after addition of thioridazine (260 mg/day), which is a strong CYP2D6 inhibitor, concentrations of venlafaxine were further increased (2.76 mg/l), and concentrations of O-desmethylvenlafaxine decreased (0.22 mg/l). A decrease of the (S)/(R)-venlafaxine ratio (-20%) suggests a possible stereoselectivity towards the (R)-enantiomer of the enzyme(s) involved in venlafaxine O-demethylation at these high venlafaxine concentrations. At the third blood sampling, after interruption of thioridazine, concentrations of venlafaxine and O-desmethylvenlafaxine were similar to those measured in the first blood sample. This case report shows the importance of performing studies on the effects of either genetically determined or acquired deficiency of metabolism on the kinetics of venlafaxine.

Eap C et al; Pharmacopsychiatry 33(3): p.112-115 (2000)


Approximately 87% of a venlafaxine dose is recovered in the urine within 48 hours as unchanged venlafaxine (5%), unconjugated O-desmethylvenlafaxine (29%), conjugated O-desmethylvenlafaxine (26%), or other minor inactive metabolites (27%). Renal elimination of venlafaxine and its metabolites is thus the primary route of excretion

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


5.7 Biological Half-Life

5 hours


Apparent elimination half-life /of venlafaxine and O-desmethylvenlafaxine/ is 5 +/- 2 and 11 +/- 2 hours, respectively.

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


5.8 Mechanism of Action

The exact mechanism of action of venlafaxine is unknown, but appears to be associated with the potentiation of neurotransmitter activity in the CNS. Venlafaxine and its active metabolite, O-desmethylvenlafaxine (ODV), inhibit the reuptake of both serotonin and norepinephrine with a potency greater for the 5-HT than for the NE reuptake process. Both venlafaxine and the ODV metabolite have weak inhibitory effects on the reuptake of dopamine but, unlike the tricyclics and similar to SSRIs, they are not active at histaminergic, muscarinic, or alpha(1)-adrenergic receptors.


The mechanism of the antidepressant action of venlafaxine in humans is believed to be associated with its potentiation of neurotransmitter activity in the CNS. Preclinical studies have shown that venlafaxine and its active metabolite, O-desmethylvenlafaxine, are potent inhibitors of neuronal serotonin and norepinephrine reuptake and weak inhibitors of dopamine reuptake. Venlafaxine and O-desmethylvenlafaxine have no significant affinity for muscarinic cholinergic, H1-histaminergic, or a1-adrenergic receptors in vitro. Pharmacologic activity at these receptors is hypothesized to be associated with the various anticholinergic, sedative, and cardiovascular effects seen with other psychotropic drugs. Venlafaxine and O-desmethylvenlafaxine do not possess monoamine oxidase (MAO) inhibitory activity.

US Natl Inst Health; DailyMed. Current Medication Information for EFFEXOR (venlafaxine hydrochloride) capsule, extended release (October 2009). Available from, as of November 8, 2011: https://dailymed.nlm.nih.gov/dailymed/search.cfm?startswith=venlafaxine


/The antinociceptive effects of the novel phentylethylamine antidepressant drug venlafaxine and its interaction with various opioid, noradrenaline and serotonin receptor subtypes were evaluated. When mice were tested with a hotplate analgesia meter, venlafaxine induced a dose-dependent antinociceptive effect following i.p. administration with an ED50 of 46.7 mg/kg (20.5; 146.5; 95% CL). Opioid, adrenergic and serotoninergic receptor antagonists were tested for their ability to block venlafaxine antinociception. Venlafaxine-induced antinociception was significantly inhibited by naloxone, nor-BNI and naltrindole but not by beta-FNA or naloxonazine, implying involvement of kappa1- and delta-opioid mechanisms. When adrenergic and serotoninergic antagonists were used, yohimbine (P < 0.005) but not phentolamine or metergoline, decreased antinociception elicited by venlafaxine, implying a clear alpha2- and a minor alpha1-adrenergic mechanism of antinociception. When venlafaxine was administered together with various agonists of the opioid and alpha2- receptor subtypes, it significantly potentiated antinociception mediated by kappa1- kappa3- and delta-opioid receptor subtypes. The alpha2-adrenergic agonist clonidine significantly potentiated venlafaxine-mediated antinociception. Summing up these results, we conclude that the antinociceptive effect of venlafaxine is mainly influenced by the kappa- and delta-opioid receptor subtypes combined with the alpha2-adrenergic receptor. These results suggest a potential use of venlafaxine in the management of some pain syndromes. However, further research is needed in order to establish both the exact clinical indications and the effective doses of venlafaxine when prescribed for pain. /Salt not specified/

Schreiber S et al; Neurosci Letters 273(2): p.85-88 (1999)


Venlafaxine ... causes selective inhibition of neuronal reuptake of serotonine and norepinephrine with little effect on other neurotransmitter systems. Cases of seizures, tachycardia, and QRS prolongation have been observed following drug overdose in humans. The clinical manifestations of cardiac toxicity suggest that venlafaxine may exhibit cardiac electrophysiological effects on fast conducting cells. Consequently, studies were undertaken to characterize effects of venlafaxine on the fast inward sodium current (I(Na)) of isolated guinea pig ventricular myocytes. Currents were recorded with the whole-cell configuration of the patch-clamp technique in the presence of Ca(2+) and K(+) channel blockers. Results obtained demonstrated that venlafaxine inhibits peak I(Na) in a concentration-dependent manner with an estimated IC(50) of 8. 10(-6) M. Inhibition was exclusively of a tonic nature and rate-independent. Neither kinetics of inactivation (tau(inac)= 0.652 +/- 0.020 ms, under control conditions; tau(inac)= 0.636 +/- 0.050, in the presence of 10(-5) M venlafaxine; n = 5 cells isolated from five animals) nor kinetics of recovery from inactivation of the sodium channels (tau(re)= 58.7 +/- 1.6 ms, under control conditions; tau(re)= 54.4 +/- 1.8, in the presence of 10(-5) M venlafaxine; n = 10 cells isolated from six animals) were significantly altered by 10(-5) M venlafaxine. These observations led us to conclude that venlafaxine blocks I(Na) following its binding to the resting state of the channel. Thus, the characteristics of block of I(Na) by venlafaxine are different from those usually observed with most tricyclic antidepressants or conventional class I antiarrhythmic drugs.

Khalifa M et al; J Pharmacol Exp Ther 291(1): p.280-284 (1999)


The 5-HT(4) receptor may be a target for antidepressant drugs. ... The effects of the dual antidepressant, venlafaxine, on 5-HT(4) receptor-mediated signalling events /is examined/. The effects of 21 days treatment (p.o.) with high (40 mg kg(-1)) and low (10 mg kg(-1)) doses of venlafaxine, were evaluated at different levels of 5-HT(4) receptor-mediated neurotransmission by using in situ hybridization, receptor autoradiography, adenylate cyclase assays and electrophysiological recordings in rat brain. The selective noradrenaline reuptake inhibitor, reboxetine (10 mg kg(-1), 21 days) was also evaluated on 5-HT(4) receptor density. Treatment with a high dose (40 mg kg(-1)) of venlafaxine did not alter 5-HT(4) mRNA expression, but decreased the density of 5-HT(4) receptors in caudate-putamen (% reduction = 26 + or - 6), hippocampus (% reduction = 39 + or -7 and 39 + or - 8 for CA1 and CA3 respectively) and substantia nigra (% reduction = 49 + or - 5). Zacopride-stimulated adenylate cyclase activation was unaltered following low-dose treatment (10 mg kg(-1)) while it was attenuated in rats treated with 40 mg kg(-1) of venlafaxine (% reduction = 51 + or - 2). Furthermore, the amplitude of population spike in pyramidal cells of CA1 of hippocampus induced by zacopride was significantly attenuated in rats receiving either dose of venlafaxine. Chronic reboxetine did not modify 5-HT(4) receptor density. Data indicate a functional desensitization of 5-HT(4) receptors after chronic venlafaxine, similar to that observed after treatment with the classical selective inhibitors of 5-HT reuptake.

PMID:20880406 Full text: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2990165 Vidal R et al; Br J Pharmacol 161 (3): 695-706 (2010)


The present study was undertaken to evaluate the potential role of 5-HT1A receptors in the antidepressant-like effect and antinociceptive effect of venlafaxine. With this aim, the effect of either a selective 5-HT1A receptor antagonist (WAY-100635; N-2-[4-(2-methoxyphenyl-1-piperazinyl]ethyl]-N-2-pyridinylcyclohexane carboxamide) or a selective 5-HT1A receptor agonist (8-OH-DPAT; 8-hydroxy-2-(di-n-propylamine) tetralin hydrobromide) was investigated in mice in combination with venlafaxine by means of the forced swimming test, a paradigm aimed at screening potential antidepressants, and the hot-plate test, a phasic pain model. Surprisingly, the results showed that WAY-100635 produced a large decrease in the antidepressant-like effect of venlafaxine, while 8-OH-DPAT rendered effective a non-effective dose of this antidepressant. However, in the hot-plate test WAY-100635 significantly enhanced the antinociceptive effect of venlafaxine, whereas 8-OH-DPAT counteracted its antinociceptive effect. These findings show that 5-HT1A receptors play differing roles in modulating the antidepressant-like and antinociceptive effects of venlafaxine in the models investigated. The results imply that blockade of the 5-HT1A receptors in the forebrain will counteract the favourable (antidepressant-like) effect at raphe nuclei level, and consequently, the overall effect evidenced is an antagonism. This suggests a predominant role of 5-HT1A receptors located in the forebrain area for the antidepressant-like effect. In contrast, the antinociceptive effect of venlafaxine is probably potentiated due to the blockade of somatodendritic 5-HT1A receptors in the same raphe nuclei, facilitating the descending monoaminergic pain control system.

PMID:18405417 Berrocoso E, Mico JA; Int J Neuropsychopharmacol 12 (1): 61-71 (2009)


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