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Mr. D, age 30, has a 12-year history of schizophrenia and is experiencing worsening auditory hallucinations despite reported medication adherence. He has been taking clozapine, maintenance dosages 500 to 700 mg/d, for 4 years and smokes 2 packs of cigarettes a day. When Mr. D is admitted to a nonsmoking inpatient psychiatric facility, he receives nicotine transdermal patches, 21 mg/d, for nicotine withdrawal. Mr. D’s most recent outpatient clozapine dosage, 700 mg/d, is resumed. All laboratory tests, including complete blood count with differential, are within normal limits at admission.
Five days later Mr. D is tachycardic with a heart rate of 109 beats per minute. When assessing Mr. D, we notice he has alogia and that, when he does speak, his speech is slowed with a 4 to 5 second delay in response. He also appears sedated. We observe occasional mild jerking of his shoulder and lower legs.
Mr. D reports that his auditory hallucinations have lessened since his admission, but complains of difficulty remembering information and feeling tired during the day. The treatment team suspects clozapine toxicity; his trough clozapine level is 1,350 ng/mL (therapeutic range, 350 to 1,000 ng/mL).
It is well documented that cigarette smoke can induce cytochrome P450 (CYP) isoenzymes, specifically CYP1A1, CYP1A2, and CYP2E1. Because clozapine is primarily metabolized by CYP1A2 (approximately 70%), smoking can induce clozapine metabolism and abruptly stopping smoking can increase clozapine levels.1 The polycyclic aromatic hydrocarbons, not the nicotine, found in cigarettes are thought to be responsible for CYP1A2 induction; therefore, use of a nicotine replacement product did not prevent the increase in Mr. D’s clozapine levels.
Examining the evidence
Meyer1 evaluated clozapine levels before and after implementation of a hospital-wide smoking ban (N = 11). Clozapine dosages were not adjusted at the time of the smoking ban, which resulted in a mean 72% increase in clozapine levels after a minimum of 2 weeks as nonsmokers. Even after eliminating 2 outliers, the mean increase in clozapine levels was 36.1%. Murayama-Sung et al2 reported a statistically significant increase in the level of clozapine (46%, P = .004) and the level of norclozapine (23%, P = .02) after a hospital-wide smoking ban was instituted (N = 14). However, the pre-change and post-change in the ratio of clozapine to norclozapine level was not found to be statistically significant. Haslemo et al3 found that smoking as few as 7 to 12 cigarettes a day was sufficient for maximum induction of CYP1A2. Because Mr. D was smoking 2 packs of cigarettes a day (40 cigarettes) with an clozapine dosage 700 mg/d as an outpatient, he likely experienced significant induction of clozapine metabolism through CYP1A2, which was no longer present when he stopped smoking.
Therapeutic clozapine concentrations are typically above 350 and 420 ng/mL.4 Concentrations >700 ng/mL are associated with increased adverse effects, but generally are not associated with a higher response; levels >900 ng/mL have been associated with toxicity.4 Clozapine-treated patients on a stable dosage who smoke can experience clozapine-related adverse effects after admission to a smoke-free facility secondary to an increase in the clozapine concentration (Table 1).4
Five days after admission to the facility, Mr. D was noted to have myoclonus, somnolence, and tachycardia, with a clozapine level of 1,350 ng/mL. Additional adverse effects that can be seen include orthostatic hypotension, sialorrhea, worsening psychiatric symptoms (eg, hallucinations), and seizures.5 Although there is variability in the timing of the decrease in CYP1A2 activity after smoking cessation, practitioners should begin to monitor for clozapine-related adverse effects 1 or 2 days after smoking cessation.6
Treatment recommendations
Monitoring of the clozapine concentration and adjustment of the dosage might be needed to account for the fluctuation seen with smoking cessation to maintain efficacy and minimize adverse effects. However, a test of the clozapine level may not be available at all facilities, often requiring that the specimen be sent to an outside laboratory, taking 3 to 7 days to receive results.
Faber and Fuhr6 recommended reducing the dosage of a CYP1A2 substrate medication, such as clozapine, olanzapine, or theophylline, by 10% each day until the dosage has been reduced by 40% in patients who stop smoking. Lowe and Ackman5 proposed reducing the clozapine dosage by 30% to 40% to achieve a pre-cessation serum concentration at 1 week. For Mr. D, this would mean decreasing the clozapine dosage to 425 to 500 mg/d.
Assuming that Mr. D’s clozapine dosage is decreased during his hospitalization and that he resumes smoking after discharge, it is likely the dosage will need to be increased. It may take several weeks to see maximal induction, because new CYP enzymes need to be synthesized when the patient resumes smoking.7 One recommendation is to increase the clozapine dosage by a factor of 1.5 over 2 to 4 weeks, with close monitoring of the clozapine concentration and adverse effects because this increase is approximate.7 Depending on when Mr. D’s follow-up appointment is scheduled, the practitioner may need to plan a dosage adjustment to prevent a decrease in his clozapine level caused by smoking to prevent a worsening of symptoms and rehospitalization.
This case emphasizes the importance of asking clozapine-treated patients about their smoking history when they are admitted to a smoke-free facility. For several reasons, >60% of patients with schizophrenia smoke cigarettes8 (Table 2).9-14 Patients who smoke and are on a stable dosage of clozapine might require a dosage reduction when they are admitted to a smoke-free facility to avoid adverse effects. If the dosage is not adjusted, a patient may experience clozapine-induced adverse effects, such as tachycardia, sedation, and seizures. It is likely that patients such as Mr. D will experience fluctuation in the clozapine level and possibly changes in efficacy and tolerability transitioning between inpatient and outpatient settings if the dosage is not adjusted.
Related Resources
• Kroon LA. Drug interactions with smoking. Am J Health Syst Pharm. 2007;64(18):1917-1921.
• Fankhauser MP. Drug interactions with tobacco smoke: Implications for patient care. Current Psychiatry. 2013; 12(1):12-16.
• Greenwood-Smith C, Lubman DI, Castle DJ. Serum clozapine levels: a review of their clinical utility. J Psychopharmacol. 2003;17(2):234-248.
• Olesen OV, Thomsen K, Jensen PN, et al. Clozapine serum levels and side effects during steady state treatment of schizophrenic patients: a cross sectional study. Psychopharmacology (Berl). 1995;117(3):371-378.
Drug Brand Names
Clozapine • Clozaril Theophylline • Theo-Dur
Olanzapine • Zyprexa
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Meyer JM. Individual changes in clozapine levels after smoking cessation: results and a predictive model. J Clin Psychopharmacol. 2001;21(6):569-574.
2. Murayama-Sung L, Ahmed I, Goebert D, et al. The impact of hospital smoking ban on clozapine and norclozapine levels. J Clin Psychopharmacol. 2011;31(1):124-126.
3. Haslemo T, Eikeseth PH, Tanum L, et al. The effect of variable cigarette consumption on the interaction with clozapine and olanzapine. Eur J Clin Psychopharmacol. 2006;62(12): 1049-1053.
4. Nielsen J, Damkier P, Lublin H, et al. Optimizing clozapine treatment. Acta Psychiatr Scand. 2011;123(6):411-422.
5. Lowe EJ, Ackman ML. Impact of tobacco smoking cessation on stable clozapine and olanzapine treatment. Ann Pharmacother. 2010;44(4):727-732.
6. Faber MS, Fuhr U. Time response of cytochrome P450 1A2 activity on cessation of heavy smoking. Clin Pharmacol Ther. 2004;76(2):178-184.
7. de Leon J. Atypical antipsychotic dosing: the effect of smoking and caffeine. Psychiatr Serv. 2004;55(5):491-493.
8. Dickerson F, Stallings CR, Origoni AE, et al. Cigarette smoking among persons with schizophrenia or bipolar disorder in routine clinical settings, 1999-2011. Psychiatr Serv. 2013;64(1):44-50.
9. Esterberg ML, Compton MT. Smoking behavior in persons with a schizophrenia-spectrum disorder: a qualitative investigation of the transtheoretical model. Soc Sci Med. 2005;61(2):293-303.
10. Barr RS, Culhane MA, Jubelt LE, et al. The effects of transdermal nicotine on cognition in nonsmokers with schizophrenia and nonpsychiatric controls. Neuropsychopharmacology. 2008; 33(3):480-490.
11. Adler LE, Hoffer LD, Wiser A, et al. Normalization of auditory physiology by cigarette smoking in schizophrenic patients. Am J Psychiatry. 1993;150(12):1856-1861.
12. Sallette J, Pons S, Devillers-Thiery A, et al. Nicotine upregulates its own receptors through enhanced intracellular maturation. Neuron. 2005;46(4):595-607.
13. Breese CR, Lee MJ, Adams CE, et al. Abnormal regulation of high affinity nicotinic receptors in subjects with schizophrenia. Neuropsychopharmacology. 2000;23(4):351-364.
14. Miller DD, Kelly MW, Perry PJ, et al. The influence of cigarette smoking on haloperidol pharmacokinetics. J Clin Psychiatry. 1990;28(6):529-231.
Mr. D, age 30, has a 12-year history of schizophrenia and is experiencing worsening auditory hallucinations despite reported medication adherence. He has been taking clozapine, maintenance dosages 500 to 700 mg/d, for 4 years and smokes 2 packs of cigarettes a day. When Mr. D is admitted to a nonsmoking inpatient psychiatric facility, he receives nicotine transdermal patches, 21 mg/d, for nicotine withdrawal. Mr. D’s most recent outpatient clozapine dosage, 700 mg/d, is resumed. All laboratory tests, including complete blood count with differential, are within normal limits at admission.
Five days later Mr. D is tachycardic with a heart rate of 109 beats per minute. When assessing Mr. D, we notice he has alogia and that, when he does speak, his speech is slowed with a 4 to 5 second delay in response. He also appears sedated. We observe occasional mild jerking of his shoulder and lower legs.
Mr. D reports that his auditory hallucinations have lessened since his admission, but complains of difficulty remembering information and feeling tired during the day. The treatment team suspects clozapine toxicity; his trough clozapine level is 1,350 ng/mL (therapeutic range, 350 to 1,000 ng/mL).
It is well documented that cigarette smoke can induce cytochrome P450 (CYP) isoenzymes, specifically CYP1A1, CYP1A2, and CYP2E1. Because clozapine is primarily metabolized by CYP1A2 (approximately 70%), smoking can induce clozapine metabolism and abruptly stopping smoking can increase clozapine levels.1 The polycyclic aromatic hydrocarbons, not the nicotine, found in cigarettes are thought to be responsible for CYP1A2 induction; therefore, use of a nicotine replacement product did not prevent the increase in Mr. D’s clozapine levels.
Examining the evidence
Meyer1 evaluated clozapine levels before and after implementation of a hospital-wide smoking ban (N = 11). Clozapine dosages were not adjusted at the time of the smoking ban, which resulted in a mean 72% increase in clozapine levels after a minimum of 2 weeks as nonsmokers. Even after eliminating 2 outliers, the mean increase in clozapine levels was 36.1%. Murayama-Sung et al2 reported a statistically significant increase in the level of clozapine (46%, P = .004) and the level of norclozapine (23%, P = .02) after a hospital-wide smoking ban was instituted (N = 14). However, the pre-change and post-change in the ratio of clozapine to norclozapine level was not found to be statistically significant. Haslemo et al3 found that smoking as few as 7 to 12 cigarettes a day was sufficient for maximum induction of CYP1A2. Because Mr. D was smoking 2 packs of cigarettes a day (40 cigarettes) with an clozapine dosage 700 mg/d as an outpatient, he likely experienced significant induction of clozapine metabolism through CYP1A2, which was no longer present when he stopped smoking.
Therapeutic clozapine concentrations are typically above 350 and 420 ng/mL.4 Concentrations >700 ng/mL are associated with increased adverse effects, but generally are not associated with a higher response; levels >900 ng/mL have been associated with toxicity.4 Clozapine-treated patients on a stable dosage who smoke can experience clozapine-related adverse effects after admission to a smoke-free facility secondary to an increase in the clozapine concentration (Table 1).4
Five days after admission to the facility, Mr. D was noted to have myoclonus, somnolence, and tachycardia, with a clozapine level of 1,350 ng/mL. Additional adverse effects that can be seen include orthostatic hypotension, sialorrhea, worsening psychiatric symptoms (eg, hallucinations), and seizures.5 Although there is variability in the timing of the decrease in CYP1A2 activity after smoking cessation, practitioners should begin to monitor for clozapine-related adverse effects 1 or 2 days after smoking cessation.6
Treatment recommendations
Monitoring of the clozapine concentration and adjustment of the dosage might be needed to account for the fluctuation seen with smoking cessation to maintain efficacy and minimize adverse effects. However, a test of the clozapine level may not be available at all facilities, often requiring that the specimen be sent to an outside laboratory, taking 3 to 7 days to receive results.
Faber and Fuhr6 recommended reducing the dosage of a CYP1A2 substrate medication, such as clozapine, olanzapine, or theophylline, by 10% each day until the dosage has been reduced by 40% in patients who stop smoking. Lowe and Ackman5 proposed reducing the clozapine dosage by 30% to 40% to achieve a pre-cessation serum concentration at 1 week. For Mr. D, this would mean decreasing the clozapine dosage to 425 to 500 mg/d.
Assuming that Mr. D’s clozapine dosage is decreased during his hospitalization and that he resumes smoking after discharge, it is likely the dosage will need to be increased. It may take several weeks to see maximal induction, because new CYP enzymes need to be synthesized when the patient resumes smoking.7 One recommendation is to increase the clozapine dosage by a factor of 1.5 over 2 to 4 weeks, with close monitoring of the clozapine concentration and adverse effects because this increase is approximate.7 Depending on when Mr. D’s follow-up appointment is scheduled, the practitioner may need to plan a dosage adjustment to prevent a decrease in his clozapine level caused by smoking to prevent a worsening of symptoms and rehospitalization.
This case emphasizes the importance of asking clozapine-treated patients about their smoking history when they are admitted to a smoke-free facility. For several reasons, >60% of patients with schizophrenia smoke cigarettes8 (Table 2).9-14 Patients who smoke and are on a stable dosage of clozapine might require a dosage reduction when they are admitted to a smoke-free facility to avoid adverse effects. If the dosage is not adjusted, a patient may experience clozapine-induced adverse effects, such as tachycardia, sedation, and seizures. It is likely that patients such as Mr. D will experience fluctuation in the clozapine level and possibly changes in efficacy and tolerability transitioning between inpatient and outpatient settings if the dosage is not adjusted.
Related Resources
• Kroon LA. Drug interactions with smoking. Am J Health Syst Pharm. 2007;64(18):1917-1921.
• Fankhauser MP. Drug interactions with tobacco smoke: Implications for patient care. Current Psychiatry. 2013; 12(1):12-16.
• Greenwood-Smith C, Lubman DI, Castle DJ. Serum clozapine levels: a review of their clinical utility. J Psychopharmacol. 2003;17(2):234-248.
• Olesen OV, Thomsen K, Jensen PN, et al. Clozapine serum levels and side effects during steady state treatment of schizophrenic patients: a cross sectional study. Psychopharmacology (Berl). 1995;117(3):371-378.
Drug Brand Names
Clozapine • Clozaril Theophylline • Theo-Dur
Olanzapine • Zyprexa
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
Mr. D, age 30, has a 12-year history of schizophrenia and is experiencing worsening auditory hallucinations despite reported medication adherence. He has been taking clozapine, maintenance dosages 500 to 700 mg/d, for 4 years and smokes 2 packs of cigarettes a day. When Mr. D is admitted to a nonsmoking inpatient psychiatric facility, he receives nicotine transdermal patches, 21 mg/d, for nicotine withdrawal. Mr. D’s most recent outpatient clozapine dosage, 700 mg/d, is resumed. All laboratory tests, including complete blood count with differential, are within normal limits at admission.
Five days later Mr. D is tachycardic with a heart rate of 109 beats per minute. When assessing Mr. D, we notice he has alogia and that, when he does speak, his speech is slowed with a 4 to 5 second delay in response. He also appears sedated. We observe occasional mild jerking of his shoulder and lower legs.
Mr. D reports that his auditory hallucinations have lessened since his admission, but complains of difficulty remembering information and feeling tired during the day. The treatment team suspects clozapine toxicity; his trough clozapine level is 1,350 ng/mL (therapeutic range, 350 to 1,000 ng/mL).
It is well documented that cigarette smoke can induce cytochrome P450 (CYP) isoenzymes, specifically CYP1A1, CYP1A2, and CYP2E1. Because clozapine is primarily metabolized by CYP1A2 (approximately 70%), smoking can induce clozapine metabolism and abruptly stopping smoking can increase clozapine levels.1 The polycyclic aromatic hydrocarbons, not the nicotine, found in cigarettes are thought to be responsible for CYP1A2 induction; therefore, use of a nicotine replacement product did not prevent the increase in Mr. D’s clozapine levels.
Examining the evidence
Meyer1 evaluated clozapine levels before and after implementation of a hospital-wide smoking ban (N = 11). Clozapine dosages were not adjusted at the time of the smoking ban, which resulted in a mean 72% increase in clozapine levels after a minimum of 2 weeks as nonsmokers. Even after eliminating 2 outliers, the mean increase in clozapine levels was 36.1%. Murayama-Sung et al2 reported a statistically significant increase in the level of clozapine (46%, P = .004) and the level of norclozapine (23%, P = .02) after a hospital-wide smoking ban was instituted (N = 14). However, the pre-change and post-change in the ratio of clozapine to norclozapine level was not found to be statistically significant. Haslemo et al3 found that smoking as few as 7 to 12 cigarettes a day was sufficient for maximum induction of CYP1A2. Because Mr. D was smoking 2 packs of cigarettes a day (40 cigarettes) with an clozapine dosage 700 mg/d as an outpatient, he likely experienced significant induction of clozapine metabolism through CYP1A2, which was no longer present when he stopped smoking.
Therapeutic clozapine concentrations are typically above 350 and 420 ng/mL.4 Concentrations >700 ng/mL are associated with increased adverse effects, but generally are not associated with a higher response; levels >900 ng/mL have been associated with toxicity.4 Clozapine-treated patients on a stable dosage who smoke can experience clozapine-related adverse effects after admission to a smoke-free facility secondary to an increase in the clozapine concentration (Table 1).4
Five days after admission to the facility, Mr. D was noted to have myoclonus, somnolence, and tachycardia, with a clozapine level of 1,350 ng/mL. Additional adverse effects that can be seen include orthostatic hypotension, sialorrhea, worsening psychiatric symptoms (eg, hallucinations), and seizures.5 Although there is variability in the timing of the decrease in CYP1A2 activity after smoking cessation, practitioners should begin to monitor for clozapine-related adverse effects 1 or 2 days after smoking cessation.6
Treatment recommendations
Monitoring of the clozapine concentration and adjustment of the dosage might be needed to account for the fluctuation seen with smoking cessation to maintain efficacy and minimize adverse effects. However, a test of the clozapine level may not be available at all facilities, often requiring that the specimen be sent to an outside laboratory, taking 3 to 7 days to receive results.
Faber and Fuhr6 recommended reducing the dosage of a CYP1A2 substrate medication, such as clozapine, olanzapine, or theophylline, by 10% each day until the dosage has been reduced by 40% in patients who stop smoking. Lowe and Ackman5 proposed reducing the clozapine dosage by 30% to 40% to achieve a pre-cessation serum concentration at 1 week. For Mr. D, this would mean decreasing the clozapine dosage to 425 to 500 mg/d.
Assuming that Mr. D’s clozapine dosage is decreased during his hospitalization and that he resumes smoking after discharge, it is likely the dosage will need to be increased. It may take several weeks to see maximal induction, because new CYP enzymes need to be synthesized when the patient resumes smoking.7 One recommendation is to increase the clozapine dosage by a factor of 1.5 over 2 to 4 weeks, with close monitoring of the clozapine concentration and adverse effects because this increase is approximate.7 Depending on when Mr. D’s follow-up appointment is scheduled, the practitioner may need to plan a dosage adjustment to prevent a decrease in his clozapine level caused by smoking to prevent a worsening of symptoms and rehospitalization.
This case emphasizes the importance of asking clozapine-treated patients about their smoking history when they are admitted to a smoke-free facility. For several reasons, >60% of patients with schizophrenia smoke cigarettes8 (Table 2).9-14 Patients who smoke and are on a stable dosage of clozapine might require a dosage reduction when they are admitted to a smoke-free facility to avoid adverse effects. If the dosage is not adjusted, a patient may experience clozapine-induced adverse effects, such as tachycardia, sedation, and seizures. It is likely that patients such as Mr. D will experience fluctuation in the clozapine level and possibly changes in efficacy and tolerability transitioning between inpatient and outpatient settings if the dosage is not adjusted.
Related Resources
• Kroon LA. Drug interactions with smoking. Am J Health Syst Pharm. 2007;64(18):1917-1921.
• Fankhauser MP. Drug interactions with tobacco smoke: Implications for patient care. Current Psychiatry. 2013; 12(1):12-16.
• Greenwood-Smith C, Lubman DI, Castle DJ. Serum clozapine levels: a review of their clinical utility. J Psychopharmacol. 2003;17(2):234-248.
• Olesen OV, Thomsen K, Jensen PN, et al. Clozapine serum levels and side effects during steady state treatment of schizophrenic patients: a cross sectional study. Psychopharmacology (Berl). 1995;117(3):371-378.
Drug Brand Names
Clozapine • Clozaril Theophylline • Theo-Dur
Olanzapine • Zyprexa
Disclosure
The authors report no financial relationship with any company whose products are mentioned in this article or with manufacturers of competing products.
1. Meyer JM. Individual changes in clozapine levels after smoking cessation: results and a predictive model. J Clin Psychopharmacol. 2001;21(6):569-574.
2. Murayama-Sung L, Ahmed I, Goebert D, et al. The impact of hospital smoking ban on clozapine and norclozapine levels. J Clin Psychopharmacol. 2011;31(1):124-126.
3. Haslemo T, Eikeseth PH, Tanum L, et al. The effect of variable cigarette consumption on the interaction with clozapine and olanzapine. Eur J Clin Psychopharmacol. 2006;62(12): 1049-1053.
4. Nielsen J, Damkier P, Lublin H, et al. Optimizing clozapine treatment. Acta Psychiatr Scand. 2011;123(6):411-422.
5. Lowe EJ, Ackman ML. Impact of tobacco smoking cessation on stable clozapine and olanzapine treatment. Ann Pharmacother. 2010;44(4):727-732.
6. Faber MS, Fuhr U. Time response of cytochrome P450 1A2 activity on cessation of heavy smoking. Clin Pharmacol Ther. 2004;76(2):178-184.
7. de Leon J. Atypical antipsychotic dosing: the effect of smoking and caffeine. Psychiatr Serv. 2004;55(5):491-493.
8. Dickerson F, Stallings CR, Origoni AE, et al. Cigarette smoking among persons with schizophrenia or bipolar disorder in routine clinical settings, 1999-2011. Psychiatr Serv. 2013;64(1):44-50.
9. Esterberg ML, Compton MT. Smoking behavior in persons with a schizophrenia-spectrum disorder: a qualitative investigation of the transtheoretical model. Soc Sci Med. 2005;61(2):293-303.
10. Barr RS, Culhane MA, Jubelt LE, et al. The effects of transdermal nicotine on cognition in nonsmokers with schizophrenia and nonpsychiatric controls. Neuropsychopharmacology. 2008; 33(3):480-490.
11. Adler LE, Hoffer LD, Wiser A, et al. Normalization of auditory physiology by cigarette smoking in schizophrenic patients. Am J Psychiatry. 1993;150(12):1856-1861.
12. Sallette J, Pons S, Devillers-Thiery A, et al. Nicotine upregulates its own receptors through enhanced intracellular maturation. Neuron. 2005;46(4):595-607.
13. Breese CR, Lee MJ, Adams CE, et al. Abnormal regulation of high affinity nicotinic receptors in subjects with schizophrenia. Neuropsychopharmacology. 2000;23(4):351-364.
14. Miller DD, Kelly MW, Perry PJ, et al. The influence of cigarette smoking on haloperidol pharmacokinetics. J Clin Psychiatry. 1990;28(6):529-231.
1. Meyer JM. Individual changes in clozapine levels after smoking cessation: results and a predictive model. J Clin Psychopharmacol. 2001;21(6):569-574.
2. Murayama-Sung L, Ahmed I, Goebert D, et al. The impact of hospital smoking ban on clozapine and norclozapine levels. J Clin Psychopharmacol. 2011;31(1):124-126.
3. Haslemo T, Eikeseth PH, Tanum L, et al. The effect of variable cigarette consumption on the interaction with clozapine and olanzapine. Eur J Clin Psychopharmacol. 2006;62(12): 1049-1053.
4. Nielsen J, Damkier P, Lublin H, et al. Optimizing clozapine treatment. Acta Psychiatr Scand. 2011;123(6):411-422.
5. Lowe EJ, Ackman ML. Impact of tobacco smoking cessation on stable clozapine and olanzapine treatment. Ann Pharmacother. 2010;44(4):727-732.
6. Faber MS, Fuhr U. Time response of cytochrome P450 1A2 activity on cessation of heavy smoking. Clin Pharmacol Ther. 2004;76(2):178-184.
7. de Leon J. Atypical antipsychotic dosing: the effect of smoking and caffeine. Psychiatr Serv. 2004;55(5):491-493.
8. Dickerson F, Stallings CR, Origoni AE, et al. Cigarette smoking among persons with schizophrenia or bipolar disorder in routine clinical settings, 1999-2011. Psychiatr Serv. 2013;64(1):44-50.
9. Esterberg ML, Compton MT. Smoking behavior in persons with a schizophrenia-spectrum disorder: a qualitative investigation of the transtheoretical model. Soc Sci Med. 2005;61(2):293-303.
10. Barr RS, Culhane MA, Jubelt LE, et al. The effects of transdermal nicotine on cognition in nonsmokers with schizophrenia and nonpsychiatric controls. Neuropsychopharmacology. 2008; 33(3):480-490.
11. Adler LE, Hoffer LD, Wiser A, et al. Normalization of auditory physiology by cigarette smoking in schizophrenic patients. Am J Psychiatry. 1993;150(12):1856-1861.
12. Sallette J, Pons S, Devillers-Thiery A, et al. Nicotine upregulates its own receptors through enhanced intracellular maturation. Neuron. 2005;46(4):595-607.
13. Breese CR, Lee MJ, Adams CE, et al. Abnormal regulation of high affinity nicotinic receptors in subjects with schizophrenia. Neuropsychopharmacology. 2000;23(4):351-364.
14. Miller DD, Kelly MW, Perry PJ, et al. The influence of cigarette smoking on haloperidol pharmacokinetics. J Clin Psychiatry. 1990;28(6):529-231.