Abstract
During the last decade, the risk of venous thromboembolism (VTE) has been reported in users of antipsychotic drugs. However, the reports have been inconclusive. This study aimed to determine the relative risk of VTE in antipsychotic drug users. Using data from medical databases in North Jutland and Aarhus Counties, Denmark, and the Danish Civil Registration System, we identified 5,999 cases with a first-time diagnosis of VTE and, based on risk set sampling, 59,990 sex- and age-matched population controls during 1997–2005. Users of antipsychotic drugs were identified from population-based prescription databases and categorized based on filled prescriptions prior to admission date for VTE or index date for controls as current (at least one prescription within 90 days), recent (at least one prescription within 91–180 days), former (at least one prescription within 181–365 days) or nonusers (no recorded prescription within 365 days). Compared with nonusers, current users of any antipsychotic drugs had an increased risk of VTE (adjusted relative risk [ARR]: 1.99, 95% confidence interval [CI]: 1.69–2.34). Former users of any antipsychotic drugs had a nonsignificant elevated risk of VTE compared with nonusers (ARR: 1.54, 95% CI: 0.99–2.40, p-value: 0.056). In conclusion, users of antipsychotic drugs have an increased risk of VTE, compared with nonusers, which might be due to the treatment itself, to lifestyle factors, to the underlying disease, or to residual confounding.
Introduction
Schizophrenia is a chronic, severe, and disabling disorder with a lifetime prevalence of about 0.5% in the general population.Citation1 Patients suffering from schizophrenia and other psychotic disorders have increased morbidity and mortality from cardiovascular disease.Citation2 During the past decade, several studiesCitation3–Citation12 have reported that treatment with antipsychotic drugs also may be associated with an increased risk of venous thromboembolism (VTE). The hypothesized association between first-generation (conventional) antipsychotic drugs and VTE is based primarily on one case-control studyCitation3 where Zornberg and colleagues observed a risk of VTE for patients aged less than 60 years currently treated with first-generation antipsychotics, compared with former users of these drugs. As only a limited number of study subjects were taking second-generation (atypical) antipsychotics, the risk of VTE in patients using these newer drugs could not be evaluated in that study. The suggested association between second-generation antipsychotics and VTE is primarily supported by a cohort studyCitation4 of nursing home residents aged 65 years or older where a risk of VTE was observed in new users of second-generation antipsychotics, compared to nonusers. However, in that study no increased risk of VTE in users of first-generation antipsychotics was found. Ray and colleaguesCitation12 did not find an association with VTE in a cohort of patients 65 years of age or older treated with any antipsychotic drug, except for patients receiving haloperidol, compared to users of thyroid hormones. Available data on the association between antipsychotic drug use and VTE thus remains conflicting. We undertook this population-based study to investigate the hypothesized increased risk of VTE in current, recent and former users of first-generation (low-potency and high-potency) and second-generation antipsychotic drugs.
Methods
This population-based case-control study was conducted within the counties of Aarhus and North Jutland, Denmark, from January 1, 1997 to December 31, 2005. The two counties have a combined population of 1.1 million, representing approximately 20% of the Danish population. In Denmark use of civil registration numbers (permanent unique identifiers provided at birth to each Danish citizen) allows unambiguous linkage between all demographic and healthcare registries.Citation13
Hospital registries contain records of discharges from all nonpsychiatric hospitals since 1977Citation13 and since 1995 for all outpatient visits. Their files include civil registration number, dates of hospital admission and discharge, and up to 20 discharge diagnoses and procedures, coded according to the international classification of diseases, 8th revision (ICD-8) until the end of 1993 and 10th revision (ICD-10) thereafter. The Danish National Health Service provides tax-supported health care for all residents of Denmark, including partial reimbursement of the cost of prescribed medications.Citation13 The pharmacies serving Aarhus and North Jutland counties employ electronic accounting systems, used primarily to secure reimbursement from the National Health Service. For each filled prescription of reimbursed drugs, data on the customer’s civil registration number, type and amount of drug prescribed according to the Anatomical Therapeutic Chemical (ATC) classification system, and date of dispensing are transferred from the pharmacies to prescription databases established in 1989 in North Jutland County and in 1996 in Aarhus County.
We used the hospital registries to identify all patients with a first-time diagnosis of VTE, ie, deep vein thrombosis in a lower limb (ICD-8 code: 451.00 and ICD-10 codes: I80.1, 180.2, 180.3) and/or pulmonary embolism (ICD-8 code: 450.99 and ICD-10 code: 126). To control for the increased risk of VTE observed in immobilized patients,Citation14 we excluded patients with VTE as a secondary admission diagnosis. In a second analysis only patients with a primary idiopathic VTE were included and patients with a secondary VTE,Citation15 ie, with well-established predisposing conditions defined as surgery, major trauma, fractures, pregnancy within the prior three months, pre-existing cancer, or a cancer diagnosis within the three months following VTE diagnosisCitation14 were excluded.
Using the Civil Registration System, which has recorded data on vital status, address, and emigration status for the Danish population since April 1, 1968,Citation13 we identified 10 population controls for each VTE case, matched on age, sex and county. The controls were selected using risk set sampling and assigned an index date identical to the VTE admission date for the matched case.
For both cases and controls, we extracted data from the hospital registries on myocardial infarction, stroke, chronic obstructive pulmonary disease (COPD), peripheral atherosclerosis in the legs, heart failure and diabetes mellitus from the hospital registries, since all these diseases might increase the risk of VTE.Citation16–Citation18 We included only diagnoses recorded before the hospital admission date for VTE or the index date for controls.
From the population-based prescription databases of North Jutland and Aarhus Counties, we obtained data on all prescriptions for antipsychotic drugs filled within 365 days before the VTE-related hospital admission date for cases or the index date for controls. The drugs were classified as first-generation low-potency antipsychotics (chlorpromazine, chlorprotixene, melperone, pipamperone, promazine and thioridazine), first-generation high-potency antipsychotics (fluphenazine, flupenthixol, haloperidol, penfluridol, periciazine, perphenazine, pimozide, and zuclopenthixol) and second-generation antipsychotics (amisulpride, clozapine, olanzapine, quetiapine, risperidone, sertindole, sulpiride, and ziprasidone).
Current users of antipsychotic drugs were defined as having filled at least one prescription for any antipsychotic drugs within 90 days before their hospital admission date for VTE or index date for controls. Recent users were defined as having no recorded prescription within 90 days of admission/index date and redemption of at least one prescription within 91–180 days before this date. Former users had no recorded prescription within 180 days of their admission/index date and had filled at least one prescription within 181–365 days prior to this date. Nonusers had no recorded prescription for any antipsychotic drugs within 365 days of their admission/index date.
The prescription databases provided information on current use of statins, low dose acetylsalicylic acid, postmenopausal hormone replacement therapy and vitamin K antagonists, which might affect the risk of VTE.Citation14,Citation19,Citation20 As well, we retrieved data regarding “ever used” of oral hypoglycemic agents and insulin, as markers of diabetes mellitus.
Using conditional logistic regression analysis, we computed relative risk estimates (odds ratios) with 95% confidence intervals, adjusting for discharge diagnoses of myocardial infarction, stroke, COPD, peripheral atherosclerosis in the legs, heart failure, diabetes and current use of statins, low dose acetylsalicylic acid, postmenopausal hormone replacement therapy and vitamin K antagonists. We also performed analyses stratifying cases and controls by sex since there is a known increased risk of VTE in users of oral contraceptives.Citation14 We could not capture history of oral contraceptive use, since their purchase is not reimbursed by Denmark’s national health care system and hence not registered in the prescription databases. Since risk set sampling controls were used, the odds ratios are unbiased estimates of the corresponding rate ratios. P-values < 0.05 were considered statistically significant.
Results
During the study period we matched 5,999 patients with VTE with 59,990 population controls. Among cases, venous thrombosis was diagnosed in 64% (n = 3,823) and pulmonary embolism in the remaining 36% (n = 2,176). Characteristics of cases and controls are presented in . Compared with controls, cases had, as expected, a higher prevalence of previous hospitalization for surgery, trauma or fracture, pregnancy and cancer. Persons with this medical history were excluded in a second analysis restricted to 3,471 cases of primary, idiopathic, VTE and 34,608 population controls. In this analysis 67% (n = 2,310) of cases had a diagnosis of venous thrombosis and 33% (n = 1,161) of cases had a diagnosis of pulmonary embolism.
Table 1 Characteristics of cases with venous thromboembolism (VTE) and population controls
As shown in , current users of any antipsychotic drug had an increased risk of VTE compared with nonusers (adjusted relative risk [ARR]: 1.99, 95% confidence interval [CI]: 1.69–2.34). An increased risk of VTE compared with nonusers was also observed among subgroups of antipsychotic drug users: current users of low-potency first-generation antipsychotics (ARR: 2.11, 95% CI: 1.51–2.95), current users of high-potency first-generation antipsychotics (ARR: 1.82, 95% CI: 1.46–2.27); and current users of second-generation antipsychotics (ARR: 2.47; 95% CI: 1.87–3.28). An increased risk, although not significant, compared to nonusers was observed for former users of any antipsychotic drugs (ARR: 1.54; 95% CI: 0.99–2.40, p-value: 0.056) and for the following subgroups: former users of second-generation antipsychotics (ARR: 1.36; 95% CI: 0.48–3.88) and former users of high-potency first-generation antipsychotics (ARR: 1.73; 95% CI: 1.06–2.85). Similar relative risks were observed in a supplemental analysis that excluded cases and controls with major risk factors for VTE ().
Table 2 Crude and adjusted relative risk estimates (odds ratios) for venous thromboembolism by antipsychotic drug use compared with nonuse
Former users of first-generation antipsychotic drugs might be current users of second-generation antipsychotic drugs, thus explaining the increased risk of VTE in these patients. Therefore, we controlled for current use of a second-generation drug in separate post hoc analyses of VTE risk in users of first-generation drugs. These analyses yielded relative risks similar to those obtained in the previous analyses for former users of low-potency first-generation antipsychotics (ARR: 0.92, 95% CI: 0.36–2.34) and for former users of high-potency first-generation antipsychotic drugs (ARR: 1.54, 95% CI: 0.94–2.54). After stratifying by sex, similar risk estimates of VTE were found in female and male current users of any antipsychotic drug (ARR: 2.09, 95% CI: 1.71–2.55 and 1.82, 95% CI 1.37–2.42, respectively) while the risk estimates for former users of antipsychotics were elevated in females (ARR: 1.85, 95% CI: 1.11–3.09), but not in males (ARR: 0.98, 95% CI: 0.40–2.39). Similar relative risks were observed in a supplemental analysis that excluded cases and controls with major risk factors for VTE.
Discussion
In this large population-based nested case-control study, we observed a 2-fold increased risk of VTE in patients currently prescribed antipsychotics, compared with nonusers. Although inconclusive, some previous studies suggest an association between use of antipsychotics and VTE.Citation3–Citation12 However, there is an inconsistency between the studies whether the increases risk is associated with first-generation antipsychotics, second-generation antipsychotics or both. The hypothesized association between first-generation antipsychotic drugs and VTE is based primarily on one case-control studyCitation3 where the risk of VTE in patients using second-generation drugs could not be evaluated. The suggested association between second-generation antipsychotics and VTE is primarily supported by a cohort studyCitation4 where no increased risk of VTE in users of first-generation antipsychotics was observed. Moreover, no association with VTE was found in a cohort of patients treated with any antipsychotic drug, except for patients receiving haloperidol, compared to users of thyroid hormones.Citation12 In this study we found an increased risk of VTE in current users of low-potency first-generation, high-potency first-generation and second-generation antipsychotic drug compared to nonusers.
We also found a 1.5-fold increased risk of VTE in former users of any antipsychotic drug compared to never users. Previously, the risk for VTE among former users of antipsychotic drugs has only been investigated in three studies. In two of these studiesCitation3,Citation5 the risk of VTE in current users of antipsychotic drugs was compared with that of former users. In one studyCitation6 estimating the risk of VTE in formers users of antipsychotic drugs compared to nonusers, where a 5-fold increased, although not significant (95% CI, 0.6–46), risk for VTE was found.
In our study, when study subjects were stratified by sex, the increased risk of VTE remained only in female former users of any antipsychotic drugs. Since there is no known increased risk of VTE in females per seCitation14 this finding might be explained by use of drugs containing female hormones, a well known risk factor for VTE.Citation14 About 4% of the females in the study population was estimated to use oral contraceptives based on a reported use of oral contraceptives in 33% of Danish women aged 15–44 years.Citation21 In our study, use of hormone replacement therapy was controlled for, but we could not control for the use of oral contraceptives since their costs are not reimbursed by the national health care system and information on filled prescriptions is not recorded in the prescription databases.Citation13
The main strengths of this study include its population-based design and access to prospectively recorded data on outcomes, possible confounding factors and drug exposure. A number of potential weaknesses deserve discussion. Medical records vary in quality and discharge diagnoses may not be entirely correct. While approximately 20% of patients listed in hospital discharge registries with VTE may not fulfill the criteria for the disease,Citation22 these discrepancies probably do not differ by drug exposure.
Although we adjusted for a wide range of possible confounding factors, our results may still be confounded by uncontrolled factors like smoking, diet, obesity and schizophrenic behavior. The higher smoking rate among psychiatric patients, compared with the general population, and the greater number of cigarettes consumed by these patients are potential confounders,Citation2,Citation23 since smoking and chronic obstructive pulmonary disease, a smoking-related disease, are thought to increase the risk of VTE.Citation16,Citation24 While we were not able to control for smoking, we did control for COPD. Moreover, we controlled for the use of some drugs that might affect the risk of VTE, it was not possible to control for drugs that are sold over the counter or drugs that are not reimbursed by the national health care system.
Other limitations include lack of data on compliance and duration of actual use of the prescribed drugs. The categorization of current, recent and former use thus may not reflect actual use. This might explain the increased risk for VTE found among recent users of second-generation antipsychotic drugs compared to nonusers. Study findings may also be influenced by the fact that antipsychotic drugs are used to treat a wide range of disorders, including psychoses, anxiety and mood disorders, behavioral disorders and dementia.Citation25 Among all users of antipsychotic drugs, 48% were above 71 years of age. This suggests that the drugs are used for indications other than schizophrenia, at least in the elderly group. Unfortunately, we were not able to include information about the indication for practical reasons.
Several factors related to treatment or the underlying disease have been proposed as mechanisms for the increased risk of VTE among patients taking antipsychotic drugs.Citation26 First, all situations involving immobilization increase VTE risk.Citation14 Psychotic patients may be immobilized due to sedation, a common adverse effect of many antipsychotic drugs, especially first-generation low-potency antipsychoticsCitation27 and clozapine.Citation28 Patients diagnosed with severe psychotic conditions may also require immobilization through sedation or mechanical restraint. Second, obesity, a risk factor found in schizophrenic patients with or without treatment with antipsychotic drugs, is associated with an increased risk of VTE.Citation29 Clinically significant weight gain is more common among patients with schizophrenia than in the general population and treatment with antipsychotic drugs may also induce weight gain.Citation30 The increased risk of VTE thus might be explained by immobilization and obesity, induced by use of antipsychotic drugs. However, smoking and nondrug-related obesity could still explain the associations.
As well, antipsychotic drug treatment has been associated with enhanced platelet aggregation,Citation26 and elevated levels of prolactin correlated with platelet activation have been observed.Citation31 Clozapine has been associated with platelet adhesion and aggregation in vitro.Citation32 Raised levels of antiphospholipid antibodies, including lupus anticoagulantia and anticardiolipin antibodies, have been observed in patients treated with antipsychotic drugsCitation26 and have been associated with increased VTE risk.Citation14 Moderate homocysteinameia (15–100 μM), associated with a 2–3-fold increased risk of VTE,Citation14,Citation33 has been observed in patients with schizophrenia.Citation34 The mechanism by which high homocysteine levels increase the risk of VTE is unknown.Citation14
In conclusion, our study found that users of antipsychotic drugs have an increased risk of VTE, compared with nonusers. The observed increased risk might be due to the treatment itself, to lifestyle factors, to the underlying disease or to residual confounding.
Acknowledgements
The study received f inancial support from the Western Danish Research Forum for Health Sciences (Vestdansk Forskningsforum), the Swedish Research Council and the County Council of Östergötland. These sponsors had no role in the design or conduct of the study, in the collection, analysis, or interpretation of the data, or in the preparation of the manuscript.
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Appendix:
ICD and ATC codes
Venous thromboembolism: ICD-8 451.00, 450.99 ICD-10 I801–03, I26
Cancer: ICD-8 140–209, ICD-10 C00–C99
Pregnancy or delivery: ICD-8 630–680, ICD-10 O00–O99
Fractures or trauma: ICD-8 800–999, ICD-10 S00–T14
Stroke: ICD-8 431–435, ICD-10 I61, I63, I64, I65, I66
Chronic obstructive disease: ICD-8 491–492, ICD-10 J42–J44
Myocardial infarction: ICD-8 410, ICD-10 I21
Atherosclerosis extremitas inferioris: ICD-8 44020, ICD-10 I702
Heart failure: ICD-8 42709, 42710, 42711, ICD-10 I50
Diabetes: ICD-8 249, 250, ICD-10 E10, E11
Antidiabetics: ATC codes A10A, A10B
Statins: ATC code C10AA
Low dose acetylsalicylic acid: ATC codes B01AC06
Postmenopausal hormone replacement therapy: ATC code G03C
Vitamin K antagonists: ATC codes B01AA03, B01AA04
Low-potency first-generation antipsychotics: ATC codes N05AD03, N05AD05, N05AA01, N05AF03, N05AC02, N05AA03
High-potency first-generation antipsychotics: ATC codes N05AF05, N05AB03, N05AC01, N05AD01, N05AF01, N05AG02, N05AB02, N05AG03
Second-generation antipsychotics: ATC codes N05AH02, N05AL01, N05AX08, N05AE03, N05AH04, N05AL05, N05AE04, N05AH03
Any antipsychotics: ATC codes N05AD03, N05AD05, N05AA01, N05AF03, N05AC02, N05AA03, N05AF05, N05AB03, N05AC01, N05AD01, N05AF01, N05AG02, N05AB02, N05AG03, N05AH02, N05AL01, N05AX08, N05AE03, N05AH04, N05AL05, N05AE04, N05AH03