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Erschienen in: BMC Cardiovascular Disorders 1/2016

Open Access 01.12.2016 | Research article

Long-term vitamin K antagonists treatment patterns of Non-Valvular Atrial Fibrillation (NVAF): a population-based cohort study

verfasst von: Christel Renoux, Janie Coulombe, Samy Suissa

Erschienen in: BMC Cardiovascular Disorders | Ausgabe 1/2016

Abstract

Background

Recent trends in vitamin K antagonists (VKA) use in non-valvular atrial fibrillation (NVAF) are useful to evaluate the potential improvement in management of NVAF since the introduction of new oral anticoagulants. Our objective was therefore to describe the contemporary VKA treatment patterns following NVAF diagnosis.

Methods and Results

We used the computerized databases of the Régie de l’assurance maladie du Québec (RAMQ), responsible for administering the universal health care services for all its residents, to identify a population-based cohort of 135,241 patients with an incident diagnosis of NVAF during 2000–2009 and RAMQ medication coverage.
Following NVAF diagnosis, 47.1 % of the patients were prescribed VKA, 35.5 % received an antiplatelet only, and 17.4 % did not initiate antithrombotic therapy. The proportion of patients initiating VKA within 3 months of diagnosis increased from 33 % to 39 % over the 10-year study period, mainly driven by a higher proportion of treated patients aged 80 or more (from 29 % to 41 %). At the end of the study period, women were prescribed VKA as frequently as men, except in the subgroup of patients with a low risk of ischemic stroke. The median time from VKA initiation to the first discontinuation varied greatly according to the definition of discontinuation, ranging from 11 months to 5.7 years.

Conclusion

Although VKA remain underused after NVAF diagnosis, there has been an increase in VKA treatment over the last decade, particularly among older patients. Also the gap in treatment between men and women has been closing within the last decade. Once initiated, most VKA interruptions were temporary rather than definitive.
Hinweise

Competing interests

CR and JC have no conflicts of interest to declare. SS has received research grants and participated in advisory board meetings and/or as a speaker at conferences for Bayer, Boehringer-Ingelheim and Bristol- Myers-Squibb.

Authors’ contributions

All authors contributed to the study design, JC performed the statistical analysis, CR drafted the manuscript. All authors participated in the analysis and interpretation of data, revised the manuscript critically for important intellectual content and approved the final manuscript to be published.
Abkürzungen
NVAF
non-valvular atrial fibrillation
RAMQ
Régie de l'assurance maladie du Québec
VKA
vitamin K antagonists

Background

Anticoagulants are prescribed to prevent ischemic stroke in patients with non-valvular atrial fibrillation (NVAF) [1]. These include vitamin K antagonists (VKA) such as warfarin that have several side-effects including bleeding, drug-drug interactions, and a narrow therapeutic window that necessitates monitoring to keep patients within the recommended INR range. Therefore, despite proven effectiveness of anticoagulation in the prevention of thromboembolic events, many patients with NVAF remain untreated. A recent systematic review showed that VKA are also underused in the subgroup of patients with a high risk of ischemic stroke [2].
The recent introduction of new oral anticoagulants in the market may improve the overall management of patients diagnosed with NVAF. Indeed, based on results of randomised controlled trials, these new molecules are as effective as VKA in preventing ischemic stroke while producing less intracerebral haemorrhage and being more convenient to use [3]. In order to evaluate their impact both in terms of the proportion of patients initiating anticoagulation after NVAF diagnosis and long-term compliance to treatment, updated estimates of anticoagulation patterns with VKA are necessary for meaningful comparison. However, few studies have assessed long-term anticoagulation management with VKA and have examined recent trends of VKA use over time.
The objectives of this study were therefore to describe the VKA treatment patterns following NVAF diagnosis in a population-based cohort with long-term follow-up, identified using the Canadian Province of Québec’s health insurance databases.

Methods

Source of data

This study was conducted using the computerized databases of the Régie de l'assurance maladie du Québec (RAMQ), the Maintenance et exploitation des données pour l’étude de la clientèle hospitalière (MED-ÉCHO), and the Institut de la statistique du Québec (ISQ). Health care coverage is mandatory for all Québec residents except visitors, non-Canadian students, and individuals residing outside of Québec for more than 183 days in the year who are not eligible for coverage. The RAMQ, which is responsible for administering these universal health care services, maintains three computerised databases. The demographic database contains the age, sex and postal code of all individuals registered. The medical services database contains information on the medical services, including nature of the service rendered, specialty of treating and referring physician, date and location, as well as the diagnostic code of the service (International Classification of Diseases, 9th Revision, Clinical Modification (ICD-9-CM) or enhanced version of ICD-10 for Canada ICD-10-CA). This program is universal for all Québec residents and is fee-for-service. The prescription database contains information on out-patient prescription medications including name, dose and amount of drug dispensed, date, prescribed number of days of treatment, and whether it was a refill or a new prescription. This fee-for-service program (the pharmacy claims reimbursement for the drugs dispensed) covers all individuals 65 years of age and older, welfare recipients, and since 1996, extends to all Québec residents who do not have private medication insurance or who choose to be covered by the RAMQ program. MED-ÉCHO maintains the hospital inpatient database which contains data pertaining to all Québec hospitalisations (including day surgery and inpatient stays), such as date and type of admission and discharge, type of establishment, one primary and secondary diagnoses, as well as procedure codes (with corresponding dates). Prior to 2006, diagnoses were classified according to the ICD-9-CM and procedures were coded according to the Canadian Classification of Diagnostic, Therapeutic, and Surgical Procedures (CCDTC). Since 2006, diagnoses and procedures are coded according to ICD-10-CA and the Canadian Classification of Health Interventions (CCI), respectively. Finally, the cause of death database, administered by ISQ, contains the date and cause of death, as well as the establishment where the death took place. Each of these databases contains the individual's numéro d'assurance-maladie (health insurance number), a unique number acquired at birth or at the time of residency, used for record linkage within the RAMQ databases and with MED-ECHO. The general accuracy of linkage between the prescription and the medical services databases was found to be 98.2 %, unfeasible linkages arising primarily from name changes, and the quality of the data has been documented [4, 5].

Cohort definition

From the source population of all individuals in the RAMQ database, we first identified all patients, at least 18 years of age, with an inpatient or outpatient diagnosis for atrial fibrillation (ICD-9: 427.3, 427.31, 427.32; ICD-10: I48, I48.0, I48.1) between January 1, 2000 and December 31, 2009. Cohort entry (time zero) for all patients was defined at the date of the first diagnosis of NVAF. If the diagnosis occurred during a hospitalisation, cohort entry was set as the date of hospital discharge. To confirm the incident nature of the NVAF diagnosis, all subjects with any mention of AF in the two years prior to cohort entry diagnosis were excluded. Patients with a history of valvular aortic or mitral heart disease, previous valvular repair, or hyperthyroidism (either a treatment or a diagnosis) in the two years prior to cohort entry were also excluded. All cohort members were required to have RAMQ medication coverage for at least two years prior to cohort entry in order to provide sufficient baseline information on comorbidities and prior medication use. In addition, we excluded all patients with a prescription for VKA in the year prior to cohort entry. All cohort members were followed until RAMQ deregistration, death or end of the study period (December 31, 2009), whichever occurred first. The occurrence of death was determined from RAMQ and ISQ. MED-ÉCHO was used to identify in-hospital deaths.

Exposure definition

To assess treatment patterns, all outpatient prescriptions for oral anticoagulants and antiplatelet agents (such as aspirin and clopidogrel) dispensed during follow-up were identified. All oral anticoagulants prescriptions were vitamin K antagonists (VKA) and will therefore be referred to as VKA. For each prescription, the date of dispensing together with product name, formulation, dose and duration was obtained. The duration of exposure to each drug was computed by assessing the continuity of successive prescriptions, considered as continuous use if the end of a prescription was followed by the start of the next prescription of the drug. To account for delays in refilling and reduced patient compliance, a 100 % grace period was added to the end of each prescription (100 % of the duration of that prescription) in assessing continuity of use. Thus, the duration of continuous use was the time between the date of the start of the first prescription after the diagnosis of NVAF and the last dispensing for which gaps between two repeated prescriptions were less than 100 % of the first of the two. A 100 % grace period was chosen as the median duration of individual prescriptions was only 10 days for VKA. Sensitivity analyses with the grace period set to 30 and 60 days were also carried out in order to assess the impact of different grace periods on the estimated duration of use until first discontinuation. Since RAMQ does not collect data on inpatient prescriptions, this study only provides data on outpatient medication use patterns.

Data analysis

The study cohort was characterised by age, sex, comorbidities, Charlson comorbidity index, CHADS2 and CHA2DS2-VASc risk scores [6, 7] at the time of cohort entry using descriptive statistics. Comorbidities were measured during the 2 years prior to cohort entry. Kaplan-Meier technique was used to estimate the median time from NVAF diagnosis to VKA initiation and the median duration of initial use until first treatment interruption, modified for competing risks to account for deaths occurring during follow-up [8], and censored at the date of major bleeding [8]. Cox proportional hazards models were used to estimate the hazard ratio (HR) of treatment delay and treatment duration as a function of baseline patient characteristics, including age, sex, and baseline comorbidities. CHADS2 and CHA2DS2-VASc risk scores were not included in multivariate models in order to assess the independent effect of risk factors composing these scores. Follow-up was censored at the date of death, major bleeding, or the end of the study period (or at 3 months when assessing treatment delay). To assess trends of VKA initiation following NVAF over the 10-year study period, a logistic regression model was used with adjustment for age and CHADS2 score.
Confidence intervals were calculated using a significance level of 5 %. All statistical procedures were performed using SAS version 9.2 (SAS Institute Inc., Cary, North Carolina).

Results

The source population included 309,556 subjects with at least one atrial fibrillation diagnosis code during the period 2000-2009. From these, we identified 135,241 patients with a first NVAF diagnosis, satisfying cohort inclusions and exclusions, and having drug insurance coverage for a minimum of two years at the time of cohort entry (Fig. 1). Table 1 describes the baseline characteristics of this incident NVAF cohort. NVAF was a hospital diagnosis in 47.8 % of the patients and the mean follow-up was 3.3 years. The mean age at NVAF diagnosis was 75.1 years, 74.8 % of the patients were 70 years or older at diagnosis, and 47.9 % were males. Women were older at NVAF diagnosis, and had a higher CHADS2 score at baseline. However, the prevalence of most comorbidities such as myocardial infarction, diabetes, hyperlipidemia, and chronic renal failure was higher in males compared to women. Patient initiating an antithrombotic treatment within 3 months following NVAF diagnosis were older and had more cardio- and cerebrovascular comorbidities than patients who were not prescribed VKA or antiplatelets.
Table 1
Baseline characteristics of the incident NVAF cohort
 
Total
Men
Women
No initiation (within 3 months)
VKA* initiation
Antiplatelets* (only) initiation
 
N (%)
N (%)
N (%)
N (%)
N (%)
N (%)
Cohort size
135,241
64,786 (47.90)
70,455 (52.10)
34,659 (25.63)
51,794 (38.30)
48,788 (36.07)
Age, mean (SD)
75.09 (11.41)
73.29 (11.30)
76.73 (11.26)
72.54 (14.65)
75.95 (8.85)
75.98 (10.92)
18-49
4,526 (3.35)
2,643 (4.08)
1,883 (2.67)
2,918 (8.42)
525 (1.01)
1,083 (2.22)
50-59
6,770 (5.01)
3,948 (6.09)
2,822 (4.01)
2,558 (7.38)
1,697 (3.28)
2,515 (5.15)
60-69
22,730 (16.81)
12,736 (19.66)
9,994 (14.18)
6,027 (17.39)
8,408 (16.23)
8,295 (17.00)
70-79
51,018 (37.72)
26,376 (40.71)
24,642 (34.98)
10,977 (31.67)
22,533 (43.51)
17,508 (35.89)
80-89
40,769 (30.15)
16,403 (25.32)
24,366 (34.58)
9,369 (27.03)
16,503 (31.86)
14,897 (30.53)
≥90
9,428 (6.97)
2,680 (4.14)
6,748 (9.58)
2,810 (8.11)
2,128 (4.11)
4,490 (9.20)
Comorbidities
Hypertension
83,393 (61.66)
36,683 (56.62)
46,710 (66.30)
17,682 (51.02)
33,651 (64.97)
32,060 (65.71)
Myocardial infarction
27,909 (20.64)
16,186 (24.98)
11,723 (16.64)
3,475 (10.03)
10,081 (19.46)
14,353 (29.42)
Congestive heart failure
27,673 (20.46)
14,025 (21.65)
13,648 (19.37)
5,035 (14.53)
11,325 (21.87)
11,313 (23.19)
Prior stroke or TIA
11,654 (8.62)
5,644 (8.71)
6,010 (8.53)
1,726 (4.98)
5,088 (9.82)
4,840 (9.92)
Prior hemorrhage
21,080 (15.59)
11,160 (17.23)
9,920 (14.08)
6,452 (18.62)
6,437 (12.39)
8,191 (16.79)
Diabetes
34,337 (25.39)
17,893 (27.62)
16,444 (23.34)
6,318 (18.23)
13,688 (26.43)
14,331 (29.37)
Hyperlipidemia
57,433 (42.47)
30,360 (46.86)
27,073 (38.43)
8,165 (23.56)
23,688 (45.74)
25,580 (52.43)
Peripheral vascular disease
16,397 (12.12)
9,857 (15.21)
6,540 (9.28)
2,667 (7.69)
5,900 (11.39)
7,830 (16.05)
Chronic renal failure
14,467 (10.70)
8,228 (12.70)
6,239 (8.86)
3,124 (9.01)
4,960 (9.58)
6,383 (13.08)
Cancer
26,479 (19.58)
15,363 (23.71)
11,116 (15.78)
8,308 (23.97)
8,538 (16.48)
9,633 (19.74)
Charlson index, median (IQR)
1 (0-3)
1 (0-3)
1 (0-2)
1 (0-3)
1 (0-2)
1 (0-3)
0
50,090 (37.04)
21,300 (32.88)
28,790 (40.86)
14,295 (41.24)
20,308 (39.21)
15,487 (31.74)
1-2
49,213 (36.39)
23,036 (35.56)
26,177 (37.15)
11,517 (33.23)
19,606 (37.85)
18,090 (37.08)
≥3
35,938 (26.57)
20,450 (31.57)
15,488 (21.98)
8,847 (25.53)
11,880 (22.94)
15,211 (31.18)
CHADS2, median (IQR)
2 (1-3)
2 (1-2)
2 (1-3)
1 (1-2)
2 (1-3)
2 (1-3)
0
19,052 (14.09)
10,719 (16.55)
8,333 (11.83)
8,280 (23.89)
5,466 (10.55)
5,306 (10.88)
1
37,744 (27.91)
19,085 (29.46)
18,659 (26.48)
10,741 (30.99)
14,355 (27.72)
12,648 (25.92)
≥2
78,445 (58.00)
34,982 (54.00)
43,463 (61.69)
15,638 (45.12)
31,973 (61.73)
30,834 (63.20)
CHA2DS2-VASc, median (IQR)
3 (2-5)
3 (2-4)
4 (3-5)
3 (2-4)
4 (3-5)
4 (3-5)
0
4,209 (3.11)
4,209 (6.50)
0 (0.0)
2,212 (6.38)
875 (1.69)
1,122 (2.30)
1
11,530 (8.53)
7,962 (12.29)
3,568 (5.06)
4,973 (14.35)
3,380 (6.53)
3,177 (6.51)
≥2
119,502 (88.36)
52,615 (81.21)
66,887 (94.94)
27,474 (79.27)
47,539 (91.78)
44,489 (91.19)
HAS-BLED, median (IQR)
2 (1-3)
2 (1-3)
2 (1-3)
1 (1-2)
2 (1-3)
2 (2-3)
≤2
96,763 (71.55)
45,097 (69.61)
51,666 (73.33)
29,400 (84.83)
37,215 (71.85)
30,148 (61.79)
≥3
38,478 (28.45)
19,689 (30.39)
18,789 (26.67)
5,259 (15.17)
14,579 (28.15)
18,640 (38.21)
Medications
Antihypertensive drugs**
99,313 (73.43)
45,477 (70.20)
53.836 (76.41)
19,384 (55.93)
40,750 (78.68)
39,179 (80.30)
NSAIDs
49,164 (36.35)
21,617 (33.37)
27,547 (39.10)
12,496 (36.05)
19,003 (36.69)
17,665 (36.21)
Statins
52,132 (38.55)
27,934 (43.12)
24,198 (34.35)
6,873 (19.83)
21,703 (41.90)
23,556 (48.28)
*Initiation within 3 months following NVAF diagnosis
**Refers to angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, calcium channel blockers and diuretics
Abbreviations: TIA transient ischemic attack, NSAIDs non-steroidal anti-inflammatory drugs
Following NVAF diagnosis, 47.1 % of the patients were prescribed VKA (5.9 % in combination with an antiplatelet and 15.3 % switching from antiplatelet to VKA or adding VKA), 35.5 % received an antiplatelet only, and 17.4 % did not initiate an antithrombotic therapy. The proportion of patients prescribed VKA increased with CHADS2 score. It was 37.8 % for a score of 0, 47.7 % for score of 1, and 49.1 % for patients with a CHADS2 score ≥ 2. Most patients initiating VKA did so in the 15 days following NVAF diagnosis, regardless of age, sex, and CHADS2 score. The proportion of patients initiating VKA within 3 months of diagnosis increased from 33.5 % to 39 % over the 10-year study period independently of age and CHADS2 score (p < 0.0001). This increased use of VKA was mainly driven by a higher proportion of treated patients aged 80 or more (from 29 % to 41 %) (Fig. 2). At the end of the study period, women were prescribed VKA as frequently as men shortly after NVAF diagnosis, except in the subgroup of patients with a low risk of ischemic stroke (Figs. 3 and 4). The hazard ratios of initiating VKA within 3 months of NVAF diagnosis according to baseline characteristics are presented in Table 2. Older patients as well as those with a previous ischemic stroke, congestive heart failure, or cardiovascular medication use were more likely to initiate VKA in the first 3 months after diagnosis. Men were also slightly more likely to initiate VKA shortly after NVAF diagnosis than women. However, when restricting the analysis to patients 75 years or older, there was no difference between men and women (HR 1.01, 95 % CI 0.99-1.04). As expected, patients with a prior bleeding event, dementia, liver disease, or chronic renal failure were less likely to initiate VKA.
Table 2
Hazard ratios of characteristics associated with VKA initiation within 3 months following NVAF diagnosis
 
%
Crude HR
Adjusted HR (95 % CI)
Size, n
135,241
  
Age
18-29
0.45
0.22
0.23 (0.15 - 0.36)
30-39
0.83
0.45
0.45 (0.36 - 0.58)
40-49
2.06
1.00
1.00 (Reference)
50-59
5.01
1.73
1.68 (1.51 - 1.87)
60-69
16.81
2.73
2.55 (2.31 - 2.82)
70-74
17.43
3.29
3.05 (2.77 - 3.36)
75-79
20.29
3.51
3.28 (2.97 - 3.61)
80-84
18.06
3.31
3.12 (2.83 - 3.44)
85-89
12.09
2.76
2.66 (2.41 - 2.94)
≥90
6.97
1.60
1.57 (1.41 - 1.74)
Male
47.90
1.02
1.09 (1.07 - 1.11)
Comorbidities
Hypertension
61.66
1.21
1.03 (1.01 - 1.05)
Myocardial infarction
20.64
0.94
0.89 (0.87 - 0.92)
Angina pectoris
20.02
0.94
0.88 (0.86 - 0.90)
Congestive heart failure
20.46
1.15
1.20 (1.18 - 1.23)
Prior stroke or TIA
8.62
1.22
1.25 (1.21 - 1.28)
Prior bleeding events
Intracranial bleeding
1.00
0.56
0.55 (0.49 - 0.61)
Gastrointestinal bleeding
5.75
0.65
0.67 (0.64 - 0.70)
Other bleeding
8.84
0.85
0.85 (0.83 - 0.88)
Diabetes
25.39
1.08
0.97 (0.95 - 0.99)
Hyperlipidemia
42.47
1.18
1.00 (0.95 - 1.05)
Vascular disease
12.12
0.94
0.87 (0.84 - 0.89)
Chronic renal failure
10.70
0.89
0.87 (0.84 - 0.90)
Complications of alcohol abuse
3.61
0.61
0.78 (0.73 - 0.83)
Liver disease
2.53
0.67
0.80 (0.75 - 0.85)
Cancer
19.58
0.79
0.76 (0.75 - 0.78)
Coagulation defects
1.81
0.75
0.88 (0.82 - 0.95)
Predisposition to falls
15.44
0.75
0.80 (0.78 - 0.83)
Dementia/schizophrenia
8.81
0.55
0.65 (0.63 - 0.68)
Venous thromboembolism
5.47
1.37
1.48 (1.43 - 1.53)
COPD
26.65
0.94
0.93 (0.91 - 0.95)
Medications
ACE
35.62
1.21
1.12 (1.10 - 1.15)
ARB
21.28
1.25
1.12 (1.09 - 1.14)
CCB
41.51
1.27
1.19 (1.16 - 1.21)
Diuretics
50.08
1.25
1.09 (1.07 - 1.12)
Antidepressants
19.44
0.84
0.91 (0.89 - 0.94)
Antipsychotics
5.81
0.61
0.83 (0.79 - 0.87)
NSAIDs
36.35
1.01
1.00 (0.98 - 1.02)
Statins
38.55
1.19
1.05 (1.00 - 1.10)
Abbreviations: HR hazard ratio, TIA transient ischemic attack, COPD chronic obstructive pulmonary disease, ACE angiotensin-converting enzyme inhibitors, ARB angiotensin receptor blockers, NSAIDs non-steroidal anti-inflammatory drugs
The estimated median time from VKA treatment initiation to the first discontinuation was 11.1 months (95 % CI 10.9- 11.4) for VKA (Fig. 5). However, 79 % of the patients who discontinued VKA had a new prescription after a median time of 35 days. In sensitivity analyses, changing the grace period to 30 and 60 days led to substantial variation in duration of VKA use until first discontinuation, with estimated medians of 1.4 and 5.7 years, respectively (Fig. 5). With a grace period of 60 days, still 61 % of the patients resumed VKA treatment after a median time of 87 days.
The median duration of VKA use until first discontinuation varied only slightly with CHADS2 score (data not shown). In multivariate analysis, older patients and those with a prior ischemic stroke or transient ischemic attack were less likely to discontinue VKA (Table 3). Restricting the analysis to patients 75 years or older, age and sex were not determinants of the first VKA discontinuation.
Table 3
Hazard ratios of determinants associated with VKA discontinuation in NVAF
Factors
%
Crude HR
Adjusted HR (95 % CI)
Size, n
63,675
  
Age
18-29
0.07
1.60
1.65 (1.19 - 2.29)
30-39
0.19
1.47
1.48 (1.19 - 1.84)
40-49
0.89
1.00
1.00 (Reference)
50-59
3.59
0.88
0.88 (0.79 - 0.98)
60-69
16.79
0.83
0.83 (0.76 - 0.92)
70-74
19.82
0.82
0.82 (0.75 - 0.91)
75-79
23.78
0.78
0.79 (0.72 - 0.87)
80-84
19.80
0.74
0.75 (0.68 - 0.83)
85-89
11.10
0.77
0.79 (0.71 - 0.87)
≥90
3.97
0.77
0.80 (0.71 - 0.88)
Time to treatment initiation
0 day
39.51
1.00
1.00 (Reference)
1-7 days
23.73
1.07
1.11 (1.08 - 1.13)
8-30 days
12.11
1.00
1.04 (1.01 - 1.07)
31-90 days
5.99
1.02
1.04 (0.99 - 1.08)
>90 days
18.66
1.14
1.13 (1.10 - 1.17)
Male
48.46
1.08
1.03 (1.01 - 1.05)
Comorbidities
Hypertension
64.50
0.98
0.98 (0.96 - 1.01)
Myocardial infarction
19.73
1.13
1.08 (1.05 - 1.11)
Angina pectoris
19.79
1.10
1.06 (1.04 - 1.09)
Congestive heart failure
21.15
1.06
1.02 (0.99 - 1.05)
Prior stroke or TIA
9.36
0.90
0.90 (0.87 - 0.93)
Prior bleeding events
Intracranial bleeding
0.64
1.05
1.04 (0.92 - 1.18)
Gastrointestinal bleeding
4.44
1.13
1.06 (1.01 - 1.11)
Other bleeding
7.83
1.04
1.01 (0.97 - 1.04)
Diabetes
26.00
1.03
1.01 (0.99 - 1.04)
Hyperlipidemia
44.96
1.03
1.08 (1.03 - 1.13)
Vascular disease
11.52
1.10
1.06 (1.02 - 1.09)
Chronic renal failure
9.40
1.19
1.14 (1.10 - 1.18)
Complications of alcohol abuse
2.38
1.19
1.10 (1.03 - 1.17)
Liver disease
1.85
1.20
1.09 (1.02 - 1.17)
Cancer
16.72
1.14
1.13 (1.10 - 1.16)
Coagulation defects
1.42
1.16
1.08 (0.99 - 1.17)
Predisposition to falls
12.46
1.03
1.01 (0.98 - 1.04)
Dementia/schizophrenia
4.97
1.04
1.04 (0.99 - 1.09)
Venous thromboembolism
6.36
1.20
1.16 (1.12 - 1.21)
COPD
25.52
1.07
1.03 (1.01 - 1.06)
Medications
ACE
38.49
0.99
0.97 (0.95 - 1.00)
ARB
23.56
0.99
1.00 (0.97 - 1.02)
CCB
45.28
0.99
0.98 (0.96 - 1.01)
Diuretics
53.37
0.99
1.00 (0.98 - 1.02)
Antidepressants
17.18
1.03
1.02 (0.99 - 1.04)
Antipsychotics
3.64
1.07
1.03 (0.97 - 1.08)
NSAIDs
37.56
1.02
1.01 (0.99 - 1.03)
Statins
40.93
1.02
0.92 (0.88 - 0.97)
Abbreviations: HR hazard ratio, TIA transient ischemic attack, COPD chronic obstructive pulmonary disease, ACE angiotensin-converting enzyme inhibitors, ARB angiotensin receptor blockers, NSAIDs non-steroidal anti-inflammatory drugs
A total of 4,621 patients (3.4 % of the patients in the cohort) experienced a major bleeding event in the year following NVAF diagnosis. Among them, 1,705 patients (36.9 %) had received a VKA prescription within one month preceding this bleeding event and 1,427 (30.9 %) an antiplatelet. Among those on VKA, 362 (21.2 %) died within 3 months following the major bleeding, 819 (48.0 %) received at least one VKA prescription, 279 (16.4 %) an antiplatelets prescription, and the remaining 245 (14.4 %) did not restart any antithrombotic treatment.

Discussion

In this large population-based cohort of patients diagnosed with incident NVAF, around 40 % of patients initiated VKA in the year following diagnosis, mostly within 15 days after diagnosis. The proportion of patients initiating VKA shortly after diagnosis, i.e. in the first 3 months increased over the 10-year study period, with up to 39 % of patients diagnosed in 2008 being treated with VKA. This increased prescribing over time was greater for women and older patients. The main determinants of VKA initiation shortly after NVAF diagnosis were age and a history of cerebrovascular event. Overall, there were only minor differences in rates of initiation or discontinuation of VKA between men and women, especially in older patients.
Underuse of oral anticoagulation therapy in patients with atrial fibrillation has been constantly reported in the literature with recent estimations of patients treated with VKA ranging from around 40 to 60 % in large cohorts [917]. Even in patients considered at high risk for ischemic stroke, such as patients with a CHADS2 score of 2 or more, less than 70 % of patients were treated with VKA according to a recent systematic review when most of these high-risk patients should be treated with anticoagulants based on all current guidelines [18]. Our results based on a recent large cohort of patients with incident NVAF are in line with these previous estimates. Indeed, only 49 % of patients with a CHADS2 score of 2 or more were prescribed VKA in our cohort. Moreover, given that around 60 % of patients in our cohort were at high risk of stroke (CHADS2 of 2 or more) and 28 % were at intermediate risk, at least 60 % of our cohort overall would be expected to be treated with oral anticoagulants using a conservative estimate. We were able to examine prescribing trends over time, and we found an increased use of anticoagulants after NVAF diagnosis over the last decade, which was not explained by the aging of the population or a different vascular risk profile in patients diagnosed more recently. This increased proportion of treated patients was mainly driven by an increase use in older patients, those most likely to benefit from oral anticoagulation. A recent British cohort study of 81,381 patients aged 60 years or older also showed a moderate increased prescribing of VKA in patients with AF over the same 10-year study period [16]. Similarly to our finding, the highest increased was seen in patients over 70 years old at diagnosis. It is therefore possible that studies repeatedly showing the benefit of anticoagulation among older patients with NVAF, and increased awareness of physicians through published guidelines have led to improvement in the management of NVAF in this population. However, anticoagulants remained underused and the recent introduction of new oral anticoagulants on the market may further increase the proportion of patients with NVAF prescribed anticoagulation in light of their ease of use.
Sex differences in patterns of VKA use have been reported in several previous studies. Indeed, it has been showed that women, although at higher risk of ischemic stroke in the context of AF, were less likely to be treated with oral anticoagulant following NVAF diagnosis than men [16, 17, 19]. However, in our study, women were only slightly less likely to be prescribed VKA compared to men, in accordance with a recent systematic review and meta-analysis reporting a pooled odds ratio of 1.12 for the association between male sex and warfarin use [20]. More importantly, we found that the proportion of women initiating VKA after NVAF diagnosis increased over the decade, particularly in patients with a moderate to high risk of ischemic stroke so that there was no more sex difference at the end of the study period in these subgroups. A recent Canadian study restricted to patients aged 65 or older and hospitalised with an AF diagnosis in Québec between 1998 and 2007 found very similar warfarin initiation between men and women in a cohort of 83,513 patients [9]. However, the study examined prescriptions issued in the 30 days post discharge only and did not examine trends over time.
Estimation of discontinuation of VKA in large cohorts of patients initiating anticoagulation after NVAF diagnosis varies substantially in the literature. For instance, the estimated median time to the first discontinuation of VKA was 127 days in a large US cohort of 116,969 patients with NVAF. [17] In a British cohort of 41,910 patients with chronic AF, 30 % had discontinued warfarin within one year after treatment initiation [21]. Among 4188 patients newly starting warfarin in the anticoagulation and risk factors in Atrial Fibrillation Study, 26.3 % discontinued warfarin within the first year of therapy [22]. These differences are likely explained by different definitions of VKA interruption. Indeed, we showed that the time to first treatment discontinuation varied greatly according to the grace period definition with an estimated median time of several years when using a grace period of 60 days as opposed to a median time of 11 months when using a 100 % grace period which corresponds to less than 15 days for most patients in our cohort. This variation suggests that VKA discontinuation is often temporary rather than definitive, and that many patients continue oral anticoagulation treatment once initiated. Reasons for temporary interruptions of anticoagulation are numerous and include in particular temporary interruption for minor bleeding or planned procedure or surgery. Moreover, time to VKA treatment discontinuation may be artificially shortened when measured using administrative databases since duration of each prescription is imprecise and VKA treatment is frequently prone to doses adjustments. In the ATRIA study, around 25 % of patients had evidence of restarting warfarin within 2 years after the first discontinuation, and overall the proportion of patients prescribed warfarin remained relatively unchanged after the first year [22]. In our study, using a stricter definition of discontinuation, the percentage of patients resuming VKA was even higher. Nonetheless, a non-negligible number of patients discontinue VKA and even temporary interruptions are of concern as they are associated with an increased risk of thromboembolic event. In this context, new oral anticoagulants may help improve the long-term compliance to anticoagulation therapy.
Our study is based on one of the largest and most recent population-based cohort of patients diagnosed with NVAF, allowing precise and contemporary estimates of VKA treatment patterns in a real-world setting. Moreover, our study follow-up covered the entire last decade so that we were able to examine recent time trends in antithrombotic treatment just preceding the introduction of new oral anticoagulants. Data for each patient, including prescriptions, were collected prospectively, thus avoiding the potential for recall bias inherent in field studies. Moreover, the use of drugs was not simply based on written prescriptions, but rather on dispensed prescriptions actually filled by patients, which reduces significantly misclassification of exposure. All patients in our study had drug coverage from the province of Québec; therefore we likely captured most antithrombotic prescriptions. However, we cannot exclude the possibility that some prescriptions were issued over the counter especially for aspirin or out of the provincial system for VKA, but this number is likely to be small in the context of a chronic disease in patients with full provincial drug coverage. Also, our study describes the out-patients prescriptions patterns as we did not have access to in-patients prescriptions. This may potentially leads to underestimate the time to the first antithrombotic treatment discontinuation if some patients have their treatment renewed while in hospital. However, this is unlikely to change our results as the number and length of hospitalisations were quite small in the year following NVAF diagnosis in our cohort study. Finally, using an administrative database such as RAMQ, the diagnosis of AF was based on ICD codes only and we were not able to validate the NVAF diagnosis with electrocardiogram or other medical data. Also, ICD 9 and 10 codes for AF do not differentiate between paroxysmal and chronic AF. However, using the same cohort, we previously found incidence rates of NVAF very similar to other contemporary cohorts using various diagnostic criteria [23], suggesting that our cohort likely includes mostly true incident cases of NVAF. Similarly, the identification of patients’ comorbidities were based on ICD codes without access to medical records and some clinical data such as smoking and obesity are not available in the RAMQ database.

Conclusions

In conclusion, findings from this large population-base cohort of patients with NVAF indicate that anticoagulation is still underused even though the efficacy of VKA in preventing thromboembolic events has been well established. However, there was an increased proportion of patients initiating VKA over the last decade, particularly for women and older patients. Further research will clarify whether the introduction of new oral anticoagulants improve the overall therapeutic management of patients with NVAF.

Ethics approval

The study protocol was approved by the Research Ethics Committee of the Jewish General Hospital, Montreal, Canada (Number 11-076).
Not applicable.

Availability of data and materials

No additional data available.

Acknowledgements

Dr. Renoux is a recipient of a Chercheur-Boursier Award from the Fonds de la recherche en santé du Québec (FRSQ), and Dr Suissa is the recipient of the James McGill Chair.

Funding

Funding for the study was from an infrastructure grant from the Canadian Foundation for Innovation (CFI) and an unrestricted grant from Bayer Pharma AG.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://​creativecommons.​org/​licenses/​by/​4.​0/​), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://​creativecommons.​org/​publicdomain/​zero/​1.​0/​) applies to the data made available in this article, unless otherwise stated.

Competing interests

CR and JC have no conflicts of interest to declare. SS has received research grants and participated in advisory board meetings and/or as a speaker at conferences for Bayer, Boehringer-Ingelheim and Bristol- Myers-Squibb.

Authors’ contributions

All authors contributed to the study design, JC performed the statistical analysis, CR drafted the manuscript. All authors participated in the analysis and interpretation of data, revised the manuscript critically for important intellectual content and approved the final manuscript to be published.
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Metadaten
Titel
Long-term vitamin K antagonists treatment patterns of Non-Valvular Atrial Fibrillation (NVAF): a population-based cohort study
verfasst von
Christel Renoux
Janie Coulombe
Samy Suissa
Publikationsdatum
01.12.2016
Verlag
BioMed Central
Erschienen in
BMC Cardiovascular Disorders / Ausgabe 1/2016
Elektronische ISSN: 1471-2261
DOI
https://doi.org/10.1186/s12872-016-0269-4

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