Background
Robust evidence demonstrating the ability of drug-eluting stent (DES) technology to reduce restenosis in comparison to bare metal stents (BMS) has led to widespread DES uptake. Balanced against this significant clinical benefit, however, is concern about the incidence of stent thrombosis (ST) in DES patients. Observational and randomised trial data suggest that there is a cumulative incidence of ST in DES patients of between 0.5%–1% per year
There are well established procedural risk factors for ST such as stent under-deployment
Typically, clopidogrel is given in standard doses to patients receiving DES, despite both experimental and clinical data demonstrating important biological variation in response. However, clinical detection of reduced responsiveness to clopidogrel and/or aspirin has been hampered both by a lack of point-of-care assays and by an appropriate definition of what constitutes "resistance"
The purpose of this study was to test the hypothesis that platelet reactivity whilst on aspirin and clopidogrel, assessed using two near patient assays, a novel modification of Thrombelastograph® (TEG) PlateletMapping™
Methods
Study Population
Approval was obtained from the Isle of Wight, Portsmouth & South East Hampshire Research Ethics committee prior to commencing the study (Ref: 06/Q1701/49). All subjects provided written informed consent.
Twenty-two patients with DES ST were identified from a consecutive series of 3004 patients, 90% of whom received DES, over a 2 year period at this centre
For each case two control patients were identified from the interventional database, and individually matched according to duration and dose of antiplatelet therapy, gender, age, smoking, diabetes, initial presentation and procedure undertaken. A summary of the demographics and baseline haematological variables of the cases and controls is given in Tables
Demographics
ST cases
Individual Controls
p value
Age
61.9 ± 5.7
61.8 ± 4.3
N/S
Sex (% Male)
86
86
N/S
Smokers (%)
42.9
35.7
N/S
Diabetes (%)
14.3
14.3
N/S
Emergency cases (%)
14.3
14.3
N/S
Elective cases (%)
14.3
33.3
N/S
ACS cases (%)
71.4
52.4
N/S
Stent length (mm)
26.7 ± 11.3
27.9 ± 6.3
N/S
Minimum stent diameter (mm)
2.8 ± 0.3
2.9 ± 0.3
N/S
Aspirin dose (mg)
140 ± 21.0
140 ± 13.4
N/S
Clopidogrel dose (mg)
86 ± 21
75
N/S
Duration of clopidogrel (days)
161 ± 163
77 ± 28
N/S
Time from latest event/intervention (days)
145 ± 84
76 ± 28
N/S
Statin (% total/% Atorvastatin)
100/14
100/7
N/S
Summary of demographics in the seven cases and 14 controls. There are no significant differences between the groups.
Haematological variables
ST cases
Controls
p value
Hb conc. (g/l)
130 ± 13
137 ± 10
0.30
Haematocrit (%)
0.39 ± 0.03
0.40 ± 0.03
0.44
Platelet count
262 ± 42
229 ± 25
0.35
INR
1.1 ± 0.1
1.0 ± 0.0
0.15
eGFR (mls/min)
67 ± 8
64 ± 4
0.64
Haematological variables. There were no significant differences between the two groups.
Venesection
In all subjects venesection was performed from the antecubital fossa using an 18 gauge needle and a lightly applied tourniquet and the first 2 mls of blood discarded. Blood was then drawn into a 6 ml Lithium Heparin Vacutainer® for TEG analysis and two 2 ml 3.2% sodium citrate Vacutainers® for VerifyNow analysis.
Sample analysis
TEG
samples were analysed using TEG PlateletMapping™ (Haemoscope Corp, IL, USA) according to the manufacturer's instructions. For each trace the maximum amplitude (MA) was obtained from the standard analysis package and the Area under the response curve at 15 minutes (AUC15) calculated using a software programme (Areafinder 2:1) and method of analysis developed and previously described by this group
VerifyNow
VerifyNow™ Aspirin and P2Y12 assays were analysed for each individual according to manufacturer's instructions to obtain the aspirin response units (ARU) and platelet response units (PRU) respectively.
Result analysis
For TEG samples comparisons were made between the MA and AUC15 for each individual channel in the 2 groups. The percentage platelet inhibition (%PIn) and percentage clotting inhibition (%CIn) were calculated for both aspirin (using the channel with Arachidonic Acid (AA) stimulation) and clopidogrel (using Adenosine DiPhosphate (ADP) stimulation) from each sample
Statistics
Expert statistical advice was obtained prior to the commencement of the study. Data are presented as the mean and 95% confidence interval of the mean. Significance between the groups was determined using two group t-tests for continuous variables and χ2 (chi squared) tests for categorical data with a p value of < 0.05 (2-tailed) considered to represent significance.
Results
Baseline demographics are shown in Table
Responses to aspirin
TEG
There was no significant difference in responses assessed with AA-stimulation between the ST group and control group in (i) %PIn (79.6 ± 20.8 vs. 89.9 ± 7.6, p = 0.39); %CIn (75.2 ± 9.4 vs. 75.9 ± 6.0, p = 0.90); (ii) MA of the AA channel (25.3 ± 17.6 vs. 14.0 ± 4.5, p = 0.26) or (iii) AUC15 of the AA channel (244 ± 113 vs. 216 ± 56, p = 0.67).
VerifyNow
There was no significant difference between ARU measurements in the ST group and controls (453 ± 50 vs 410 ± 29, p = 0.18).
Responses to Clopidogrel
TEG
There was no significant difference between the ST group and controls in the %PIn due to Clopidogrel (18.2 ± 33.2 vs. 31.8 ± 13.2, p = 0.38); the %CIn (5.6 ± 27.7 vs. 30.6 ± 13.4, p = 0.09 or the MA of the ADP channel (50.5 ± 15.8 vs. 46.0 ± 7.5, p = 0.62). There was trend towards significance with the AUC of the ADP channel (910 ± 329 vs. 618 ± 130, p = 0.07) with 57% (4 of 7) of the ST group compared to 0% of controls having an AUC > 1100 (AUC > 2 standard deviations above the mean of the control group) (See Figure
TEG Results
TEG Results. The AUC15 of the ADP channel in the ST group and in matched controls. Whilst there was no significant difference between the two groups (910 ± 329 vs. 618 ± 130, p = 0.07) Four of the five greatest responses (signifying the least response to clopidogrel) occurred in the ST group. {AUC15 – area under the response curve at 15 minutes; ADP – Adenosine Diphosphate; ST – Stent thrombosis}.
Other TEG variables
There were no significant differences between cases and controls in TEG variables which have been previously identified as predictive of ischaemic events after PCI (i.e. MA of the Thrombin channel (61.6 ± 2.9 vs. 64.1 ± 2.7, p = 0.21) and the R time of the Thrombin channel (6.9 ± 1.5 vs. 7.1 ± 2.0, p = 0.84))
VerifyNow
The PRU in the ST group was significantly higher than in controls (183 ± 51 vs. 108 ± 31, p = 0.02). 43% (3 of 7) of the ST cases compared to 0% of controls had PRU > 225 (PRU > 2 standard deviations above the mean of the control group) (See Figure
Accumetrics Results
Accumetrics Results. VerifyNow PRU in the ST group and in matched controls. Mean PRU was significantly higher in the ST group than in matched controls ((183 ± 51 vs. 108 ± 31, p = 0.02)). The five greatest responses (signifying the least response to clopidogrel) all occurred in the ST group. {PRU – Platelet Reaction Units; ST – Stent Thrombosis}.
Discussion
The hypothesis for this study was that these two point-of-care tests (VerifyNow and a novel modification of TEG that produces a result after only 15 minutes) could detect reduced responsiveness to antiplatelet therapy in survivors of ST whilst on dual antiplatelet therapy compared to matched controls. This hypothesis has been disproved in the case of aspirin but proved for clopidogrel using Accumetrics with a trend towards significance using TEG AUC15. Our results suggest that clopidogrel, but not aspirin, resistance contributes to ST in some cases.
Implications
The implications of this study are clinically relevant. Firstly, they add to the growing concern that some patients receiving DES may be intrinsically at risk of ST because of their relative lack of response to clopidogrel. Secondly, there are now two point-of-care assays available that allow rapid detection of the response of prospective DES patients to clopidogrel, raising the possibility that such "at risk" individuals could be detected in routine clinical practice, before they are exposed to the potentially suboptimal combination of DES and standard doses of antiplatelet drugs. We found that approximately 50% of patients with previous ST whilst on clopidogrel had abnormally high reactivity whilst on clopidogrel with both Accumetrics and TEG (PRU and TEG AUC15 of ADP channel > 2 standard deviations above the expected means). Further data are now required to determine (a) whether the responses of such individuals to antiplatelet therapy can be normalised by interventions such as increasing the maintenance dose of clopidogrel
Study limitations
This study has important limitations. Firstly, the absolute number of ST patients is low. Nevertheless, the ST population in this study was derived from a consecutive series of 3004 DES patients at a single centre. Secondly, as this is a retrospective study we do not have baseline samples prior to the initiation of antiplatelet therapy for calculation of a response to antiplatelet therapy compared to baseline. Instead we utilised the clinically important measure of platelet reactivity whilst on antiplatelet treatment. Thirdly, studies recruiting patients who have survived ST will inevitably be weaker for the absence of data relating to patients who died as a result of ST. Lastly we did not test for evidence of drug compliance in this study.
Conclusion
Using assays suitable for point-of-care use in routine clinical practice, this study demonstrates an association between reduced responses to clopidogrel, but not aspirin, in a proportion of DES ST patients when compared to matched DES patients without ST. These findings are in keeping with recent studies using laboratory based research tools. The availability of two point-of-care assays that can be employed to detect such responses raises the possibility of detecting clopidogrel hypo-responsiveness prior to DES implantation and possibly manipulating the risk of subsequent ST. Further data are required.
Competing interests
Dr KD Dawkins is on advisory boards for Conor Medsystems, Nycomed, Medtronic, Boston Scientific Corporation and Abbott Vascular and has received honorarium from Boston Scientific Corporation. Dr Curzen has acted as a consultant for and/or received unrestricted research grants from Cordis, Boston Scientific Corporation, Lilly, Smith Klein Beecham, Medtronic, Nycomed and Pfizer International.
Authors' contributions
AH, KD and NC participated in study design. AH and GM participated in recruitment and data acquisition. AH and GP participated in result analysis. AH and NC drafted the manuscript. All authors have participated in preparation of the final manuscript. All authors have read and approved the final manuscript.