Coronary Artery Disease Clinical Trial
Official title:
A Pilot Study of The Effects of a Single High Dose Bolus Tirofiban in Diabetic Patients Undergoing Elective Percutaneous Coronary Intervention
- The purpose of this study is to examine the effects of tirofiban on platelet function
the Ultegra RPFA in diabetic patients undergoing elective coronary angioplasty and
stenting already treated with high loading dose (600mg) clopidogrel.
- About 44 people will be in the study. The study duration is a single hospitalization
period during which the angioplasty will be performed in addition to a 30-day post
hospitalization follow-up period.
- Patients taking part in the study will be assigned by chance into two groups.
- Group 1: patients will be treated with the glycoprotein inhibitor, Tirofiban
(25mcg/kg over 3 min bolus dose and 0.15 mcg/kg/hr for 12-24 hours), started
immediately after insertion of the sheath.
- Group 2: patients will be treated with equivalent placebo
All patients will be loaded with 600 mg clopidogrel at least 4 hours prior to scheduled
intervention.
All patients will have platelet function analyses at baseline and following treatment.
Introduction Diabetes is a major risk factor for coronary artery disease and diabetic
patients are considered CAD equivalent in the absence of CAD1. The presence of CAD and
diabetes makes the patient at a much higher risk for future morbidity and mortality.
Moreover, percutaneous coronary intervention (PCI) in diabetics is associated with a higher
risk of major adverse cardiac events (MACE). Several studies have also suggested that the
release of cardiac biomarkers during PCI procedures have an independent predictability of a
worse prognosis in terms of both morbidity and death. Furthermore, previous investigations
suggested that glycoprotein IIb/IIIa inhibitors (GPI) should be used routinely in all
diabetics undergoing PCI due to their higher propensity of developing a hyper aggregatory
status during such procedures that puts them at a higher risk of developing myocardial
injury and subsequent cardiac biomarkers release. However, recent investigation suggested
that high dose clopidogrel (600 mg given at least 4 hours prior to intervention) is as
protective as Abciximab in low risk patients undergoing elective PCI 2. Thus, high dose
clopidogrel preloading without GPI has become the standard for low risk patients undergoing
elective PCI. There is limited data in the literature to suggest that routine administration
of GPI prior to PCI in diabetic patients with a high dose preloading with clopidogrel is
actually beneficial. That is why this trial is being undertaken.
Experience with the high dosage of tirofiban Several studies performed following the
completion of TARGET strongly suggested that the 10 µg/kg bolus dose of tirofiban is
inadequate3. The TARGET dosing regimen of tirofiban inhibited 20 uMADP-mediated platelet
aggregation only by 60-66% from 15-60 minutes after onset of treatment when tested with
PPACK as a sample anticoagulant, and as a result of rapid tissue redistribution yielded a
tirofiban plasma level of 35-40 ng/mL4. Abciximab, as it was dosed in the TARGET trial,
produced a 90-95% inhibition of platelet aggregation in this same time period. This
difference in extent of platelet aggregation inhibition was proposed as the reason why more
procedure-related ischemic events occurred among subjects receiving tirofiban in the TARGET
trial.
To date, several published trials have been described using the single high-dose bolus
(SHDB) of tirofiban in various clinical settings. Taken together, more than 600 patients
received the SHDB of tirofiban in these clinical trials without evidence of a greater than
expected increase in the frequency of bleeding events or thrombocytopenia. A variety of
clinical, angiographic, and echocardiographic endpoints all consistently demonstrate that
the SHDB of tirofiban is superior to placebo and appears to be comparable to abciximab.
Two trials up to now demonstrated that in the same dosing paradigm SHDB of tirofiban
achieves comparable levels of platelet inhibition as does abciximab for patients undergoing
PCI4, 5.
The largest experience published by Danzi and colleagues was a 554- patient observational
study comparing the safety and efficacy of SHDB tirofiban in PCI patients to a cohort of PCI
patients who received abciximab6. Patients were enrolled sequentially: the first 280
received abciximab and the subsequent 274 received HDB tirofiban. The incidence of major
bleeding events or access site bleeding complications for patients treated with SHDB
tirofiban was less than that seen with abciximab. Moreover, the point estimate of the
incidence of in-hospital and 30-day major adverse cardiovascular events (MACE) in the SHDB
tirofiban group was actually below that in the abciximab group (5.6% vs. 7.1%; P=0.65). This
clinical experience suggests that SHDB tirofiban, administered at the time of PCI, is safe
and can produce results similar to abciximab.
Danzi and colleagues published a second clinical trial comparing echocardiographic,
angiographic and clinical outcomes in 100 patients with ST-segment elevation myocardial
infarction (STEMI) who were treated with SHDB tirofiban versus abciximab7. There was
slightly greater improvement in echocardiographic outcomes in patients treated with HDB
tirofiban compared with abciximab. Angiographic and clinical outcomes were similar for the
two groups. Again, while there was no incidence of major bleeding or severe thrombocytopenia
reported for either treatment group, there were actually less episodes of minor bleeding in
patients treated with SHDB tirofiban compared with abciximab (4% vs. 8%; P = 0.71). In
short, this clinical experience demonstrated that SHDB tirofiban, administered at the time
of PCI, was comparable to abciximab in treating STEMI patients undergoing PCI.
A second STEMI manuscript described the study design and demographics of the STRATEGY trial
which evaluated STEMI patients who were randomized to receive either SHDB tirofiban +
sirolimus eluting stent or abciximab + bare metal stent. This study confirmed the findings
of Danzi and co-workers, and also found that the SHBD tirofiban resulted in the same
results, as compared to patients treated with Abciximab, with a trend towards a lower
bleeding rate with the SHBD tirofiban regimen8 The ADVANCE trial evaluated the efficacy and
safety of SHDB tirofiban compared with placebo in treating high-risk patients9. The study
enrolled 202 patients with either a single coronary artery occlusion/diabetes, diagnosed
NSTEMI, or multivessel coronary artery disease. This trial demonstrated a statistically
significant decrease in 6-month MACE or bailout GP IIb/IIIa inhibitor use for patients
treated with HDB tirofiban versus placebo (19.8% vs, 34.7%; P=0.01). SHDB tirofiban was
shown to significantly reduce the increase in cardiac markers (both troponin I and CK-MB)
associated with ischemic events. Subgroup analysis showed a statistically significant
decrease in lowering the primary endpoint for diabetic and ACS patients treated with SHDB
tirofiban. Finally, there was no major bleeding, need for red blood cell transfusion, or
severe thrombocytopenia, and there was no significant difference in even minor bleeding
rates between SHDB tirofiban-treated patients and those treated with placebo (4% vs. 1%; P =
0.19).
In summary, these trials represent a significant clinical experience demonstrating the
safety and efficacy of the SHDB of tirofiban administered at the time of PCI.
Mechanistic/Pharmacological rationale of benefit expected The use of Tirofiban, given at
single high dose bolus, is expected to act on the final common pathway of platelet
activation, thus it will completely bypass the COX-1 mediated signal activation (the
intracellular pathway on which Aspirin-mediated platelet inhibition is based on). The use of
SHDB Tirofiban will result in a dramatic inhibition of platelet activation compared to
patients treated with aspirin and clopidogrel alone, determining a significant and profound
increase in platelet function which is in contrast to the TACTICS dose10.
Objective of the investigation The Ultegra RPFA is an automated turbidimetric whole blood
assay designed to assess platelet function on the basis of the ability of activated
platelets to bind to fibrinogen12. The Ultegra RPFA is as accurate and precise as
conventional turbidimetric platelet aggregometry13, and a recent study has demonstrated that
the measurements are not operator dependent or influenced by concomitant medications,
hematologic parameters, or demographics14.
The objectives of this proposal is to conduct a pilot study examining the platelet function
using the Ultegra RPFA in diabetic patients undergoing elective PCI when treated with
tirofiban and high loading dose (600mg) clopidogrel versus high loading dose clopidogrel
alone.
Additional assays of flow cytometry and platelet monocyte aggregation will be analyzed in a
similar fashion before and after treatment.
Baseline blood samples will also be assessed for lipid profile, Hs-CRP, FBS, renal function,
liver function, CBC and HbA1c.
Null Hypothesis It is expected that tirofiban arm will provide over 90% platelet aggregation
inhibition compared to the Clopidogrel alone arm which will provide a maximum of 50%
platelet aggregation inhibition. Therefore, an expected difference of 40% in platelet
inhibition is anticipated in this pilot trial.
End points
The primary endpoint:
To investigate the magnitude of platelet aggregation inhibition using SHBD tirofiban with
clopidogrel versus clopidogrel alone before randomization, 10 minutes (t=0) and 8 hours
(t=8) post tirofiban administration.
Observational point:
1. The difference of flow cytometry and platelet monocyte aggregation between the two
groups.
2. The incidence of troponin T release 12 hours post PCI among the two groups.
3. The difference in mean troponin T between the groups at 12 hours post PCI.
4. Major adverse cardiac events (MACE) at 24 hours and 30 days post PCI.
Follow-up All patients screened (independent of their AR status) will be clinically
followed-up for 1 month to evaluate observational point.
Study Design and Procedures:
Type of study This is a randomized, open label, placebo controlled (with bailout tirofiban
as rescue) single center study.
Statistical Considerations
Number of patients The study enrollment will be stopped as soon as a total of 44 patients
randomized to receive Tirofiban (in addition to Aspirin, Heparin and 600mg Clopidogrel) vs.
Aspirin, Heparin and 600mg clopidogrel alone and who actually undergo PCI.
Statistical Analysis Two analyses will be performed; the first is based on intention to
treat and the other considering bailout tirofiban administration and will reflect actual
treatment. Since the primary outcomes are related to operator independent analysis of
platelet function, we do not expect bias in the interpretation of final results and
conclusions.
Main Study Flow 44 Diabetic patients referred for elective PCI will be randomized into two
groups. Group 1: patients will be treated with the GPI, Tirofiban (25mcg/kg over 3 min bolus
dose and 0.15 mcg/kg/hr for 12-24 hours), started immediately after insertion of the sheath.
Group 2: patients will be treated with equivalent placebo.
All patients will be loaded with 600 mg clopidogrel at least 4 hours prior to scheduled
intervention.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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