Coronary Artery Disease Clinical Trial
Official title:
Prevention of Neointimal Proliferation With Aggressive Reduction of Glucose Concentrations (Pioglitazone) Study -- PPAR-G -- An IVUS Pilot Feasibility Study in Type 2 Diabetic Patients.
Patients with diabetes have worse outcomes after percutaneous coronary intervention (PCI)
procedures, compared to those patients without diabetes. They are at increased risk of
death, heart attack, or needing further procedures due to renarrowing of their coronary
narrowings after implantation of a coronary stent. Studies have suggested that poor control
of diabetes may be partly responsible for these poor outcomes. Thiazolidinedione drugs, such
as pioglitazone, can improve the diabetes control and make the patient more sensitive to the
effects of insulin. Preliminary studies suggest that pioglitazone may also help prevent
renarrowing after PCI.
This study was a pilot study designed to determine whether more aggressive treatment of the
diabetes with the routine use of the drug pioglitazone (30mg/day for 6 months), in addition
to the patient's usual diabetic medications adjusted to optimize their diabetic control (get
glycated hemoglobin < 7%), could reduce the amount of tissue buildup within the stent after
6 months, compared to a group less aggressively treated without pioglitazone and their usual
medications for diabetes.
An intravascular ultrasound probe was used to assess the extent of tissue buildup within the
stent and this was performed immediately after the PCI as a baseline and repeated after 6
months of therapy.
The investigators hypothesize that the more aggressive diabetic treatment with pioglitazone
would reduce the extent of tissue growth within the stent after 6 months of therapy.
Background: Despite drug-eluting stents (DES), diabetic patients remain at high risk of
restenosis and poor clinical outcomes after percutaneous coronary intervention (PCI).
Studies have suggested poor glycemic control and insulin resistance may be predictors of
poor outcomes after PCI. There are conflicting studies as to whether strategies to improve
glycemic control can improve outcomes after PCI. Thiazolidinediones, such as pioglitazone
(PIO), may have anti-restenotic benefits, independent of glycemic control.
Study design: This study was a single centre prospective, randomized, open-label,
blinded-endpoint (PROBE) parallel design trial. Type 2 diabetic patients, treated with diet
or oral antidiabetic medication (sulfonylurea vs. metformin or combination; but no
thiazolidinedione or insulin), who are undergoing elective or urgent PCI with stenting were
eligible. Fifty type 2 diabetic patients were randomly assigned to either: intensive
glycemic control: pioglitazone (PIO; 30 mg/d x 6 months) in addition to titration of oral
hypoglycemic agents (OHA) to get HbA1c<6% (PIO: n=25) vs. conservative glycemic control:
titration of OHA to get HbA1c<7% (CONTROL: n=25). Intravascular ultrasound (IVUS) was
performed immediately after PCI and repeated at 6 months to determine the effect on instent
neointimal plaque volume and area. Coronary stenting was carried out in a standard fashion,
with routine use of a glycoprotein 2b/3a inhibitor during the procedure. From August 2002
until June 2005, DES were not permitted in the protocol. After June 2005, we amended the
protocol to allow DES, as they had become routinely used in diabetic patients in our
institution, especially for vessel size <3mm and/or lesion length>15mm. DES were used in 7
PIO and 11 CONTROL subjects, and bare metal stents (BMS) in the rest. Patients were then
followed with clinic visits at 1, 3 and 6 months. OHA, other than pioglitazone, were
adjusted in a stepwise manner in order to attain the HbA1c targets. Other concomitant
medications, including anti-anginals, lipid-lowering therapy, and antihypertensive
medication were adjusted according to their clinical need and current Canadian guidelines.
After 6 months treatment, or before if clinically indicated, all subjects were to return for
repeat cardiac catheterization, including repeat coronary angiography and IVUS of the
intervened vessel to assess the serial change in luminal dimensions. Fasting blood was
collected for plasma glucose, HbA1c, insulin, lipid profile, hs-CRP, adiponectin, leptin,
matrix metalloproteinase-9, and interleukin-6 at the time of PCI and at the follow-up IVUS.
If the patient developed recurrent ischemic symptoms before 6 months, the final IVUS could
be performed earlier, if they were found to have clinically-significant restenosis (diameter
stenosis > 50%). Otherwise, patients were still encouraged to have their protocol 6 month
IVUS follow-up. 41 patients (n=20 PIO, n=21 CONTROL) had analyzable pairs of IVUS.
Study hypothesis: We hypothesized that there would be significantly less instent neointimal
proliferation on IVUS at 6 months in the group receiving aggressive glycemic control plus
the thiazolidinedione pioglitazone. We also hypothesized that the reduction in neointimal
hyperplasia will likely relate to improvements in glycemic control (HbA1c) and insulin
resistance. Additionally, we wanted to explore the biochemical predictors (glucose
parameters, lipids, inflammatory markers, adipokines) for neointimal proliferation.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Prevention
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