Myocardial Injury Clinical Trial
Official title:
PRO-TECT II: Propofol Cardioprotection for Type II Diabetics
The purpose of this study is to determine if an intravenous anesthetic with antioxidant properties will protect the heart of diabetic patients from injury while undergoing coronary bypass surgery.
Diabetic patients are at elevated risk for low cardiac output syndrome. This high risk
scenario adversely affects up to 26% of patients recovering from cardiac surgery. Aggressive
hemodynamic treatments are required, but can prove inadequate. Low cardiac output syndrome
can quadruple the overall mortality rate for aortocoronary bypass surgery from 2% to 8%.
Therefore, an urgent need exists for effective forms of preemptive cardioprotection and
antioxidant protection may play a crucial role. Our research into the therapeutic potential
of propofol, an intravenous anesthetic with antioxidant properties, could have significant
impact on outcome in this select population. The proposed study represents a novel
therapeutic approach for the prevention of myocardial ischemia-reperfusion injury in
diabetic patients undergoing cardiac surgery with cardiopulmonary bypass.
RESEARCH PLAN
Two blinded, randomized controlled phase II studies will be conducted in patients undergoing
primary aortocoronary bypass surgery.
STUDY A
Specific Aims:
1. To determine whether propofol increases nitric oxide bioavailability and decreases ET-1
formation in diabetic patients undergoing aortocoronary bypass surgery
2. To determine whether propofol inhibits superoxide formation or downregulates iNOS gene
expression in cardiac tissue.
Hypothesis:
Oxidant stress during myocardial reperfusion promotes the conversion of NO to the
cardiotoxic free radical, peroxynitrite, and enhances the formation of the vasoconstrictor
ET-1 in diabetic patients. We postulate that these factors cause postoperative cardiac
dysfunction of the ischemic-reperfused diabetic heart.
STUDY B
Specific Aim:
To determine whether a high dose of intravenous insulin increases the effect of propofol on
perioperative oxidative stress.
Hypothesis: Insulin, by preventing hyperglycemia, enhances propofol's effect on oxidative
stress.
Methods
In Study A, 144 patients (72 patients with Type II DM + 72 patients with no DM) will be
randomized to receive either propofol 120 ug/kg/min or isoflurane 0.5 to 2% for a treatment
interval of 120 to 150 min (10 min before and during CPB, and for 15 min following aortic
declamping). All patients will receive a continuous intravenous (I.V.) infusion of insulin
as needed to maintain glucose levels at 8 to 12 mmol/L.
In Study B, 72 Type II diabetic patients will be randomized to isoflurane or propofol
cardioprotection. All patients will be treated with the perioperative hyperinsulinemic clamp
to maintain blood glucose levels within a target range of 4.5 - 6 mmol/L for up to 6 hours
following release of aortic crossclamp.
Arterial and coronary sinus blood will be sampled simultaneously before initiation of CPB
and at 5 min reperfusion for Troponin I, 15-F2t-isoP, nitrotyrosine and tyrosine, ET-1, and
TNF-alpha. An index of myocardial derived 15-F2t-isoP and peroxynitrite will be determined
from the Cs-Ao difference in percentage ratio of plasma free 15-F2t-isoP and nitrotyrosine
to tyrosine, respectively.
Atrial tissue will be sampled before initiation of CPB and at 15min reperfusion for
detection of iNOS, eNOS and superoxide formation. This will coincide with central venous
blood sampling for measurement of the concentration of propofol.
The levels of 15-F2t-isoP, nitrotyrosine and tyrosine, ET-1, and TNF-alpha in blood will be
determined at 2 hours postoperatively. Troponin I levels will be determined at 2, 12, and 24
hours postoperatively. Cardiac function will be assessed up to 6 hours postoperatively by
pulmonary artery catheter and transesophageal echocardiography.
This study represents a novel therapeutic approach for the prevention of myocardial
ischemia-reperfusion injury. This study on diabetic patients will provide the prerequisite
knowledge for a randomized clinical trial powered to detect clinical outcomes in this high
risk patient population.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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