Ubiquinol (Reduced COQ10) for Patients With Sepsis

Ubiquinol (Reduced COQ10) for Patients With Sepsis

Description
Description

Severe sepsis and septic shock are the cause of significant morbidity and mortality worldwide. An estimated 751,000 (3 per 1,000 population) cases of severe sepsis occur in the United States each year, resulting in approximately 215,000 deaths. Septic shock is characterized by hypotension, hypermetabolic state, lactic acidosis, and potentially death. In addition, the economic burden on the health care system for patients suffering from severe sepsis is striking. Weycker et al. report that patients suffering from severe sepsis will require an average of $45,000 dollars of medical care cost on their index admission and up to $78,500 dollars in the first year post-diagnosis. These figures rival such entities as acute myocardial infarction, trauma, and stroke. Whereas a significant amount of research and therapeutic interventions have been focused on the "early hours" of diseases such as acute myocardial infarction, stroke, and trauma, less attention has been given to the initial stages of severe sepsis and septic shock.

Coenzyme Q10 (CoQ10) is a safe and feasible medicinal intervention with a strong scientific rationale for use in septic shock. CoQ10 is a key component of the mitochondria, serving as an electron transport medium between complex I/II and complex III. A lesion at this point in the electron transport chain results in an inadequate production of ATP (adenosine triphosphate) for the cell. In septic shock, CoQ10 levels are profoundly decreased and therefore production of energy may be compromised. CoQ10 has two essential roles in critically ill patients with sepsis: 1) production of ATP and 2) reduction of free oxygen radicals. CoQ10's key role in the electron transport chain may prevent the well-described mitochondrial dysfunction that occurs in patients with septic shock. Thus, these two essential roles form the pathophysiological basis for this proposed study.

In the following proposal, the investigators plan to perform a pilot study to evaluate the capacity for ubiquinol (reduced form of COQ10) to attenuate mitochondrial injury, to attenuate inflammation/vascular endothelial injury, the effect on the human metabolome, and to be absorbed. The overall goal of this line of research will be to determine if CoQ10 will attenuate oxidative injury and improve mitochondrial function leading to overall improved outcome in patients suffering from septic shock. In order to achieve this long-term goal, the investigators propose this pilot and feasibility trial to determine CoQ10 absorption in critical illness, capacity to mitigate inflammatory injury and oxidative injury, and ability to maintain mitochondrial electron transport chain functionality. This pilot study will also provide key feasibility data on blinding and other logistical issues necessary for execution of a larger-scale investigation.