Ischemia/Reperfusion Injury of Human Endothelium: Role of Glucose and Statins

Not Applicable

Completed

Conditions: Hyperglycemia

Interventions: Drug: 5% dextrose
Drug: Sevoflurane
Drug: Vitamin C
Drug: Simvastatin

Registration Number: NCT00995670

Lead Sponsor: US Department of Veterans Affairs

Brief Summary: Anesthetic preconditioning (APC, a brief exposure to an anesthetic gas) has become an area of intense research interest because of its ability to protect tissue and organs from injury resulting from a cessation of blood flow and then a re-establishment of flow. The blood vessel lining plays a key role in this injury. This research will examine, in human volunteers, several important modifiers of APC in human blood vessels: high blood sugar, vitamin C, and statin drugs. Thus, the proposed studies will advance the investigators' understanding of mechanisms of this injury in humans and explore important modifiers of APC protection from injury.

Detailed Description: Injury to vital organs and tissue can occur when blood flow is stopped and then re-established. This happens in a variety of clinical situations and contributes to poor outcomes. A newer concept of protection from this injury by an anesthetic drug might occur because of the effect of the volatile anesthetics on the tissue that lines blood vessels. Thus, a brief exposure to a volatile anesthetic before a cessation of blood flow, called anesthetic preconditioning (APC), can substantially reduce the resulting injury to the lining of the blood vessels. In animal models, high levels of blood sugar block this protection, while cholesterol lowering drugs (statins) restore the protection and may independently protect blood vessel lining from injury. The interactions of high blood sugar and statin drugs on the blood vessel reaction to APC and a subsequent 20-min cessation of blood flow to the forearm will be studied in humans. In addition, the involvement of reactive oxygen species (ROS) in the harmful effects of high blood sugar and the beneficial effects of statins will be explored. The following four hypotheses will be studied: 1) high blood sugar blocks the anesthetic protection of blood vessels from injury in a dose and time dependent manner; 2) reactive oxygen species are involved in the inhibition of APC by high blood sugar; 3) statins modulate injury in a dose related manner; and 4) statins reduce high blood sugar inhibition of APC.

A standard model to evaluate forearm blood vessel function will be used. Thin rubber-band-like strain gauges will be strapped around each forearm and the change in their stretch during a variety of interventions on the experimental arm (the other arm will not receive any interventions and will be the control arm) will be measured. These interventions will allow the investigator to determine whether the hypotheses listed above are true. During all studies, there will be a 20-min arrest of the forearm circulation. Additional effects of injury, APC, high blood sugar, and statins will be determined by evaluating blood vessel inflammatory responses from "markers" in blood samples taken before and after I/R injury. Several studies will involve varying the forearm blood glucose concentration for brief (30 min) to longer (2 hours) periods prior to APC and injury. The ROS scavenger vitamin C will be used to evaluate the role of ROS in adverse effects of high blood sugar. There are several other studies that will continue to seek the mechanism of action of this effect via the use of other drug interactions.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 59

Inclusion Criteria

Young, healthy volunteers, 18-35 yr of age;
Females will be studied at the same phase of their estrous cycle in each protocol.

Exclusion Criteria

Beta-blocker therapy or any medication that might interfere with vascular responses;
Pregnant or lactating women;
Substance abusers;
Smokers;
Anyone with cardiovascular, renal, or other systemic disease including hypertension and/or diabetes;
Also excluded are volunteers with family history of malignant hyperthermia, or significant gastro-esophageal reflux.

Study & Design

Study Type: INTERVENTIONAL

Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Vitamin C and Glucose	5% dextrose	To determine if vitamin C can restore the impairment of the endothelium (FBF) caused by the glucose (dextrose infusion). All subjects received glucose and I/R injury (ischemia), either with or without vitamin C. Control baseline FBF was taken in every trial before any intervention, and FBF was taken during intervention and post I/R. Placebo data were the placebo studies from the Sevoflurane and Glucose arm, when appropriate; new subjects (not enrolled in Sevoflurane and Glucose arm) underwent a separate placebo trial. Glucose: 5% dextrose will be infused at 12ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 60 min. Vitamin C: 1 gm iv bolus injection 5 min before I/R injury 16 volunteers were studied 25 times in this arm.
Statins and Glucose	5% dextrose	Volunteers ingested a 40 mg simvastatin (statin) pill for the two evenings prior to study day and the morning of the study to determine the effect of simvastatin on modulating the I/R injury during hyperglycemia (high glucose). Volunteers were studied with statin alone and with statin and glucose. Placebo data were the placebo studies from the Sevoflurane and Glucose arm, when appropriate; new subjects (not enrolled in Sevoflurane and Glucose arm) underwent a separate placebo trial. Glucose: 5% dextrose will be infused at 12ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 60 min. Statin: 40 mg of simvastatin 17 volunteers were studied 31 times in this arm.
Sevoflurane and Glucose	5% dextrose	Endothelial function will be measured via forearm blood flow (FBF). Subjects may get I/R injury (ischemia) without glucose or sevoflurane (placebo); I/R with glucose only (glucose trial); I/R with sevoflurane only (sevo trial); I/R with glucose and sevoflurane (combo trial). Baseline FBF was taken in every trial before any intervention, and FBF was taken during intervention and post I/R. Glucose: 5% dextrose will be infused at 12 ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 1 hr to prevent the anesthetic preconditioning (sevoflurane) protection against subsequent I/R injury. Sevoflurane: 1 minimum alveolar concentration (MAC) for 20 min (after 1 hr glucose and before I/R) 26 volunteers were studied 67 times in this arm.
Sevoflurane and Glucose	Sevoflurane	Endothelial function will be measured via forearm blood flow (FBF). Subjects may get I/R injury (ischemia) without glucose or sevoflurane (placebo); I/R with glucose only (glucose trial); I/R with sevoflurane only (sevo trial); I/R with glucose and sevoflurane (combo trial). Baseline FBF was taken in every trial before any intervention, and FBF was taken during intervention and post I/R. Glucose: 5% dextrose will be infused at 12 ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 1 hr to prevent the anesthetic preconditioning (sevoflurane) protection against subsequent I/R injury. Sevoflurane: 1 minimum alveolar concentration (MAC) for 20 min (after 1 hr glucose and before I/R) 26 volunteers were studied 67 times in this arm.
Vitamin C and Glucose	Vitamin C	To determine if vitamin C can restore the impairment of the endothelium (FBF) caused by the glucose (dextrose infusion). All subjects received glucose and I/R injury (ischemia), either with or without vitamin C. Control baseline FBF was taken in every trial before any intervention, and FBF was taken during intervention and post I/R. Placebo data were the placebo studies from the Sevoflurane and Glucose arm, when appropriate; new subjects (not enrolled in Sevoflurane and Glucose arm) underwent a separate placebo trial. Glucose: 5% dextrose will be infused at 12ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 60 min. Vitamin C: 1 gm iv bolus injection 5 min before I/R injury 16 volunteers were studied 25 times in this arm.
Statins and Glucose	Simvastatin	Volunteers ingested a 40 mg simvastatin (statin) pill for the two evenings prior to study day and the morning of the study to determine the effect of simvastatin on modulating the I/R injury during hyperglycemia (high glucose). Volunteers were studied with statin alone and with statin and glucose. Placebo data were the placebo studies from the Sevoflurane and Glucose arm, when appropriate; new subjects (not enrolled in Sevoflurane and Glucose arm) underwent a separate placebo trial. Glucose: 5% dextrose will be infused at 12ml/hr to a target of 200 mg/dl blood concentration in the experimental forearm for 60 min. Statin: 40 mg of simvastatin 17 volunteers were studied 31 times in this arm.

Primary Outcome Measures

Name	Time	Method
Forearm Blood Flow	Baseline, Glucose Control, 15-min post ischemia	endothelial (forearm blood flow) responses to acetylcholine stimulation at baseline, and under conditions of high glucose before and after ischemia/reperfusion injury, and same with the addition of an intervention: sevoflurane (Arm 1), vitamin C (Arm 2), and high statin (Arm 3).

Secondary Outcome Measures