Although a large number of obese patients develop high blood pressure, the cause is unknown. The purpose of this study is to look at the effect of high fatty acids (a type of fat) in the development of high blood pressure in obese people.
Recent studies indicate that increased levels of a circulating fat (free fatty acids or FFAs) increases blood pressure, impairs endothelial (vascular) function, and increases inflammatory markers in subjects with and without diabetes. The effects of FFA on blood pressure and vasculature have not been fully investigated. A group of 12 obese nondiabetic, normotensive subjects will be admitted to the Grady Clinical Research Center (GCRC) on separate 4 occasions. Research subjects will receive, in random order, a 8-hour intravenous (IV) infusion of Intralipid 20% at 40 mL/h (a fat solution), 8-hour IV infusion of normal saline at 40 mL/h, 8-hour IV infusion of dextrose (sugar) 10% at 40 mL/h, and a 8-hour intravenous (IV) infusion combination of Intralipid 20% and dextrose 10% at 40mL/h.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
SINGLE
Enrollment
12
Lean and obese normotensive subjects will receive Intralipid 20% infusion. Intralipid is an oil-in-water emulsion derived from egg phospholipids, soybean, and glycerol. The Intralipid 20% long-chain triglyceride emulsion contains: 200 g of soy bean oil; 12 g of egg yolk; 25 g of glycerol. The emulsion is composed of the following free fatty acids (FFAs): linoleic acid: 50%, oleic acid: 26%, palmitic acid: 10%, stearic acid: 9%, egg yolk, phospholipids: 3.5% It will be given intravenously at 20 ml/hr (96 g/24 h) for 24 hours.
Lean and obese normotensive subjects will receive normal saline at 20 ml/hr for 24 hours.
Lean and obese normotensive subjects will receive an oral fat load at 96 g/24hr. The oral liquid fat load will be given in equal amounts (16 g) every 4 hours (total 96 g over 24 hours).
Grady Memorial Hospital
Atlanta, Georgia, United States
Change in Flow-mediated Dilation From Baseline to 4 Hours
Endothelium-dependent brachial artery flow-mediated dilation (FMD) was assessed. Ultrasound images of the brachial artery were obtained and arterial diameters were measured with customized software. FMD is expressed as the change in diameter from baseline to 4 hours.
Time frame: Baseline, 4 hours
Change in Systolic Blood Pressure From Baseline to 4 Hours
Systolic blood pressure is the amount of pressure the heart generates when pumping blood through the arteries to the body. Current guidelines identify normal systolic blood pressure as lower than 120 mmHg. Blood pressure was measured in triplicate with a manual cuff prior to and every 4 hours during the 8 hour infusion with subjects in supine position. Change is the difference between 4 hour systolic blood pressure from baseline systolic blood pressure.
Time frame: Baseline, 4 hours
Change in Systolic Blood Pressure From Baseline to 8 Hours
Systolic blood pressure is the amount of pressure your heart generates when pumping blood through your arteries to the rest of your body. Current guidelines identify normal systolic blood pressure as lower than 120 mmHg. Blood pressure was measured in triplicate with a manual cuff prior to and every 4 hours during the 8 hour infusion with subjects in supine position. Change is the difference between 8 hour systolic blood pressure from baseline systolic blood pressure.
Time frame: Baseline, 8 hours
Change in Diastolic Blood Pressure From Baseline to 4 Hours
Diastolic blood pressure is the amount of pressure in your arteries when your heart is at rest between beats. Current guidelines identify normal diastolic blood pressure as lower than 80 mmHg. Blood pressure was measured in triplicate with a manual cuff prior to and every 4 hours during the 8 hour infusion with subjects in supine position. Change is the difference between 4 hour diastolic blood pressure from baseline diastolic blood pressure.
Time frame: Baseline, 4 hours
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Change in Diastolic Blood Pressure From Baseline to 8 Hours
Diastolic blood pressure is the amount of pressure in your arteries when your heart is at rest between beats. Current guidelines identify normal diastolic blood pressure as lower than 80 mmHg. Blood pressure was measured in triplicate with a manual cuff prior to and every 4 hours during the 8 hour infusion with subjects in supine position. Change is the difference between 8 hour diastolic blood pressure from baseline diastolic blood pressure.
Time frame: Baseline, 8 hours
Change in FFA (Free Fatty Acid) Levels From Baseline to 4 Hours
Blood samples were collected for measurement of free fatty acids (FFA) at baseline and 4 hours after each infusion. FFA levels were determined by colorimetric method. Current guidelines identify normal range of FFA level as less than 0.72 mmol/L. Elevated plasma levels of FFA indicate a greater rate of insulin resistance. Change is the difference between 4 hour FFA levels from baseline FFA levels.
Time frame: Baseline, 4 hours
Changes in FFA (Free Fatty Acid) Levels From Baseline to 8 Hours
Blood samples were collected for measurement of free fatty acids (FFA) at baseline and 8 hours after each infusion. FFA levels were determined by colorimetric method. Current guidelines identify normal range of FFA level as less than 0.72 mmol/L. Elevated plasma levels of FFA indicate a greater rate of insulin resistance. Change iis the difference between 8 hour FFA levels from baseline FFA levels.
Time frame: Baseline, 8 hours
Change in Triglyceride Levels From Baseline to 4 Hours
Blood samples were collected for measurement of triglycerides at baseline and 4 hours after each infusion. Triglyceride levels were measured on CX7 Chemistry Analyzer. Current guidelines identify normal range of triglyceride level as less than 150 mg/dL. Elevated levels of triglycerides are associated with an increased risk of developing heart disease. Change is the difference between 4 hour triglyceride levels from baseline triglyceride levels.
Time frame: Baseline, 4 hours
Change in Triglyceride Levels From Baseline to 8 Hours
Blood samples were collected for measurement of triglycerides at baseline and 4 hours after each infusion. Triglyceride levels were measured on CX7 Chemistry Analyzer. Current guidelines identify normal range of triglyceride level as less than 150 mg/dL. Elevated levels of triglycerides are associated with an increased risk of developing heart disease. Change is the difference between 8 hour triglyceride levels from baseline triglyceride levels.
Time frame: Baseline, 8 hours
Plasma Glucose Levels for Saline Infusion
Blood samples were collected for measurement of plasma glucose levels at baseline, 4 hours after saline infusion, and 8 hours after saline infusion. Plasma glucose was measured on CX7 Chemistry Analyzer. Current guidelines identify normal fasting glucose as less than 100 mg/dL. High levels of glucose most frequently indicates diabetes.
Time frame: Baseline, 4 hours, 8 hours
Plasma Glucose Levels for Intralipid Infusion
Blood samples were collected for measurement of plasma glucose levels at baseline, 4 hours after intralipid infusion, and 8 hours after intralipid infusion. Plasma glucose was measured on CX7 Chemistry Analyzer. Current guidelines identify normal fasting glucose as less than 100 mg/dL. High levels of glucose most frequently indicates diabetes.
Time frame: Baseline, 4 hours, 8 hours
Plasma Glucose Levels for Dextrose Infusion
Blood samples were collected for measurement of plasma glucose levels at baseline, 4 hours after dextrose infusion, and 8 hours after dextrose infusion. Plasma glucose was measured on CX7 Chemistry Analyzer. Current guidelines identify normal fasting glucose as less than 100 mg/dL. High levels of glucose most frequently indicates diabetes.
Time frame: Baseline, 4 hours, 8 hours
Plasma Glucose Levels for Intralipid/Dextrose Infusion
Blood samples were collected for measurement of plasma glucose levels at baseline, 4 hours after intralipid/dextrose infusion, and 8 hours after intralipid/dextrose infusion. Plasma glucose was measured on CX7 Chemistry Analyzer. Current guidelines identify normal fasting glucose as less than 100 mg/dL. High levels of glucose most frequently indicates diabetes.
Time frame: Baseline, 4 hours, 8 hours
Insulin Levels for Saline Infusion
Blood samples were collected for the measurement of insulin levels at baseline, 4 hours after saline infusion, and 8 hours after saline infusion. Insulin was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal insulin levels as 8.8 μU/mL for men and 8.4 for women. High levels of insulin most frequently indicate insulin resistance or hypoglycemia, if paired with a low glucose level. Low levels of insulin paired with high glucose level can indicate diabetes.
Time frame: Baseline, 4 hours, 8 hours
Insulin Levels for Intralipid Infusion
Blood samples were collected for the measurement of insulin levels at baseline, 4 hours after intralipid infusion, and 8 hours after intralipid infusion. Insulin was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal insulin levels as 8.8 μU/mL for men and 8.4 for women. High levels of insulin most frequently indicate insulin resistance or hypoglycemia, if paired with a low glucose level. Low levels of insulin paired with high glucose level can indicate diabetes.
Time frame: Baseline, 4 hours, 8 hours
Insulin Levels for Dextrose Infusion
Blood samples were collected for the measurement of insulin levels at baseline, 4 hours after dextrose infusion, and 8 hours after dextrose infusion. Insulin was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal insulin levels as 8.8 μU/mL for men and 8.4 for women. High levels of insulin most frequently indicate insulin resistance or hypoglycemia, if paired with a low glucose level. Low levels of insulin paired with high glucose level can indicate diabetes.
Time frame: Baseline, 4 hours, 8 hours
Insulin Levels for Intralipid/Dextrose Infusion
Blood samples were collected for the measurement of insulin levels at baseline, 4 hours after intralipid/dextrose infusion, and 8 hours after intralipid/dextrose infusion. Insulin was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal insulin levels as 8.8 μU/mL for men and 8.4 for women. High levels of insulin most frequently indicate insulin resistance or hypoglycemia, if paired with a low glucose level. Low levels of insulin paired with high glucose level can indicate diabetes.
Time frame: Baseline, 4 hours, 8 hours
C-peptides Levels for Saline Infusion
Blood samples were collected for the measurement of C-peptide levels at baseline, 4 hours after saline infusion, and 8 hours after saline infusion. C-peptide was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal C-peptide levels as 0.51 to 2.72 ng/mL. A high level of C-peptide generally indicates a high level of endogenous insulin production. This may be in response to a high blood glucose caused by glucose intake and/or insulin resistance. A high level of C-peptide is also seen with insulinomas and may be seen with low blood potassium, Cushing syndrome, and renal failure. A low level of C-peptide is associated with a low level of insulin production. This can occur when insufficient insulin is being produced by the beta cells, with diabetes for example, or when production is suppressed by treatment with exogenous insulin.
Time frame: Baseline, 4 hours, 8 hours
C-peptides Levels for Intralipid Infusion
Blood samples were collected for the measurement of C-peptide levels at baseline, 4 hours after Intralipid infusion, and 8 hours after Intralipid infusion. C-peptide was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal C-peptide levels as 0.51 to 2.72 ng/mL. A high level of C-peptide generally indicates a high level of endogenous insulin production. This may be in response to a high blood glucose caused by glucose intake and/or insulin resistance. A high level of C-peptide is also seen with insulinomas and may be seen with low blood potassium, Cushing syndrome, and renal failure. A low level of C-peptide is associated with a low level of insulin production. This can occur when insufficient insulin is being produced by the beta cells, with diabetes for example, or when production is suppressed by treatment with exogenous insulin.
Time frame: Baseline, 4 hours, 8 hours
C-peptides Levels for Dextrose Infusion
Blood samples were collected for the measurement of C-peptide levels at baseline, 4 hours after dextrose infusion, and 8 hours after dextrose infusion. C-peptide was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal C-peptide levels as 0.51 to 2.72 ng/mL. A high level of C-peptide generally indicates a high level of endogenous insulin production. This may be in response to a high blood glucose caused by glucose intake and/or insulin resistance. A high level of C-peptide is also seen with insulinomas and may be seen with low blood potassium, Cushing syndrome, and renal failure. A low level of C-peptide is associated with a low level of insulin production. This can occur when insufficient insulin is being produced by the beta cells, with diabetes for example, or when production is suppressed by treatment with exogenous insulin.
Time frame: Baseline, 4 hours, 8 hours
C-peptides Levels for Intralipid/Dextrose Infusion
Blood samples were collected for the measurement of C-peptide levels at baseline, 4 hours after intralipid/dextrose infusion, and 8 hours after intralipid/dextrose infusion. C-peptide was measured in plasma using a solid phase, two-site sequential chemiluminescent immunometric assays on the DPC Immulite analyzer. Current guidelines identify normal C-peptide levels as 0.51 to 2.72 ng/mL. A high level of C-peptide generally indicates a high level of endogenous insulin production. This may be in response to a high blood glucose caused by glucose intake and/or insulin resistance. A high level of C-peptide is also seen with insulinomas and may be seen with low blood potassium, Cushing syndrome, and renal failure. A low level of C-peptide is associated with a low level of insulin production. This can occur when insufficient insulin is being produced by the beta cells, with diabetes for example, or when production is suppressed by treatment with exogenous insulin.
Time frame: Baseline, 4 hours, 8 hours