A Pharmacokinetic Study of Intravenous and Intranasal Oxytocin in Healthy Subjects

Study Description

Brief Summary

The main purpose of this study is to sample blood and model the plasma pharmacokinetics (PK) of a single dose of intravenous (IV) oxytocin and a single dose of intranasal (i.n.) oxytocin.

This is an unblinded study of subjects, all of whom will receive an intravenous (IV) infusion and intranasal (i.n.) dose of oxytocin (a naturally occurring hormone that is made in the brain) with blood samples taken thereafter in order to create a formula to describe the concentrations of oxytocin in the blood over time (pharmacokinetics).

In this study healthy volunteers and people are recruited for a two day study. Each study participant will have 2 IV catheters placed (one in each arm) for the day of IV oxytocin dosing and 1 IV catheter on the day of i.n. oxytocin dosing. After placement of the IV catheters, an infusion of oxytocin will be given over a 30 minute period. Blood samples will be taken after the infusion begins and several times during and after the infusion. The blood will be drawn through the IV catheter not used for the oxytocin infusion. For the intranasal oxytocin administration day, 1 IV catheter will be placed and several blood samples will be taken after administration.

Detailed Description

This is an unblinded, sequential study of subjects; all participants will receive an infusion of oxytocin and intranasal administration of oxytocin with blood samples taken thereafter in order to create a formula to describe the concentrations of oxytocin in the blood over time (pharmacokinetics). In this study healthy volunteers. Participants will come to the Clinical Research Unit (CRU) on study day 1 and have two IVs inserted; one in each arm. Participants will get a 30 minute infusion through one of the IV catheters of oxytocin and blood will be taken several times over the next 120 minutes, plasma separated, and the amount of oxytocin measured in the plasma samples. Participants will come to the CRU on study day 2 and have one IV inserted; in the arm. Participants will self administer intranasal oxytocin and blood will be taken several times over the next 60 minutes and the amount of oxytocin measured in the plasma samples. This information will be analyzed by another group at Stanford University under a data sharing agreement between the institutions and funded by a grant from the National Institutes of Health. Compartmental modeling will be performed using NONMEM to describe the change in oxytocin concentrations over time. The effect of subject age, sex, race, ethnicity and weight on the pharmacokinetics of oxytocin will be examined, since these factors can affect pharmacokinetics and are important to better adjust the dose of drug to the individual.

The main purpose of this study is to determine the amount of oxytocin in plasma after IV and i.n. administration.

The research participants will not benefit from this study, but the knowledge investigators get will be important to adjust oxytocin dose to individuals, and to be able to calculate plasma oxytocin concentrations after various doses in the future. The sample size chosen is needed to get an accurate estimate for the parameters in the pharmacokinetic model for the population, not just the subjects in this study.

Study Design

Outcome Measures

Primary Outcome Measures

1. Pharmacokinetics of oxytocin in plasma [2 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

2. Pharmacokinetics of oxytocin in plasma [5 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

3. Pharmacokinetics of oxytocin in plasma [10 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

4. Pharmacokinetics of oxytocin in plasma [20 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

5. Pharmacokinetics of oxytocin in plasma [30 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

6. Pharmacokinetics of oxytocin in plasma [40 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

7. Pharmacokinetics of oxytocin in plasma [50 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

8. Pharmacokinetics of oxytocin in plasma [65 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

9. Pharmacokinetics of oxytocin in plasma [90 minutes after oxytocin infusion initiated]

   Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

10. Pharmacokinetics of oxytocin in plasma [120 minutes after oxytocin infusion initiated]

    Blood will be sampled at specified intervals during and after the infusion. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

11. Pharmacokinetics of oxytocin in plasma [1 minute after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

12. Pharmacokinetics of oxytocin in plasma [2 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

13. Pharmacokinetics of oxytocin in plasma [5 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

14. Pharmacokinetics of oxytocin in plasma [7 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

15. Pharmacokinetics of oxytocin in plasma [10 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

16. Pharmacokinetics of oxytocin in plasma [15 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

17. Pharmacokinetics of oxytocin in plasma [20 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

18. Pharmacokinetics of oxytocin in plasma [25 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

19. Pharmacokinetics of oxytocin in plasma [35 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

20. Pharmacokinetics of oxytocin in plasma [45 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

21. Pharmacokinetics of oxytocin in plasma [60 minutes after intranasal oxytocin administration]

    Blood will be sampled at specified intervals after the intranasal administration of oxytocin. Plasma will be separated, rapidly frozen, and later analyzed for oxytocin concentration

Eligibility Criteria

Criteria

Inclusion Criteria:

• Male or female > 18 and < 75 years of age, Body Mass Index (BMI) <40.

• Generally in good health as determined by the Principal Investigator based on prior medical history, American Society of Anesthesiologists physical status 1 or 2.

• For healthy volunteers, normal blood pressure (systolic 100-140 mmHg; diastolic 60-90 mmHg) resting heart rate 45-90 beats per minute) without medication. For those with hypertension, blood pressure controlled with anti-hypertensive medication and with a resting heart rate 45-100 beats per minute.

• Female subjects of child-bearing potential and those < 1 year post-menopausal, must be practicing highly effective methods of birth control such as hormonal methods (e.g., combined oral, implantable, injectable, or transdermal contraceptives), double barrier methods (e.g., condoms, sponge, diaphragm, or vaginal ring plus spermicidal jellies or cream), or total abstinence from heterosexual intercourse for a minimum of 1 full cycle before study drug administration.

Exclusion Criteria:

• Hypersensitivity, allergy, or significant reaction to any ingredient of Pitocin®

• Any disease, diagnosis, or condition (medical or surgical) that, in the opinion of the Principal Investigator, would place the subject at increased risk (active gynecologic disease in which increased tone would be detrimental e.g., uterine fibroids with ongoing bleeding), compromise the subject's compliance with study procedures, or compromise the quality of the data

• Women who are pregnant (positive result for urine pregnancy test at visit 1), women who are currently nursing or lactating, women that have been pregnant within 2 years

• Subjects with neuropathy, chronic pain (being treated on a daily basis), diabetes mellitus, or taking benzodiazepines or pain medications on a daily basis.

• Subjects with current or history of ventricular tachycardia, atrial fibrillation or prolonged QT interval.

• Subjects with past or current history of hyponatremia or at risk for hyponatremia; anyone taking thiazide diuretics, loop diuretics, combination diuretics, lithium, carbamazepine, enalapril, Ramipril, celecoxib, temazepam, gliclazide, glimepiride, glibenclamide, glipizide, omeprazole, pantoprazole, desmopressin, Selective serotonin reuptake inhibitors (SSRI's) , Monoamine oxidase inhibitors (MAOI), or the recreational drug ecstasy.

• Subjects with a known latex allergy.

• History of chronic nasal obstruction or local pathology in nostril pathway which, in the opinion of the investigator, would prevent appropriate nasal administration of the study drug.

• Use of over the counter nasal products (ie. Saline spray, Neti-Pot, etc.) or intranasal corticosteroid medications during the study.

Contacts and Locations

Locations

Sponsors and Collaborators

• Wake Forest University Health Sciences
• National Institute of Neurological Disorders and Stroke (NINDS)

Investigators

• Principal Investigator: James C Eisenach, MD, Wake Forest University Health Sciences

Study Documents (Full-Text)

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