View clinical trials related to Healthy Volunteers.
Filter by:The purpose of this study is to evaluate the local anesthetic properties of neosaxitoxin in humans
Objectives: Plasma levels of catechols have distinct meanings in terms of indicating functions of endogenous catecholamine systems. This Protocol is designed to enable ongoing quality assurance of diagnostic and research assays of catechols and their metabolites and to identify possible influences of demographic and anthropometric factors, dietary constituents, and conditions of sampling on reference values. Study Populations: The study population is healthy volunteers and people who are obese or have untreated hypertension. Design: Arm venous blood is drawn via an indwelling i.v. catheter from healthy volunteers across demographic and anthropometric spectra (age, gender, skin color, ethnicity, body mass, adiposity), to obtain quality control plasma and establish reference values for plasma levels of catechols and their metabolites. Non-invasive physiological measures are obtained concurrently. Levels of catechols and their metabolites are related to results of common clinical pathology tests. Subgroups of subjects are tested more than once, to assess dietary influences (cereal with milk, coffee) and conditions of sampling (temperature at the skin). Outcome Measures: The main non-experimental outcome is an ongoing pool of quality control plasma. The main experimental outcome measures are plasma concentrations of catechols and their metabolites, non-invasive physiological measures, and results of common clinical pathology tests. Subject groups are compared with respect to the above demographic and anthropometric factors. Effects of the experimental manipulations are assessed within subjects
This study will use positron emission tomography (PET) and magnetic resonance imaging (MRI) to measure a serotonin receptor subtype in the brain called 5-HT(1A). This receptor is a target for drug therapy to treat anxiety and depression. The study will see if a newly developed radioligand (radioactive substance used in PET scanning to study the receptor systems of the brain) called [(11)C](-)-RWAY is more effective than other radioligands currently used in brain receptor research. Healthy subjects 18-40 years of age may be eligible for this study. Candidates are screened with a physical examination, electrocardiogram, and blood and urine tests. Participants undergo PET and MRI scanning as follows: PET scan PET uses small amounts of a radioactive chemical called a tracer (in this case, [(11)C](-)-RWAY) that "labels" active areas of the brain. For the procedure, the subject lies on the scanner bed. A special mask is fitted to the subject's head and attached to the bed to help keep the head still during the scan so the images will be clear. A brief scan is done just before the tracer is injected to provide measures of the brain that will help in the precise calculation of information from subsequent scans. Then, the tracer is injected through a catheter (plastic tube) placed in the arm and pictures are taken for about 2 hours, while the subject lies still on the scanner bed. Subjects return to the clinic for blood and urine tests 24 hours after the scan. MRI The MRI scan is done within 1 year of the PET scan. MRI uses a magnetic field and radio waves to produce images of body tissues and organs-in this case, the brain. The subject lies on a table that is moved into the scanner (a tube-like device), wearing earplugs to muffle the noise of the machine during the scanning process. The space in the scanner is confining and may cause some people to be somewhat anxious. An intercom system allows the subject to speak with the staff member performing the study at all times during the procedure, and the procedure can be stopped at any time.
The rationale for transcutaneous vaccination is based on the unique ability of cutaneous immune cells, especially Langerhans cells (LCs), to present antigens to the immune system. DCs can be found at high densities in the epidermis and the dermis of human skin, a fraction of which are the epidermal LCs. It is known that strong and efficient immune responses can be induced by targeting vaccines to skin APCs (Glenn 2003, Partidos 2003), e.g. by epicutaneous application of smallpox vaccine on scarified skin. Several obstacles however prevent vaccines from attaining sufficiently high and free concentrations in these target skin DCs. In this clinical trial we aim at testing the safety and immunogenicity of this new transcutaneous route of vaccine administration, first with a licensed, well-known, safe and highly immunogenic vaccine i.e. Tetagrip® vaccine, which is licensed for subcutaneous (s.c.) and intra-muscular routes (i.m), and to compare the induced vaccine-specific immune responses to those induced with the conventional (i.m) injection. We hypothesize that the transcutaneous application of Tetagrip® in the commercially available standard preparation of 0.5 ml should be capable to induce at least similar antibody and CD4 and/or CD8 T cell responses to both the tetanus and the flu vaccinal antigens. This Phase I, open label, randomized study is designed to evaluate and to compare the safety and immunogenicity of a transcutaneous mode of Tetanus / Influenza vaccination to the conventional i.m. route of vaccine administration in two cohorts: The cohort I constituted of healthy volunteers and the cohort II of HIV-infected patients in whom the virus is stably controlled by antiretroviral therapy, ensuring an immune competence and a capacity to respond to vaccines.
The aim of the present study is to explore functional consequences of migraine gene mutations on their responses to GTN infusion.
To examine the ability of MRA to measure the effect of GTN on the intra-cranial vascular response during the GTN-induced headache in healthy volunteers.
30 healthy volunteers will be enrolled in this 6-session study. The first visit will be a screening/orientation session. The next 5 visits will be (full day) outpatient sessions taking place Monday through Friday during one week. All full day visits will be drug administration sessions with subjects randomized to one of two groups. The primary purpose is to investigate the time course of development of analgesic tolerance (loss of pain relieving effect) to morphine on experimentally produced skin tenderness in healthy volunteers.
We hypothesized that infusion of VIP may induce headache in healthy subjects and that VIP induced headache may be associated with dilatation of intra- and extracerebral blood vessels. To test this hypothesis, we performed a double blind placebo controlled crossover study in normal human volunteers and studied the effect on headache and cerebral as well as hemodynamic parameters.
To estimate the effects of omeprazole on the pharmacokinetics of nelfinavir in healthy subjects
A study to evaluate the use of a vaporization system as a smokeless delivery system for inhaled marijuana.