View clinical trials related to Healthy Volunteers.
Filter by:The purpose of this study is to characterize the effect of renal function on the plasma, urine, and dialysate pharmacokinetic profile of MK-6183 (CB-238,618) in humans. The study will also assess the safety profile and tolerability of MK-6183 in healthy participants, participants with varying degrees of renal impairment (RI), or participants with end-stage renal disease (ESRD) requiring hemodialysis (HD), based on estimated glomerular filtration rate (eGFR).
The purpose of this study is to compare how much baricitinib (study drug) gets into the blood stream when it is given as a single dose (in tablet form) and as an intravenous infusion (injection given directly into a vein via a small needle). Each participant in the study will make four visits to the investigator site over the course of about 6 weeks.
The purpose of this study is to demonstrate that the intestinal absorption of calcium from a novel calcium carbonate-vitamin D3 chewable tablet formulation (calcium 500 mg and vitamin D3 1000 IU) increases the amount of calcium excreted in urine and decreases parathyroid hormone (PTH) in serum as compared with Baseline.
To compare pharmacokinetics (PK) of AVP-786 (deuterated [d6] dextromethorphan hydrobromide [d6-DM]/quinidine sulfate [Q]) to AVP-923 (dextromethorphan hydrobromide [DM]/Q) at steady state.
Phase I study to assess the safety, tolerability and pharmacokinetics of ascending single and multiple doses of the investigational medicinal product in healthy volunteers
The primary purpose of this study is to assess the single-dose bioavailability of AKB-6548 with ferrous sulfate relative to AKB-6548 in healthy volunteers.
The aim of this study is to compare how much of the study drug gets into the blood stream when it is given as a single oral dose and as an intravenous infusion (given directly into a vein via a small needle). The study will also provide information on how well the study drug is tolerated when given as a capsule in combination with giving it intravenously, and information on any changes in heart function. The study will last about 10 days. Screening is required within 28 days before study drug is given.
This study involves single and multiple doses of LY3202626 and will evaluate the effects of LY3202626 on the body. There will be 4 parts to this study. In Parts A and B, single increasing doses of LY3202626 will be given in capsule form. Part A will also include itraconazole given orally as a solution. Part A will last approximately 8-12 weeks. Part B will last approximately 5-6 weeks. In Parts C and D, participants will be dosed multiple days with the study drug. Part C will last approximately 11-14 weeks. Part D will last approximately 11-14 weeks and participants must have Alzheimer's Disease. Participants may only enroll in one part.
The imdazoline2 binding site (I2BS) is known to reside inside astrocytes. Changes in the numbers of I2BS in post mortem tissue has implicated them in a range of psychiatric conditions such as depression and addiction, along with neurodegenerative disorders such as Alzheimer's disease and Huntington's chorea. Preclinical studies have also demonstrated functional interactions with the opioid system, where I2BS ligands have been shown to affect tolerance to morphine and alleviate some of the morphine withdrawal syndrome in rats. Recently the I2BS and I2BS ligands have been shown to have some interesting analgesic effects in different models of pain and a novel I2BS ligand, CR4056, is currently undergoing Phase II clinical trials as a novel treatment for neuropathic pain and acute non- specific pain states. The location of I2BS on astrocytic glial cells and the possibility that they may in some way regulate glial fibrillary acidic protein have led to increased interest into the role of I2BS and I2BS ligands in conditions characterised by marked gliosis. The number of I2BS has been shown to increase in Alzheimer's disease post mortem, and it has also been suggested that I2BS may be a marker for the severity and malignancy of human glioblastomas. The lack of suitable imaging tools for the I2BS has meant that information regarding the number and distribution of I2BS in the brain has come from preclinical species and in vitro post-mortem studies. The recent development of [11C]BU99008 as a suitable PET ligand to quantify I2BS in vivo, enables the direct quantification of I2BS availability and regional distribution in the living human brain. In this study the investigators plan to utilise [11C]BU99008 to quantify the regional brain availability of I2BS in the human brain in vivo using PET.
A Study to assess, against a reference selumetinib capsule, if the drug levels of a variant of selumetinib capsule are comparable, and to assess how drug levels differed in another variant of Selumetinib in Healthy Male Volunteers.