Back to resultsBioequivalence Study Between Levocetirizine Oral Disintegrating Tablet (ODT) and Levocetirizine Immediate Release Tablet (IRT)
Primary Purpose
Rhinitis
Status
Completed
Phase
Phase 1
Locations
Japan
Study Type
Interventional
Intervention
Levocetirizine IRT 5 mg
Levocetirizine ODT 5 mg
Sponsored by
About this trial
This is an interventional treatment trial for Rhinitis focused on measuring Oral disintegrating tablet, Levocetirizine, Immediate release tablet, Bioequivalence, Japanese subjects
Eligibility Criteria
Inclusion Criteria:
- Subjects must be 20 to 55 years of age inclusive, at the time of signing the informed consent.
- Japanese subjects who are overtly healthy as determined by medical evaluation including medical history, physical examination, laboratory tests, and cardiac monitoring.
- Subjects with body weight of >= 50 kilogram (kg) and body mass index (BMI) within the range of >=18.5 and <25.0 kg per meter square (m^2).
- In male subjects contraceptive use should be consistent with local regulations regarding the methods of contraception for those participating in clinical studies.
- Male subjects are eligible to participate if they agree to the following during the intervention period and until the completion of follow-ups: Refrain from donating sperm; Be abstinent from heterosexual or homosexual intercourse as their preferred and usual lifestyle (abstinent on a long term and persistent basis) and agree to remain abstinent; Agree to use a male condom and female partner to use an additional highly effective contraceptive method with a failure rate of <1 percentage per year when having sexual intercourse with a woman of childbearing potential who is not currently pregnant; Agree to use male condom when engaging in any activity that allows for passage of ejaculate to another person.
- Subjects must be non-smokers.
- Subjects capable of giving signed informed consent.
Exclusion Criteria:
- Subjects with history or presence of cardiovascular, respiratory, hepatic, renal, gastrointestinal, endocrine, hematological, or neurological disorders capable of significantly altering the absorption, metabolism, or elimination of drugs; constituting a risk when taking the study intervention; or interfering with the interpretation of data.
- Subjects with abnormal blood pressure as determined by the investigator.
- Subjects with history of allergic rhinitis.
- Subjects with ALT >1.5x upper limit of normal (ULN).
- Subjects with bilirubin >1.5 times ULN (isolated bilirubin >1.5 times ULN is acceptable if bilirubin is fractionated and direct bilirubin <35 percentage).
- Subjects with current or chronic history of liver disease, or known hepatic or biliary abnormalities (with the exception of Gilbert's syndrome or asymptomatic gallstones).
- Subjects with QTc >450 millisecond (msec).
- Subjects with past or intended use of over-the-counter or prescription medication including vitamins, diet supplements (including St. John's wort), herbal medications within 14 days prior to first dosing or 5 half-lives (whichever is longer).
- Exposure to more than 4 new chemical entities within 12 months prior to the first dosing day.
- Current enrolment or past participation within 4 months prior to the first dosing day in this or any other clinical study involving an investigational study intervention or any other type of medical research (except for the subjects with no study intervention administered during any of those enrolment or participation).
- The subject with positive serological test for syphilis (Rapid Plasma Reagin [RPR] and Treponema pallidum [TP] antibody tests), Human immunodeficiency virus (HIV) Antigen/Antibody, Hepatitis B surface antigen (HBsAg), Hepatitis C virus (HCV) antibody, or Human T-cell lymphotropic virus type 1 (HTLV-1) antibody at screening.
- Subject with positive pre-study drug screen.
- Subject with regular moderate alcohol consumption within 6 months prior to the study participation defined as: An average weekly intake of >14 units for males. One unit is equivalent to 360 milliliter (mL) of beer, 150 mL of wine or 45 mL of 80 proof distilled of spirits.
- Smoking or history or regular use of tobacco- or nicotine-containing products within 6 months prior to screening.
- Sensitivity to any of the study interventions, or components thereof, or drug or other allergy that, in the opinion of the investigator or Medical Monitor, contraindicates participation in the study.
- History of donation of blood or blood products >= 400 mL within 3 months or >=200 mL within 1 month prior to the first dosing day.
Sites / Locations
- GSK Investigational Site
Arms of the Study
Arm 1
Arm 2
Arm 3
Arm 4
Arm Type
Experimental
Experimental
Experimental
Experimental
Arm Label
Subjects of Group A: Part 1
Subjects of Group B: Part 1
Subjects of Group C: Part 2
Subjects of Group D: Part 2
Arm Description
Subjects in Group A will be randomized to receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine ODT 5 mg with 150 mL water in fasted state in Period 2.
Subjects in Group B will be randomized to receive levocetirizine ODT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 2.
Subjects in Group C will be randomized to receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine ODT 5 mg without water in fasted state in Period 2.
Subjects in Group D will be randomized to receive levocetirizine ODT 5 mg without water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 2.
Outcomes
Primary Outcome Measures
Part 1: Area Under the Concentration-time Curve (AUC) From Time Zero Time (Pre-dose) to the Time of Last Quantifiable Concentration (AUC[0-t]) of Levocetirizine
Blood samples were collected to measure AUC(0-t) at indicated time-points. AUC(0-t) was calculated by the linear trapezoidal method (i.e., Linear Trapezoidal Linear Interpolation calculation method in Phoenix WinNonlin).
Part 2: AUC(0-t) of Levocetirizine
Blood samples were collected to measure AUC(0-t) at indicated time-points. AUC(0-t) was calculated by the linear trapezoidal method (i.e., Linear Trapezoidal Linear Interpolation calculation method in Phoenix WinNonlin).
Part 1: Maximum Observed Concentration (Cmax) of Levocetirizine
Blood samples were collected at indicated time points for analysis of Cmax. The values for Cmax were obtained directly from the concentration-time data.
Part 2: Cmax of Levocetirizine
Blood samples were collected at indicated time points for analysis of Cmax. The values for Cmax were obtained directly from the concentration-time data.
Secondary Outcome Measures
Part 1: Area Under the Concentration-time Curve From Zero Time (Pre-dose) Extrapolated to Infinite Time AUC(0-inf) of Levocetirizine
Blood samples were collected at indicated time points for analysis of AUC(0-inf). AUC(0-inf)) of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: AUC(0-inf) of Levocetirizine
Blood samples were collected at indicated time points for analysis of AUC(0-inf). AUC(0-inf) of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Time to First Occurrence of Cmax (Tmax) of Levocetirizine
Blood samples were collected at indicated time points for analysis of tmax. The tmax of levocetirizine was obtained directly from the concentration-time data. The tmax was analyzed with the non-parametric Wilcoxon Matched Pairs Method (Signed Rank Method) to compute point estimate and associated 90% confidence interval for the median difference.
Part 2: Tmax of Levocetirizine
Blood samples were collected at indicated time points for analysis of tmax. The tmax of levocetirizine was obtained directly from the concentration-time data. The tmax was analyzed with the non-parametric Wilcoxon Matched Pairs Method (Signed Rank Method) to compute point estimate and associated 90% confidence interval for the median difference.
Part 1: Apparent Terminal Phase Half-life (t1/2) of Levocetirizine
Blood samples were collected at indicated time points for analysis of t1/2. The t1/2 of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: t1/2 of Levocetirizine
Blood samples were collected at indicated time points for analysis of t1/2. The t1/2 of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Percentage of AUC(0-inf) Obtained by Extrapolation (%AUCex) of Levocetirizine
Blood samples were collected at indicated time points for analysis of %AUCex. Percentage AUCex of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: %AUCex of Levocetirizine
Blood samples were collected at indicated time points for analysis of %AUCex. Percentage AUCex of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Apparent Clearance Following Oral Dosing (CL/F) of Levocetirizine
Blood samples were collected at indicated time points for analysis of CL/F. CL/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: CL/F of Levocetirizine
Blood samples were collected at indicated time points for analysis of CL/F. CL/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Apparent Volume of Distribution Following Oral Dosing (Vz/F) of Levocetirizine
Blood samples were collected at indicated time points for analysis of Vz/F. Vz/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: Vz/F of Levocetirizine
Blood samples were collected at indicated time points for analysis of Vz/F. Vz/F of levocetirizine was calculated as by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Elimination Rate Constant (Kel) (lambda_z) of Levocetirizine
Blood samples were collected at indicated time points for analysis of kel. kel (lambda_z) is the first order rate constant associated with the terminal (log-linear) portion of the curve. kel of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: Kel (lambda_z) of Levocetirizine
Blood samples were collected at indicated time points for analysis of kel. kel (lambda_z) is the first order rate constant associated with the terminal (log-linear) portion of the curve. kel of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Mean Residence Time (MRT) of Levocetirizine
Blood samples were collected at indicated time points for analysis of MRT. MRT of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 2: MRT of Levocetirizine
Blood samples were collected at indicated time points for analysis of MRT. MRT of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Part 1: Number of Participants With Adverse Events (AEs) and Serious Adverse Events (SAEs)
An AE is any untoward medical occurrence in a clinical study participant, temporally associated with the use of a study intervention, whether or not considered related to the study intervention. A SAE is defined as any untoward medical occurrence that, at any dose may results in death or is life-threatening or requires inpatient hospitalization or results in persistent disability/incapacity or is a congenital anomaly/birth defect or any other situation according to medical or scientific judgment.
Part 2: Number of Participants With AEs and SAEs
An AE is any untoward medical occurrence in a clinical study participant, temporally associated with the use of a study intervention, whether or not considered related to the study intervention. A SAE is defined as any untoward medical occurrence that, at any dose may results in death or is life-threatening or requires inpatient hospitalization or results in persistent disability/incapacity or is a congenital anomaly/birth defect or any other situation according to medical or scientific judgment.
Part 1: Change From Baseline in Albumin and Total Protein Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in albumin and total protein levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Albumin and Total Protein Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in albumin and total protein levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Alkaline Phosphatase, Alanine Amino Transferase, Aspartate Amino Transferase, Creatine Kinase, Gamma Glutamyl Transferase and Lactate Dehydrogenase Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in alkaline phosphatase, alanine amino transferase, aspartate amino transferase, creatine kinase, gamma glutamyl transferase and lactate dehydrogenase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Alkaline Phosphatase, Alanine Amino Transferase, Aspartate Amino Transferase, Creatine Kinase, Gamma Glutamyl Transferase and Lactate Dehydrogenase Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in alkaline phosphatase, alanine amino transferase, aspartate amino transferase, creatine kinase, gamma glutamyl transferase and lactate dehydrogenase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Amylase Levels
Blood samples were collected for the assessment of clinical chemistry parameters. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Amylase Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in amylase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Direct Bilirubin, Total Bilirubin, Creatinine and Uric Acid Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in direct bilirubin, total bilirubin, creatinine and uric acid levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Direct Bilirubin, Total Bilirubin, Creatinine and Uric Acid Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in direct bilirubin, total bilirubin, creatinine and uric acid levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Calcium, Cholesterol, Chloride, Glucose, High Density Lipids Cholesterol, Potassium, Low Density Lipids Cholesterol, Sodium, Phosphorus Inorganic, Triglycerides and Urea/Blood Urea Nitrogen (BUN) Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in calcium, cholesterol, chloride, glucose, high density lipids cholesterol, potassium, low density lipids cholesterol, sodium, phosphorus inorganic, triglycerides and urea/blood urea nitrogen (BUN) levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Calcium, Cholesterol, Chloride, Glucose, High Density Lipids Cholesterol, Potassium, Low Density Lipids Cholesterol, Sodium, Phosphorus Inorganic, Triglycerides and Urea/BUN Levels
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in calcium, cholesterol, chloride, glucose, high density lipids cholesterol, potassium, low density lipids cholesterol, sodium, phosphorus inorganic, triglycerides and urea/BUN levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Basophils, Eosinophils, Lymphocytes, Monocytes and Total Neutrophils Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in basophils, eosinophils, lymphocytes, monocytes and total neutrophils levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Basophils, Eosinophils, Lymphocytes, Monocytes and Total Neutrophils Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in basophils, eosinophils, lymphocytes, monocytes and total neutrophils levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Platelet Count and White Blood Cell Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in platelet count and white blood cell count were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Platelet Count and White Blood Cell Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in platelet count and white blood cell count were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Hemoglobin and Mean Corpuscle Hemoglobin Concentration
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hemoglobin and mean corpuscle hemoglobin concentration were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Hemoglobin and Mean Corpuscle Hemoglobin Concentration
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hemoglobin and mean corpuscle hemoglobin concentration were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change Form Baseline in Hematocrit
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hematocrit was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change Form Baseline in Hematocrit
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hematocrit was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Mean Corpuscle Hemoglobin
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle hemoglobin was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Mean Corpuscle Hemoglobin
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle hemoglobin was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Mean Corpuscle Volume
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle volume was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Mean Corpuscle Volume
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle volume was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Red Blood Cell Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in red blood cell count was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Red Blood Cell Count
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in red blood cell count was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Reticulocytes
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in reticulocytes was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Reticulocytes
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in reticulocytes was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Number of Participants With Urinalysis Results by Dipstick Method
Urine samples were collected to assess urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen by dipstick test. The dipstick test gives results in a semi-quantitative manner, and results for urinalysis parameter of urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen can be read as negative (-), trace and 1+ indicating proportional concentrations in the urine sample. Only categories with significant values have been presented.
Part 2: Number of Participants With Urinalysis Results by Dipstick Method
Urine samples were collected to assess urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen by dipstick test. The dipstick test gives results in a semi-quantitative manner, and results for urinalysis parameter of urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen can be read as negative (-), trace and 1+ indicating proportional concentrations in the urine sample. Only categories with significant values have been presented.
Part 1: Urine Potential of Hydrogen (pH)
Urine samples were collected for the measurement of urine pH. Urine pH is an acid-base measurement. pH is measured on a numeric scale ranging from 0 to 14; values on the scale refer to the degree of alkalinity or acidity. A pH of 7 is neutral. A pH less than 7 is acidic, and a pH greater than 7 is basic. Normal urine has a slightly acid pH (5.0 - 6.0).
Part 2: Urine Potential of Hydrogen (pH)
Urine samples were collected for the measurement of urine pH. Urine pH is an acid-base measurement. pH is measured on a numeric scale ranging from 0 to 14; values on the scale refer to the degree of alkalinity or acidity. A pH of 7 is neutral. A pH less than 7 is acidic, and a pH greater than 7 is basic. Normal urine has a slightly acid pH (5.0 - 6.0).
Part 1: Urine Specific Gravity
Urine samples were collected for the measurement of specific gravity. Urine specific gravity is a measure of the concentration of solutes in the urine and provides information on the kidney's ability to concentrate urine. The concentration of the excreted molecules determines the urine's specific gravity. The urinary specific gravity measurement is a routine part of urinalysis. The reference range is 1.002-1.030.
Part 2: Urine Specific Gravity
Urine samples were collected for the measurement of specific gravity. Urine specific gravity is a measure of the concentration of solutes in the urine and provides information on the kidney's ability to concentrate urine. The concentration of the excreted molecules determines the urine's specific gravity. The urinary specific gravity measurement is a routine part of urinalysis. The reference range is 1.002-1.030.
Part 1: Change From Baseline in Systolic Blood Pressure (SBP) and Diastolic Blood Pressure (DBP)
Blood pressure was measured in supine position after 5 minutes rest. Change from Baseline in SBP and DBP was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in SBP and DBP
Blood pressure was measured in supine position after 5 minutes rest. Change from Baseline in SBP and DBP was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Heart Rate
Heart rate was measured in supine position after 5 minutes rest. Change from Baseline in heart rate was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Heart Rate
Heart rate was measured in supine position after 5 minutes rest. Change from Baseline in heart rate was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Body Temperature
Body temperature was measured in supine position after 5 minutes rest. Change from Baseline in body temperature was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Body Temperature
Body temperature was measured in supine position after 5 minutes rest. Change from Baseline in body temperature was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in Heart Rate (12-Lead Electrocardiogram [ECG])
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QT interval with Fridericia's correction (QTcF). Change from Baseline in heart rate (ECG) was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in Heart Rate (ECG)
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in heart rate (ECG) was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 1: Change From Baseline in PR Interval, QRS Interval, QT Interval and QTcF Interval
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in PR interval, QRS interval, QT interval and QTcF interval was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Part 2: Change From Baseline in PR Interval, QRS Interval, QT Interval and QTcF Interval
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in PR interval, QRS interval, QT interval and QTcF interval was evaluated. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits.
Full Information
NCT ID
NCT03555890
First Posted
May 9, 2018
Last Updated
May 22, 2020
Sponsor
GlaxoSmithKline
Collaborators
Zensei Pharmaceutical Co., Ltd.
1. Study Identification
Unique Protocol Identification Number
NCT03555890
Brief Title
Bioequivalence Study Between Levocetirizine Oral Disintegrating Tablet (ODT) and Levocetirizine Immediate Release Tablet (IRT)
Official Title
A Single Centre, Single Dose, Open-label, Randomized, 2-part, 2-way Crossover Study to Determine the Bioequivalence of Levocetirizine Oral Disintegrating Tablet Given With Water and Without Water Compared to Levocetirizine Immediate Release Tablet in Healthy Japanese Male Subjects
Study Type
Interventional
2. Study Status
Record Verification Date
May 2020
Overall Recruitment Status
Completed
Study Start Date
May 18, 2018 (Actual)
Primary Completion Date
September 17, 2018 (Actual)
Study Completion Date
September 17, 2018 (Actual)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor
Name of the Sponsor
GlaxoSmithKline
Collaborators
Zensei Pharmaceutical Co., Ltd.
4. Oversight
Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
Data Monitoring Committee
No
5. Study Description
Brief Summary
This study will be an open-label, randomized 2-way cross-over study to evaluate bioequivalence study between levocetirizine ODT and levocetirizine IRT in healthy Japanese male subjects. Approximately 48 subjects will participate in this study to receive a single dose treatments of levocetirizine ODT 5 milligram (mg) or levocetirizine IRT 5 mg. In Part 1, subjects will randomized in 1:1 ratio (12 in each Period) in Period 1 and 2 to receive single dose of levocetirizine ODT 5 mg with water or single dose levocetirizine IRT 5 mg with water in fasted state. In this part, comparison of bioavailability of levocetirizine ODT and levocetirizine IRT when taken with water in the fasted state will be assessed. In Part 2, subjects will be randomized in 1:1 ratio (12 in each Period) in Period 1 and 2 to receive single dose levocetirizine ODT 5 mg without water or single dose levocetirizine IRT 5 mg with water in fasted state. In this part, comparison of bioavailability of levocetirizine ODT without water and levocetirizine IRT with water in the fasted state will be assessed. There will be at least a 5-day wash out period between the intervention periods. The duration of each subject's participation in each part will be approximately 7 weeks from screening to follow-up.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Rhinitis
Keywords
Oral disintegrating tablet, Levocetirizine, Immediate release tablet, Bioequivalence, Japanese subjects
7. Study Design
Primary Purpose
Treatment
Study Phase
Phase 1
Interventional Study Model
Crossover Assignment
Model Description
This study is 2-way crossover 2 part study. In Part 1, comparison of bioavailability of levocetirizine ODT and levocetirizine IRT taken with water in the fasted state will be done and In Part 2, comparison of bioavailability of levocetirizine ODT without water and levocetirizine IRT with water in the fasted state will be done.
Masking
None (Open Label)
Allocation
Randomized
Enrollment
72 (Actual)
8. Arms, Groups, and Interventions
Arm Title
Subjects of Group A: Part 1
Arm Type
Experimental
Arm Description
Subjects in Group A will be randomized to receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine ODT 5 mg with 150 mL water in fasted state in Period 2.
Arm Title
Subjects of Group B: Part 1
Arm Type
Experimental
Arm Description
Subjects in Group B will be randomized to receive levocetirizine ODT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 2.
Arm Title
Subjects of Group C: Part 2
Arm Type
Experimental
Arm Description
Subjects in Group C will be randomized to receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine ODT 5 mg without water in fasted state in Period 2.
Arm Title
Subjects of Group D: Part 2
Arm Type
Experimental
Arm Description
Subjects in Group D will be randomized to receive levocetirizine ODT 5 mg without water in fasted state in Period 1. After a washout period of at least 5 days, subjects will receive levocetirizine IRT 5 mg with 150 mL water in fasted state in Period 2.
Intervention Type
Drug
Intervention Name(s)
Levocetirizine IRT 5 mg
Intervention Description
Levocetirizine IRT will be available as film-coated tablets. Subjects will receive a single dose of 5 mg levocetirizine IRT. Subjects will receive levocetirizine IRT with 150 mL water in both Part (1 and 2).
Intervention Type
Drug
Intervention Name(s)
Levocetirizine ODT 5 mg
Intervention Description
Levocetirizine ODT will be available as oral disintegrating tablet. Subjects will receive a single dose of 5 mg levocetirizine ODT. In Part 1, subjects will receive levocetirizine ODT with 150 mL water and in Part 2 subjects will receive levocetirizine ODT without water.
Primary Outcome Measure Information:
Title
Part 1: Area Under the Concentration-time Curve (AUC) From Time Zero Time (Pre-dose) to the Time of Last Quantifiable Concentration (AUC[0-t]) of Levocetirizine
Description
Blood samples were collected to measure AUC(0-t) at indicated time-points. AUC(0-t) was calculated by the linear trapezoidal method (i.e., Linear Trapezoidal Linear Interpolation calculation method in Phoenix WinNonlin).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36, 48 hours post-dose
Title
Part 2: AUC(0-t) of Levocetirizine
Description
Blood samples were collected to measure AUC(0-t) at indicated time-points. AUC(0-t) was calculated by the linear trapezoidal method (i.e., Linear Trapezoidal Linear Interpolation calculation method in Phoenix WinNonlin).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36, 48 hours post-dose
Title
Part 1: Maximum Observed Concentration (Cmax) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of Cmax. The values for Cmax were obtained directly from the concentration-time data.
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36, 48 hours post-dose
Title
Part 2: Cmax of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of Cmax. The values for Cmax were obtained directly from the concentration-time data.
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36, 48 hours post-dose
Secondary Outcome Measure Information:
Title
Part 1: Area Under the Concentration-time Curve From Zero Time (Pre-dose) Extrapolated to Infinite Time AUC(0-inf) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of AUC(0-inf). AUC(0-inf)) of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: AUC(0-inf) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of AUC(0-inf). AUC(0-inf) of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Time to First Occurrence of Cmax (Tmax) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of tmax. The tmax of levocetirizine was obtained directly from the concentration-time data. The tmax was analyzed with the non-parametric Wilcoxon Matched Pairs Method (Signed Rank Method) to compute point estimate and associated 90% confidence interval for the median difference.
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: Tmax of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of tmax. The tmax of levocetirizine was obtained directly from the concentration-time data. The tmax was analyzed with the non-parametric Wilcoxon Matched Pairs Method (Signed Rank Method) to compute point estimate and associated 90% confidence interval for the median difference.
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Apparent Terminal Phase Half-life (t1/2) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of t1/2. The t1/2 of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: t1/2 of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of t1/2. The t1/2 of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Percentage of AUC(0-inf) Obtained by Extrapolation (%AUCex) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of %AUCex. Percentage AUCex of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: %AUCex of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of %AUCex. Percentage AUCex of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Apparent Clearance Following Oral Dosing (CL/F) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of CL/F. CL/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: CL/F of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of CL/F. CL/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Apparent Volume of Distribution Following Oral Dosing (Vz/F) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of Vz/F. Vz/F of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: Vz/F of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of Vz/F. Vz/F of levocetirizine was calculated as by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Elimination Rate Constant (Kel) (lambda_z) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of kel. kel (lambda_z) is the first order rate constant associated with the terminal (log-linear) portion of the curve. kel of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: Kel (lambda_z) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of kel. kel (lambda_z) is the first order rate constant associated with the terminal (log-linear) portion of the curve. kel of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Mean Residence Time (MRT) of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of MRT. MRT of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 2: MRT of Levocetirizine
Description
Blood samples were collected at indicated time points for analysis of MRT. MRT of levocetirizine was calculated by standard non-compartmental analysis using the currently supported version of WinNonlin (version 6.3 or higher).
Time Frame
Pre-dose and at 0.25, 0.5, 1, 1.5, 2, 3, 4, 6, 9, 12, 16, 24, 36 and 48 hours post-dose
Title
Part 1: Number of Participants With Adverse Events (AEs) and Serious Adverse Events (SAEs)
Description
An AE is any untoward medical occurrence in a clinical study participant, temporally associated with the use of a study intervention, whether or not considered related to the study intervention. A SAE is defined as any untoward medical occurrence that, at any dose may results in death or is life-threatening or requires inpatient hospitalization or results in persistent disability/incapacity or is a congenital anomaly/birth defect or any other situation according to medical or scientific judgment.
Time Frame
Up to 18 days
Title
Part 2: Number of Participants With AEs and SAEs
Description
An AE is any untoward medical occurrence in a clinical study participant, temporally associated with the use of a study intervention, whether or not considered related to the study intervention. A SAE is defined as any untoward medical occurrence that, at any dose may results in death or is life-threatening or requires inpatient hospitalization or results in persistent disability/incapacity or is a congenital anomaly/birth defect or any other situation according to medical or scientific judgment.
Time Frame
Up to 18 days
Title
Part 1: Change From Baseline in Albumin and Total Protein Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in albumin and total protein levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Albumin and Total Protein Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in albumin and total protein levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Alkaline Phosphatase, Alanine Amino Transferase, Aspartate Amino Transferase, Creatine Kinase, Gamma Glutamyl Transferase and Lactate Dehydrogenase Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in alkaline phosphatase, alanine amino transferase, aspartate amino transferase, creatine kinase, gamma glutamyl transferase and lactate dehydrogenase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Alkaline Phosphatase, Alanine Amino Transferase, Aspartate Amino Transferase, Creatine Kinase, Gamma Glutamyl Transferase and Lactate Dehydrogenase Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in alkaline phosphatase, alanine amino transferase, aspartate amino transferase, creatine kinase, gamma glutamyl transferase and lactate dehydrogenase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Amylase Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Amylase Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in amylase levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Direct Bilirubin, Total Bilirubin, Creatinine and Uric Acid Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in direct bilirubin, total bilirubin, creatinine and uric acid levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Direct Bilirubin, Total Bilirubin, Creatinine and Uric Acid Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in direct bilirubin, total bilirubin, creatinine and uric acid levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Calcium, Cholesterol, Chloride, Glucose, High Density Lipids Cholesterol, Potassium, Low Density Lipids Cholesterol, Sodium, Phosphorus Inorganic, Triglycerides and Urea/Blood Urea Nitrogen (BUN) Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in calcium, cholesterol, chloride, glucose, high density lipids cholesterol, potassium, low density lipids cholesterol, sodium, phosphorus inorganic, triglycerides and urea/blood urea nitrogen (BUN) levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Calcium, Cholesterol, Chloride, Glucose, High Density Lipids Cholesterol, Potassium, Low Density Lipids Cholesterol, Sodium, Phosphorus Inorganic, Triglycerides and Urea/BUN Levels
Description
Blood samples were collected for the assessment of clinical chemistry parameters. Change from Baseline in calcium, cholesterol, chloride, glucose, high density lipids cholesterol, potassium, low density lipids cholesterol, sodium, phosphorus inorganic, triglycerides and urea/BUN levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Basophils, Eosinophils, Lymphocytes, Monocytes and Total Neutrophils Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in basophils, eosinophils, lymphocytes, monocytes and total neutrophils levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Basophils, Eosinophils, Lymphocytes, Monocytes and Total Neutrophils Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in basophils, eosinophils, lymphocytes, monocytes and total neutrophils levels were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Platelet Count and White Blood Cell Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in platelet count and white blood cell count were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Platelet Count and White Blood Cell Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in platelet count and white blood cell count were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Hemoglobin and Mean Corpuscle Hemoglobin Concentration
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hemoglobin and mean corpuscle hemoglobin concentration were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Hemoglobin and Mean Corpuscle Hemoglobin Concentration
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hemoglobin and mean corpuscle hemoglobin concentration were evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change Form Baseline in Hematocrit
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hematocrit was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change Form Baseline in Hematocrit
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in hematocrit was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Mean Corpuscle Hemoglobin
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle hemoglobin was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Mean Corpuscle Hemoglobin
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle hemoglobin was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Mean Corpuscle Volume
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle volume was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Mean Corpuscle Volume
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in mean corpuscle volume was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Red Blood Cell Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in red blood cell count was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Red Blood Cell Count
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in red blood cell count was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Change From Baseline in Reticulocytes
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in reticulocytes was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 2: Change From Baseline in Reticulocytes
Description
Blood samples were collected for the assessment of hematology parameters. Change from Baseline in reticulocytes was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 48 hours post-dose
Title
Part 1: Number of Participants With Urinalysis Results by Dipstick Method
Description
Urine samples were collected to assess urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen by dipstick test. The dipstick test gives results in a semi-quantitative manner, and results for urinalysis parameter of urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen can be read as negative (-), trace and 1+ indicating proportional concentrations in the urine sample. Only categories with significant values have been presented.
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 2: Number of Participants With Urinalysis Results by Dipstick Method
Description
Urine samples were collected to assess urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen by dipstick test. The dipstick test gives results in a semi-quantitative manner, and results for urinalysis parameter of urine bilirubin, urine occult blood, urine glucose, urine ketones, urine protein and urine urobilinogen can be read as negative (-), trace and 1+ indicating proportional concentrations in the urine sample. Only categories with significant values have been presented.
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 1: Urine Potential of Hydrogen (pH)
Description
Urine samples were collected for the measurement of urine pH. Urine pH is an acid-base measurement. pH is measured on a numeric scale ranging from 0 to 14; values on the scale refer to the degree of alkalinity or acidity. A pH of 7 is neutral. A pH less than 7 is acidic, and a pH greater than 7 is basic. Normal urine has a slightly acid pH (5.0 - 6.0).
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 2: Urine Potential of Hydrogen (pH)
Description
Urine samples were collected for the measurement of urine pH. Urine pH is an acid-base measurement. pH is measured on a numeric scale ranging from 0 to 14; values on the scale refer to the degree of alkalinity or acidity. A pH of 7 is neutral. A pH less than 7 is acidic, and a pH greater than 7 is basic. Normal urine has a slightly acid pH (5.0 - 6.0).
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 1: Urine Specific Gravity
Description
Urine samples were collected for the measurement of specific gravity. Urine specific gravity is a measure of the concentration of solutes in the urine and provides information on the kidney's ability to concentrate urine. The concentration of the excreted molecules determines the urine's specific gravity. The urinary specific gravity measurement is a routine part of urinalysis. The reference range is 1.002-1.030.
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 2: Urine Specific Gravity
Description
Urine samples were collected for the measurement of specific gravity. Urine specific gravity is a measure of the concentration of solutes in the urine and provides information on the kidney's ability to concentrate urine. The concentration of the excreted molecules determines the urine's specific gravity. The urinary specific gravity measurement is a routine part of urinalysis. The reference range is 1.002-1.030.
Time Frame
Pre-dose (Day 1) and 48 hours post-dose
Title
Part 1: Change From Baseline in Systolic Blood Pressure (SBP) and Diastolic Blood Pressure (DBP)
Description
Blood pressure was measured in supine position after 5 minutes rest. Change from Baseline in SBP and DBP was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 2: Change From Baseline in SBP and DBP
Description
Blood pressure was measured in supine position after 5 minutes rest. Change from Baseline in SBP and DBP was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 1: Change From Baseline in Heart Rate
Description
Heart rate was measured in supine position after 5 minutes rest. Change from Baseline in heart rate was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 2: Change From Baseline in Heart Rate
Description
Heart rate was measured in supine position after 5 minutes rest. Change from Baseline in heart rate was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 1: Change From Baseline in Body Temperature
Description
Body temperature was measured in supine position after 5 minutes rest. Change from Baseline in body temperature was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 2: Change From Baseline in Body Temperature
Description
Body temperature was measured in supine position after 5 minutes rest. Change from Baseline in body temperature was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 24, 48 hours post-dose
Title
Part 1: Change From Baseline in Heart Rate (12-Lead Electrocardiogram [ECG])
Description
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QT interval with Fridericia's correction (QTcF). Change from Baseline in heart rate (ECG) was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 48 hours post-dose
Title
Part 2: Change From Baseline in Heart Rate (ECG)
Description
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in heart rate (ECG) was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 48 hours post-dose
Title
Part 1: Change From Baseline in PR Interval, QRS Interval, QT Interval and QTcF Interval
Description
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in PR interval, QRS interval, QT interval and QTcF interval was evaluated. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 48 hours post-dose
Title
Part 2: Change From Baseline in PR Interval, QRS Interval, QT Interval and QTcF Interval
Description
Single 12-lead ECG was obtained using an ECG machine that automatically calculates the heart rate and measures PR, QRS, QT, and QTcF. Change from Baseline in PR interval, QRS interval, QT interval and QTcF interval was evaluated. Change from Baseline was calculated by subtracting Baseline value from the post-dose visit value. The Baseline value was the latest pre-dose assessment with a non-missing value, including those from unscheduled visits.
Time Frame
Baseline (Day 1, Pre-dose) and 1, 48 hours post-dose
10. Eligibility
Sex
Male
Gender Based
Yes
Gender Eligibility Description
Healthy Japanese male subjects will be part of this study.
Minimum Age & Unit of Time
20 Years
Maximum Age & Unit of Time
55 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion Criteria:
Subjects must be 20 to 55 years of age inclusive, at the time of signing the informed consent.
Japanese subjects who are overtly healthy as determined by medical evaluation including medical history, physical examination, laboratory tests, and cardiac monitoring.
Subjects with body weight of >= 50 kilogram (kg) and body mass index (BMI) within the range of >=18.5 and <25.0 kg per meter square (m^2).
In male subjects contraceptive use should be consistent with local regulations regarding the methods of contraception for those participating in clinical studies.
Male subjects are eligible to participate if they agree to the following during the intervention period and until the completion of follow-ups: Refrain from donating sperm; Be abstinent from heterosexual or homosexual intercourse as their preferred and usual lifestyle (abstinent on a long term and persistent basis) and agree to remain abstinent; Agree to use a male condom and female partner to use an additional highly effective contraceptive method with a failure rate of <1 percentage per year when having sexual intercourse with a woman of childbearing potential who is not currently pregnant; Agree to use male condom when engaging in any activity that allows for passage of ejaculate to another person.
Subjects must be non-smokers.
Subjects capable of giving signed informed consent.
Exclusion Criteria:
Subjects with history or presence of cardiovascular, respiratory, hepatic, renal, gastrointestinal, endocrine, hematological, or neurological disorders capable of significantly altering the absorption, metabolism, or elimination of drugs; constituting a risk when taking the study intervention; or interfering with the interpretation of data.
Subjects with abnormal blood pressure as determined by the investigator.
Subjects with history of allergic rhinitis.
Subjects with ALT >1.5x upper limit of normal (ULN).
Subjects with bilirubin >1.5 times ULN (isolated bilirubin >1.5 times ULN is acceptable if bilirubin is fractionated and direct bilirubin <35 percentage).
Subjects with current or chronic history of liver disease, or known hepatic or biliary abnormalities (with the exception of Gilbert's syndrome or asymptomatic gallstones).
Subjects with QTc >450 millisecond (msec).
Subjects with past or intended use of over-the-counter or prescription medication including vitamins, diet supplements (including St. John's wort), herbal medications within 14 days prior to first dosing or 5 half-lives (whichever is longer).
Exposure to more than 4 new chemical entities within 12 months prior to the first dosing day.
Current enrolment or past participation within 4 months prior to the first dosing day in this or any other clinical study involving an investigational study intervention or any other type of medical research (except for the subjects with no study intervention administered during any of those enrolment or participation).
The subject with positive serological test for syphilis (Rapid Plasma Reagin [RPR] and Treponema pallidum [TP] antibody tests), Human immunodeficiency virus (HIV) Antigen/Antibody, Hepatitis B surface antigen (HBsAg), Hepatitis C virus (HCV) antibody, or Human T-cell lymphotropic virus type 1 (HTLV-1) antibody at screening.
Subject with positive pre-study drug screen.
Subject with regular moderate alcohol consumption within 6 months prior to the study participation defined as: An average weekly intake of >14 units for males. One unit is equivalent to 360 milliliter (mL) of beer, 150 mL of wine or 45 mL of 80 proof distilled of spirits.
Smoking or history or regular use of tobacco- or nicotine-containing products within 6 months prior to screening.
Sensitivity to any of the study interventions, or components thereof, or drug or other allergy that, in the opinion of the investigator or Medical Monitor, contraindicates participation in the study.
History of donation of blood or blood products >= 400 mL within 3 months or >=200 mL within 1 month prior to the first dosing day.
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
GSK Clinical Trials
Organizational Affiliation
GlaxoSmithKline
Official's Role
Study Director
Facility Information:
Facility Name
GSK Investigational Site
City
Fukuoka
ZIP/Postal Code
812-0025
Country
Japan
12. IPD Sharing Statement
Plan to Share IPD
Yes
IPD Sharing Plan Description
IPD for this study will be made available via the Clinical Study Data Request site.
IPD Sharing Time Frame
IPD is available via the Clinical Study Data Request site (click on the link provided below)
IPD Sharing Access Criteria
Access is provided after a research proposal is submitted and has received approval from the Independent Review Panel and after a Data Sharing Agreement is in place. Access is provided for an initial period of 12 months but an extension can be granted, when justified, for up to another 12 months.
IPD Sharing URL
https://clinicalstudydatarequest.com/Posting.aspx?ID=20344
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