Alpha 1-Antitrypsin Deficiency Clinical Trial
Official title:
A Randomized, Double-blind, Parallel-group, Multicenter, Pharmacokinetic Study Comparing Weekly Intravenous Administration of OctaAlpha1 (Octapharma) With a Marketed Preparation Glassia® (Kamada Ltd.) in Subjects With Alpha-1-antitrypsin Deficiency
| Verified date | April 2018 |
| Source | Octapharma |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
This randomized trial is being conducted to show non-inferiority of OctaAlpha1 compared to Glassia® in terms of the serum trough levels at steady state. This will be conducted in individuals with alpha-1-antitrypsin deficiency and clinical evidence of emphysema.
| Status | Withdrawn |
| Enrollment | 0 |
| Est. completion date | December 2019 |
| Est. primary completion date | December 2019 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility |
Inclusion Criteria: - Any subject who needs chronic IV augmentation and maintenance therapy with A1PI because of congenital alpha-1-proteinase inhibitor (A1PI) deficiency and clinically diagnosed emphysema - =18 years of age - Individuals with A1PI serum concentration <11 µM at screening - Following bronchodilators: - Initial FEV1(pred) between 25% and 75% or - If the initial FEV1 was greater than 75% of predicted, a diffusing capacity of the lung for carbon monoxide (DLC O) less than 70% of predicted - Following bronchodilators: Initial forced expiratory volume/forced vital capacity (FEV1/FVC) ratio less than 70% - Non-smoking for at least 6 months before study treatment starts - Able to understand and provide written informed consent - Women of reproductive age: negative result of pregnancy test (human chorionic gonadotropin [HCG]-based assay) and agreement to use adequate contraception for the duration of the trial Exclusion Criteria: - Any inflammatory condition or malignant tumor in the 7 days before treatment starts that according to investigator judgment might influence the metabolism of an enzyme inhibitor such as A1PI - More than one A1PI-deficiency related exacerbation and/or hospitalization during the 3 months before study treatment starts - Clinically significant liver or kidney disease in the preceding 6 months before study treatment starts - Severe gas exchange abnormality (i.e., PaCO2 =46 mmHg) - Known IgA deficiency with documented antibodies against IgA - History of hypersensitivity to blood or plasma derived products, or any component of the product - Known presence of antibodies against A1PI - Seropositivity for HBsAg or HCV, HIV-1/2 IgG antibodies - Administration of A1PI products in the 4 weeks before study treatment starts - Participating in another clinical study currently or during the 3 months before study treatment starts. - Live viral vaccination within the last month before study treatment starts - A current life-threatening malignancy - Emergency operation within 3 months before study treatment starts - History of, or suspected, alcohol or drug abuse within 1 year before study treatment starts or currently on drug abuse therapy - Pregnant and nursing women |
| Country | Name | City | State |
|---|---|---|---|
| n/a | |||
| Lead Sponsor | Collaborator |
|---|---|
| Octapharma |
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Non-inferiority of OctaAlpha1 compared to Glassia® in terms of the serum trough levels at steady state | Non-inferiority of OctaAlpha1 compared to Glassia® in terms of the serum trough levels at steady state | 26 weeks | |
| Secondary | Compare PK parameters following a single dose between the two treatment groups following principles of bio-equivalence testing (AUC) | Compare PK parameters following a single dose between the two treatment groups calculating area under the plasma concentration-time curve (AUC)-ratio: 90% confidence interval (CI) should lie within 80%-125%. | Time period including days 1 to 14 after first infusion in study | |
| Secondary | Compare PK parameters following a single dose between the two treatment groups following principles of bio-equivalence testing (Cmax) | Compare PK parameters following a single dose between the two treatment groups calculating maximum plasma concentration (Cmax)-ratio: 90% CI should lie within 80%-125% | Time period including days 1 to 14 after first infusion in study | |
| Secondary | Compare PK parameters following a single dose between the two treatment groups following principles of bio-equivalence testing (tmax) | Compare PK parameters following a single dose between the two treatment groups calculating tmax (time to reach maximum serum concentration) | Time period including days 1 to 14 after first infusion in study | |
| Secondary | Compare PK parameters following a single dose between the two treatment groups following principles of bio-equivalence testing (t1/2) | Compare PK parameters following a single dose between the two treatment groups calculating t1/2 (apparent terminal half-life) | Time period including days 1 to 14 after first infusion in study | |
| Secondary | Compare PK parameters following a single dose between the two treatment groups following principles of bio-equivalence testing (?Z) | Compare PK parameters following a single dose between the two treatment groups calculating ?Z (apparent terminal elimination rate constant determined by log-linear regression analysis) | Time period including days 1 to 14 after first infusion in study | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on occurrence of adverse events | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on occurrence of adverse events | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on blood pressure | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on blood pressure | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on pulse | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on pulse | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on body temperature | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on body temperature | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on respiratory rate | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on respiratory rate | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter hematocrit | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter hematocrit via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter hemoglobin | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter hemoglobin via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter white blood cells | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter white blood cells via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter platelet count | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hematological parameter platelet count via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hepatic parameter alanine aminotransferase | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hepatic parameter alanine aminotransferase via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hepatic parameter aspartate aminotransferase | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring hepatic parameter aspartate aminotransferase via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring renal parameter creatinine | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring renal parameter creatinine via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring renal parameter Blood Urea Nitrogen (BUN) | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on monitoring renal parameter Blood Urea Nitrogen (BUN) via lab test | 26 weeks | |
| Secondary | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on viral safety (HAV, HBV, HCV, HIV-1/2, HN, and parvovirus B19) | Evaluate descriptively the safety and tolerability of OctaAlpha1 based on viral safety (HAV, HBV, HCV, HIV-1/2, HN, and parvovirus B19) | 26 weeks | |
| Secondary | Trough Levels of A1PI | Investigate descriptively the trough levels of A1PI and anti-NE capacity of OctaAlpha1 compared to Glassia® | 26 weeks | |
| Secondary | Pharmacodynamics of OctaAlpha1 measuring Pulmonary function tests | Investigate the pharmacodynamics of OctaAlpha1 measuring Pulmonary function tests (done according to the American Thoracic Society/European Respiratory Society Taskforce Standardisation of Lung Function Testing guideline) | 26 weeks | |
| Secondary | Investigate the pharmacodynamics of OctaAlpha1 measuring Induced sputum test measuring the amount of functional and total A1PI in the airway lining fluid of the lung. | Investigate the pharmacodynamics of OctaAlpha1 measuring Induced sputum test measuring the amount of functional and total A1PI in the airway lining fluid of the lung. | 26 weeks | |
| Secondary | Investigate the pharmacodynamics of OctaAlpha1 measuring Induced sputum test measuring the amount of functional and total LTB4 in the airway lining fluid of the lung. | Investigate the pharmacodynamics of OctaAlpha1 measuring Induced sputum test measuring the amount of functional and total LTB4 in the airway lining fluid of the lung. | 26 weeks | |
| Secondary | Investigate the pharmacodynamics of OctaAlpha1 measuring antibodies to A1PI using normal ranges of the central laboratory | Investigate the pharmacodynamics of OctaAlpha1 measuring antibodies to A1PI using normal ranges of the central laboratory | 26 weeks | |
| Secondary | Determine PK parameters of the A1PI serum concentration versus time curve following a single dose of OctaAlpha1 | Determine PK parameters of the A1PI serum concentration versus time curve following a single dose of OctaAlpha1 | 26 weeks |
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