There are 15 clinical trials
This is an open-label, multi-center study designed to extend the evaluation of the safety, tolerability, and clinical effects of oral administration of KNS-760704 in patients with ALS.
Eligible patients will receive 1 tablet of KNS-760704 150 mg every 12 hours (Q12H) (300 mg total daily dose) for up to 180 weeks. --- Q12H ---
This is a phase-II study to evaluate the efficacy of a salvage regimen in children with relapsed T-cell ALL or lymphoma. Peg-asparaginase, mitoxantrone, intrathecal triples (IT) (intrathecal methotrexate/hydrocortisone/cytarabine) (ITMHA) and dexamethasone are commonly used drugs to treat relapsed or refractory acute lymphocytic leukemia or lymphoma (ALL). In this study, the investigators want to know if adding three drugs called panobinostat, bortezomib and liposomal vincristine (VSLI) to this regimen will result in remission (no signs or symptoms of leukemia or lymphoma). - Panobinostat has been approved by the FDA for treating adults with multiple myeloma, but it has not been approved for use in children and has not been given together with the other drugs used in this study. It has not been widely studied in children. - VSLI has been approved by the FDA for adults with relapsed or refractory ALL, but has not yet been approved for treating children with leukemia or lymphoma. - Bortezomib has been approved by the FDA for treating adults with a cancer called multiple myeloma and adults with relapsed mantle cell lymphoma; it has not been approved for treating children. PRIMARY OBJECTIVE: - To estimate the complete remission (CR) rate for patients with T-cell lymphoblastic leukemia and lymphoma in first relapse. SECONDARY OBJECTIVES: - To evaluate minimal residual disease (MRD) levels at end of each block of therapy. - To describe the toxicities of vincristine sulfate liposome injection (VSLI) when used in combination with chemotherapy and bortezomib.
Additional ITs on Days 10 and 17 for patients with central nervous system (CNS) 2, 3 or traumatic tap with blasts Block B: approximately 5 weeks - High-dose methotrexate 8 g/m^2 IV over 24 hours (will not be given to patients with prior cranial irradiation) Day 1 - 6-mercaptopurine 50 mg/m^2 PO days 1-14 - ITMHA Day 1 - High-dose cytarabine 3 g/m^2 IV every 12 hours (Q12H) Days 15 and 16 Block C: approximately 3 weeks - Nelarabine 650 mg/m^2/day IV Days 1-5 (Clofarabine 40 mg/m^2/day IV Days 1-5 will be given instead of nelarabine for patients with B-lymphoblastic leukemia and lymphoma in stratum II) - Cyclophosphamide 300 mg/m^2 IV Days 1-5 - Etoposide 100 mg/m^2/day IV Days 1-5 Response evaluation is performed after the end of each treatment block. --- Q12H ---
Description: All participants who start re-induction Block A therapy are considered evaluable. Any patient who at any time point achieves CR and goes to transplant is considered as a success; or any patient who successfully reaches the end of block C and achieves/remains in CR is considered a success; all other cases are considered as failure.
Measure: Complete Remission (CR) Rate Time: At the end of each remission re-induction block C (approximately 13 weeks after start of therapy)Description: MRD will be studied after each cycle of therapy. MRD is considered as positive (i.e., prevalent) if its level is ≥0.01% for ALL. The prevalence of MRD at end of each cycle is defined as proportion of MRD positives; we will estimate these proportions with point and interval estimates.
Measure: Block A Minimal Residual Disease (MRD) Time: At the end of Block A therapy (approximately 5 weeks after start of therapy)Description: MRD will be studied after each cycle of therapy. MRD is considered as positive (i.e., prevalent) if its level is ≥0.01% for ALL. The prevalence of MRD at end of each cycle is defined as proportion of MRD positives; we will estimate these proportions with point and interval estimates.
Measure: Block B Minimal Residual Disease (MRD) Time: At the end of Block B therapy (approximately 10 weeks after start of therapy)Description: MRD will be studied after each cycle of therapy. MRD is considered as positive (i.e., prevalent) if its level is ≥0.01% for ALL. The prevalence of MRD at end of each cycle is defined as proportion of MRD positives; we will estimate these proportions with point and interval estimates.
Measure: Block C Minimal Residual Disease (MRD) Time: At the end of Block C therapy (approximately 13 weeks after start of therapy)Description: The toxicities of liposomal vincristine (VSLI) when used in combination with chemotherapy will be evaluated. Proportions (probabilities) of relevant toxicities will be estimated with point and interval estimates.
Measure: Proportion of Relevant Toxicities Time: At the completion of therapy (up to approximately 5 months after the start of therapy)The present study is designed to assess the safety and tolerability of escalating, multiple ascending doses of Cavosonstat (N91115) in healthy subjects.
Eligible subjects will be randomized in a 3:1 ratio to receive investigational medicinal product (IMP) N91115 (daily [QD] or every 12 hours [Q12H]) or matching placebo (QD or Q12H) for 7 days and will be followed for safety while housed in the clinical research unit (CRU) until discharge on Day 8. Pharmacokinetics will be followed from Study Day 1 through the morning of Study Day 8. --- Q12H ---
Eligible subjects will be randomized in a 3:1 ratio to receive investigational medicinal product (IMP) N91115 (daily [QD] or every 12 hours [Q12H]) or matching placebo (QD or Q12H) for 7 days and will be followed for safety while housed in the clinical research unit (CRU) until discharge on Day 8. Pharmacokinetics will be followed from Study Day 1 through the morning of Study Day 8. --- Q12H --- --- Q12H ---
Description: Safety assessments based on clinical evaluations, laboratory assessments, and adverse events
Measure: Incidence of Treatment-Emergent Adverse Events [Safety and Tolerability] Time: 14 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in urine.
Measure: Pharmacokinetic parameters of N91115 and metabolites (Amount of analyte excreted in the urine [Ae]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in urine.
Measure: Pharmacokinetic parameters of N91115 and metabolites (% analyte excreted in the urine [Fe]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (area under the curve [AUC]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (maximum concentration [Cmax]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in urine and plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (clearance [CL]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (accumulation index [Racc]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (Terminal elimination half-life [t1/2]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (time of maximum concentration [Tmax]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (metabolite to parent exposure ratio [M/P ratio]) Time: 7 daysDescription: Pharmacokinetic parameter of N91115 and metabolites will be measured in plasma.
Measure: Pharmacokinetic parameters of N91115 and metabolites (terminal elimination rate constant [lambda z]) Time: 7 daysDengue fever is an acute febrile illness transmitted by mosquitoes, which affects half the world's population. There are 96 million symptomatic infections, 500,0000 hospitalisations and 25,000 deaths per year attributed to the disease. The economic burden is $12 billion. In Singapore, as elsewhere, the incidence of the disease continues to increase despite aggressive control measures. At present there are no approved medicines for treating dengue fever. Only supportive fluid replacement therapy is used to treat vascular leakage in patients with severe illness. Therefore there is an urgent need to find alternative treatments. Experiments in the laboratory have shown that Celgosivir and modipafant inhibit dengue virus and improve mouse survival. Both drugs have previously been used in humans with good safety records, so investigators are taking this one step further to find out how well it works in dengue patients. Investigators plan to enroll dengue patients within 48 hours of fever onset and assign them to one of four treatment groups over five days. Together with the support from the industry partner, 60°Pharmaceuticals PLC, the investigators will determine the safety and effectiveness of these drugs on acute dengue patients and pave the way forward for dengue antiviral medicines to reach patients.
If a signal is detected, a sample size calculation will be undertaken for Part 2. The Sponsor will convene a Scientific Advisory Board (SAB) who will then review unblinded log10 serum viral load AUC for viraemia and platelet count data to recommend which dosing monotherapy dosing regimen to advance to Part 2. If the recommended sample size for Part 2 exceeds the maximum specified for Part 1 and 2 (a total combined sample size of N = 132 participants) for a monotherapy, the Sponsor will submit a major amendment for Institutional Review Board/ Health Science Authority (IRB/HSA) consideration prior to initiating Part 2. For Part 2, up to 60 otherwise healthy participants with uncomplicated dengue fever meeting the inclusion/exclusion criteria will be assigned in a randomised double-blind fashion to: - Cohort 5: (i) celgosivir monotherapy 150 mg Q6H, OR (ii) modipafant monotherapy (either 50 mg Q12H or 100 mg Q12H) - Cohort 6: Placebo extension for 5 days of treatment. --- Q12H ---
If a signal is detected, a sample size calculation will be undertaken for Part 2. The Sponsor will convene a Scientific Advisory Board (SAB) who will then review unblinded log10 serum viral load AUC for viraemia and platelet count data to recommend which dosing monotherapy dosing regimen to advance to Part 2. If the recommended sample size for Part 2 exceeds the maximum specified for Part 1 and 2 (a total combined sample size of N = 132 participants) for a monotherapy, the Sponsor will submit a major amendment for Institutional Review Board/ Health Science Authority (IRB/HSA) consideration prior to initiating Part 2. For Part 2, up to 60 otherwise healthy participants with uncomplicated dengue fever meeting the inclusion/exclusion criteria will be assigned in a randomised double-blind fashion to: - Cohort 5: (i) celgosivir monotherapy 150 mg Q6H, OR (ii) modipafant monotherapy (either 50 mg Q12H or 100 mg Q12H) - Cohort 6: Placebo extension for 5 days of treatment. --- Q12H --- --- Q12H ---
Description: Area under the curve (AUC) for serum viral load from baseline to Study Day 5 of Celgosivir dosing
Measure: Viral load AUC for viremia Time: Day 1 to Day 5Description: Lowest platelet count recorded from baseline to Study Day 5 of Modipafant dosing
Measure: Platelet nadir Time: Day 1 to Day 5Description: The time from the start of treatment to the start of the first 24-hour period during which the tympanic or oral temperature remains below 37.5°C
Measure: Fever clearance time (days) Time: Day 1 to 28Description: A 24-hour reduction in duration of illness that is treatment related is deemed clinically relevant. Draft criteria to support this include: Absence of fever (< 37.4˚C) for at least 24 hours
Measure: Duration of illness Time: Day 1 to 28Description: Determined by comparison of the maximum haematocrit detected in the acute phase as compared to baseline
Measure: Maximum percentage haemoconcentration Time: Day 1 to 28This is a 6-week randomized, double-blind trial of 4 different non-steroidal anti-inflammatory drugs in patients with axial spondyloarthritis to compare the change of pain score from baseline at 4 weeks to the change of pain score from baseline at 6 weeks.
Ankylosing Spondylitis Axial Spondyloarthritis Spondylitis Spondylitis, Ankylosing Spondylarthritis Patients with ankylosing spondylitis or axial spondyloarthritis who fulfills the inclusion and exclusion criteria will be randomized into one of the four arms after an initial one week washout period, including: 1) indomethacin 75mg every 12 hours (Q12H); 2) diclofenac 75mg Q12H; 3) meloxicam 7.5mg Q12H; 4) celecoxib 200mg Q12H. --- Q12H ---
Ankylosing Spondylitis Axial Spondyloarthritis Spondylitis Spondylitis, Ankylosing Spondylarthritis Patients with ankylosing spondylitis or axial spondyloarthritis who fulfills the inclusion and exclusion criteria will be randomized into one of the four arms after an initial one week washout period, including: 1) indomethacin 75mg every 12 hours (Q12H); 2) diclofenac 75mg Q12H; 3) meloxicam 7.5mg Q12H; 4) celecoxib 200mg Q12H. --- Q12H --- --- Q12H ---
Ankylosing Spondylitis Axial Spondyloarthritis Spondylitis Spondylitis, Ankylosing Spondylarthritis Patients with ankylosing spondylitis or axial spondyloarthritis who fulfills the inclusion and exclusion criteria will be randomized into one of the four arms after an initial one week washout period, including: 1) indomethacin 75mg every 12 hours (Q12H); 2) diclofenac 75mg Q12H; 3) meloxicam 7.5mg Q12H; 4) celecoxib 200mg Q12H. --- Q12H --- --- Q12H --- --- Q12H ---
Ankylosing Spondylitis Axial Spondyloarthritis Spondylitis Spondylitis, Ankylosing Spondylarthritis Patients with ankylosing spondylitis or axial spondyloarthritis who fulfills the inclusion and exclusion criteria will be randomized into one of the four arms after an initial one week washout period, including: 1) indomethacin 75mg every 12 hours (Q12H); 2) diclofenac 75mg Q12H; 3) meloxicam 7.5mg Q12H; 4) celecoxib 200mg Q12H. --- Q12H --- --- Q12H --- --- Q12H --- --- Q12H ---
Description: Change of pain score by numerical rating score from baseline [scale range: 0 (better) -10 (worse)]
Measure: Change of Pain Score Time: Baseline, Week 4, and Week 6Description: Change of BASDAI by numerical rating score from baseline [scale range: 0 (better) -10 (worse)]
Measure: Change of Bath Ankylosing Spondylitis Disease Activity Index (BASDAI) Time: Baseline, Week 4, and Week 6Description: Change of BASFI by numerical rating score from baseline [scale range: 0 (better) -10 (worse)]
Measure: Change of Bath Ankylosing Spondylitis Function Index (BASFI) Time: Baseline, Week 4, and Week 6Description: Change of ASDAS by numerical rating score from baseline [scale range: 0 (better) -10 (worse)]
Measure: Change of ASAS Endorsed Disease Activity Score (ASDAS) Time: Baseline, Week 4, and Week 6Description: Likert Scale on whether effective or not.
Measure: Patient Global Assessment of Response to Therapy (PGART) Time: Week 6This phase II trial studies how well venetoclax, SL-401, and chemotherapy works in treating patients with blastic plasmacytoid dendritic cell neoplasm. Venetoclax may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. SL-401 is a recombinant protein consisting of IL-3 linked to a toxic agent called DT. IL-3 attaches to IL-3 receptors on tumor cells in a targeted way and delivers DT to kill them. Drugs used in chemotherapy work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving venetoclax and SL-401 with chemotherapy may be an effective treatment for patients with blastic plasmacytoid dendritic cell neoplasm.
HYPER-CVAD (AGE < 60): Patients receive cyclophosphamide IV over 3 hours every 12 hours (Q12H) on days 1-3, vincristine IV over 15 minutes on days 1 and 8, dexamethasone orally (PO) or IV over 30 minutes on days 1-4 and 11-14, and doxorubicin IV over 24 hours on day 4. MINI-HYPER-CVD (AGE >= 60): Patients receive cyclophosphamide IV over 3 hour Q12H on days 1-3, vincristine IV over 15 minutes on days 1 and 8, dexamethasone PO or IV over 30 minutes on days 1-4 and 11-14. --- Q12H ---
HYPER-CVAD (AGE < 60): Patients receive cyclophosphamide IV over 3 hours every 12 hours (Q12H) on days 1-3, vincristine IV over 15 minutes on days 1 and 8, dexamethasone orally (PO) or IV over 30 minutes on days 1-4 and 11-14, and doxorubicin IV over 24 hours on day 4. MINI-HYPER-CVD (AGE >= 60): Patients receive cyclophosphamide IV over 3 hour Q12H on days 1-3, vincristine IV over 15 minutes on days 1 and 8, dexamethasone PO or IV over 30 minutes on days 1-4 and 11-14. --- Q12H --- --- Q12H ---
Patients may receive rituximab IV over 4-6 hours on days 1 and 8, cytarabine IT on day 5, and/or methotrexate IT on day 8. MTX/ARAC (AGE < 60): Patients receive methotrexate IV over 24 hours on day 1, and cytarabine IV over 3 hours Q12H on days 2 and 3. MINI-MTX/ARAC (AGE >= 60): Patients receive methotrexate IV over 24 hours on day 1, methylprednisolone IV over 2 hours Q12H on days 1-3, and cytarabine IV over 3 hours Q12H on days 2 and 3. ALL CYCLES: Treatment repeats every 28 days for 8 cycles in the absence of disease progression and unacceptable toxicity. --- Q12H ---
Patients may receive rituximab IV over 4-6 hours on days 1 and 8, cytarabine IT on day 5, and/or methotrexate IT on day 8. MTX/ARAC (AGE < 60): Patients receive methotrexate IV over 24 hours on day 1, and cytarabine IV over 3 hours Q12H on days 2 and 3. MINI-MTX/ARAC (AGE >= 60): Patients receive methotrexate IV over 24 hours on day 1, methylprednisolone IV over 2 hours Q12H on days 1-3, and cytarabine IV over 3 hours Q12H on days 2 and 3. ALL CYCLES: Treatment repeats every 28 days for 8 cycles in the absence of disease progression and unacceptable toxicity. --- Q12H --- --- Q12H ---
Patients may receive rituximab IV over 4-6 hours on days 1 and 8, cytarabine IT on day 5, and/or methotrexate IT on day 8. MTX/ARAC (AGE < 60): Patients receive methotrexate IV over 24 hours on day 1, and cytarabine IV over 3 hours Q12H on days 2 and 3. MINI-MTX/ARAC (AGE >= 60): Patients receive methotrexate IV over 24 hours on day 1, methylprednisolone IV over 2 hours Q12H on days 1-3, and cytarabine IV over 3 hours Q12H on days 2 and 3. ALL CYCLES: Treatment repeats every 28 days for 8 cycles in the absence of disease progression and unacceptable toxicity. --- Q12H --- --- Q12H --- --- Q12H ---
Description: The median PFS time will be estimated by Bayesian posterior estimates. Estimated using the Kaplan-Meier method.
Measure: Progression free survival (PFS) Time: Up to 6 yearsDescription: Will be reported by type, frequency and severity. Highest toxicity grades per patient per course will be tabulated for selected adverse events and laboratory measurements.
Measure: Incidence of adverse events Time: Up to 6 yearsDescription: Overall response rate along with complete remission and complete remission with incomplete hematologic recovery will be estimated along with 95% confidence interval.
Measure: Overall response rate Time: Up to 6 yearsDescription: The response rate will be compared between subgroups (e.g. minimal residual disease negativity, etc.) by Fisher's exact test, and Wilcoxon rank test will be used to compare the patient clinical information (e.g., protein expression) between subgroups such as response and non-response.
Measure: Rate of stem cell transplant Time: Up to 6 yearsThis is a Phase 1 open-label, randomized, two-period, crossover study to evaluate the effect of repeated oral doses of SCY-078 (Ibrexafungerp) on the pharmacokinetics of dabigatran administered orally to healthy subjects.
Treatment B: Twice daily (BID), every 12 hours (Q12H) oral doses of SCY-078 750mg on Day and Day 2; and single oral AM doses of SCY-078 750mg on Day 3 and Day. --- Q12H ---
Description: AUC0-48 of DAB when taken with SCY-078
Measure: Pharmacokinetics of DAB administered with SCY-078, AUC Time: 17 daysDescription: Cmax DAB when taken with SCY-078.
Measure: Pharmacokinetics of DAB administered with SCY-078, Cmax Time: 17 daysDescription: Tmax of DAB when taken with SCY-078.
Measure: Pharmacokinetics of DAB administered with SCY-078, Tmax Time: 17 daysDescription: Half Life of DAB when taken with SCY-078.
Measure: Pharmacokinetics of DAB administered with SCY-078, Half Life Time: 17 DaysDescription: Incidence of treatment-related adverse events (AE) and discontinuations due to (AEs)
Measure: Safety and tolerability of oral dosing of combination of DAB with SCY-078 Time: 7 weeksPatients with documented moderate COVID-19 infection will be randomized 1:1 to receive piclidenoson 2 mg Q12H orally with standard supportive care (SSC - intervention arm) or placebo orally with SSC (control arm) for up to 28 days.
Piclidenoson for Treatment of COVID-19 Patients with documented moderate COVID-19 infection will be randomized 1:1 to receive piclidenoson 2 mg Q12H orally with standard supportive care (SSC - intervention arm) or placebo orally with SSC (control arm) for up to 28 days. --- Q12H ---
Exclusion Criteria 1. Severe illness, including any of the following: - Respiratory rate >30 breaths/minute; or - SpO2 ≤93% on room air at sea level; or - Ratio of arterial partial pressure of oxygen to fraction of inspired oxygen (PaO2/FiO2) <300; or - Lung infiltrates >50% of pulmonary volume on imaging 2. Critical illness, including any of the following: - Respiratory failure; or - Septic shock; or - Multiple organ dysfunction 3. Participation in another clinical trial concurrently 4. Concurrent treatment with immunomodulators or anti-rejection drugs 5. Nursing women, pregnant women, women of childbearing potential who do not want adequate contraception 6. History of any of the following diseases or conditions: - Advanced or decompensated liver disease (including presence or history of bleeding varices, ascites, encephalopathy, or hepato-renal syndrome) - Inability to swallow tablets, or gastrointestinal disease which could interfere with the absorption of piclidenoson - Any malignancy within 5 years before screening; exceptions are superficial dermatologic malignancies (e.g., squamous cell or basal cell skin cancer treated with curative intent) - Cardiomyopathy, significant ischemic cardiac or cerebrovascular disease (including history of angina, myocardial infarction, or interventional procedure for coronary artery disease), or cardiac rhythm disorder - QTcF interval on an average of triplicate ECGs >450 milliseconds (msec) for males or >470 msec for females (except when QT prolongation is associated with right or left bundle branch block, in which case enrollment is allowed) - Any condition which increases proarrhythmic risk, including hypokalemia, hypomagnesemia, congenital Long QT Syndrome - Ongoing or planned use of a concomitant medication that is on the CredibleMeds list of drugs known to cause Torsades de Pointes unless the subject can be screened and monitored under the guidelines proposed by Giudicessi (2020) - Pancreatitis - Severe or uncontrolled psychiatric disorder, e.g., depression, manic condition, psychosis, acute and/or chronic cognitive dysfunction, suicidal behavior, and relapse of substance abuse - Active seizure disorder defined by either an untreated seizure disorder or continued seizure activity within the preceding year despite treatment with anti-seizure medication - Bone marrow or solid organ transplantation - Any serious condition that, in the opinion of the investigator, would preclude evaluation of response or make it unlikely that the contemplated course of therapy and follow-up could be completed 7. Any of the following abnormal laboratory tests: - Platelet count <90,000 cells/mm3 - Absolute neutrophil count (ANC) <1,500 cells/mm3 - Estimated creatinine clearance (CrCl) <50 mL/min by Cockroft-Gault formulation - Bilirubin level ≥2.5 mg/dL unless due to Gilbert's syndrome - AST or ALT level ≥3X the upper limit of normal - Serum albumin level <3.0 g/dL - International normalized ratio (INR) ≥1.5 (except subjects maintained on anticoagulant medications) COVID-19 Coronavirus Infection Coronavirus Infections Severe Acute Severe Acute Respiratory Syndrome This is a randomized, double-blind, placebo-controlled, pilot trial of piclidenoson 2 mg Q12H added to SSC, compared to placebo plus SSC, in a population of hospitalized subjects with "Moderate" COVID-19 per U.S. National Institutes of Health (NIH) Coronavirus Disease 2019 (COVID-19) Treatment Guidelines (2020). --- Q12H ---
Description: Proportion of subjects alive and free of respiratory failure (defined as need for non-invasive or invasive mechanical ventilation, high-flow oxygen, or extracorporeal membrane oxygenation) at Day 29
Measure: Proportion of subjects alive and free of respiratory failure Time: 29 daysDescription: Proportion of subjects alive and discharged to home without need for supplemental oxygen at Day 29
Measure: Proportion of subjects discharged home alive Time: 29 daysDescription: Proportion of patients experiencing AEs
Measure: Treatment-emergent adverse events (AEs) Time: 29 daysDescription: • Clinical status at Day 29 on NIAID 8-point ordinal scale (NIH 2020): Not hospitalized, no limitations Not hospitalized, with limitations Hospitalized, no active medical problems Hospitalized, not on oxygen Hospitalized, on oxygen Hospitalized, on high-flow oxygen or noninvasive mechanical ventilation Hospitalized, on mechanical ventilation or ECMO Death
Measure: Clinical status Time: 29 daysDescription: Time (days) to improvement of 2 points on 7-point ordinal clinical scale
Measure: Time to improvement Time: 29 daysDescription: Proportion of patients who require mechanical ventilation
Measure: Incidence of mechanical ventilation Time: 29 daysDescription: Ventilator-free days to Day 29
Measure: Ventilator-free days Time: 29 daysDescription: Proportion of patients who require ICU admission
Measure: Incidence of Intensive Care Unit (ICU) admission Time: 29 daysDescription: Duration (days) of ICU stay
Measure: Duration of ICU stay Time: 29 daysDescription: Time (days) to hospital discharge
Measure: Time to hospital discharge Time: 29 daysDescription: Duration (days) of need for supplemental oxygen
Measure: Duration of need for supplemental oxygen Time: 29 daysDescription: Time (days) to virus negativity by RT-PCR, defined as absence of SARS CoV 2 on 2 consecutive days of sampling
Measure: Time to virus negativity Time: 29 daysDescription: SARS-CoV-2 viral load (number of copies) by quantitative RT-PCR
Measure: SARS-CoV-2 viral load Time: 29 daysDescription: Proportion of patients experiencing AEs leading to early discontinuation of trial treatment
Measure: AEs leading to withdrawal Time: 29 daysDescription: Proportion of patients experiencing SAEs
Measure: Treatment-emergent serious AEs (SAEs) Time: 29 daysDescription: Proportion of patients experiencing treatment-emergent changes in clinical laboratory parameters or ECGs
Measure: Treatment-emergent abnormalities in clinical laboratory parameters or electrocardiograms (ECGs) Time: 29 daysDescription: Proportion of patients who meet study safety-related stopping rules
Measure: Incidence of meeting safety-related stopping rules Time: 29 daysDescription: Plasma concentrations over time of piclidenoson
Measure: Pharmacokinetics of piclidenoson in this patient population Time: 5 daysDescription: Change from baseline in serum concentrations of cytokines
Measure: Serum cytokine levels Time: 29 daysA study for women with ovarian cancer that has returned at least 6 months after platinum-based chemotherapy.
The MTD is defined as the highest dose level at which no more than 33% of patients experience a DLT during Cycle 1 that does not exceed the single-agent MTD for LY2228820 (300 mg Q12H).. Phase 2: Progression-free Survival (PFS) in Participants Treated With LY2228820 Plus Gemcitabine and Carboplatin Versus Placebo Plus Gemcitabine and Carboplatin. --- Q12H ---
Description: Recommended Phase 2 dose of LY2228820 that could be safely administered in combination with gemcitabine and carboplatin based on defined dose limiting toxicities (DLT) assessment and MTD definition. The MTD is defined as the highest dose level at which no more than 33% of patients experience a DLT during Cycle 1 that does not exceed the single-agent MTD for LY2228820 (300 mg Q12H).
Measure: Phase 1b: Recommended Phase 2 Dose of LY2228820 in Combination With Gemcitabine and Carboplatin (Maximum Tolerated Dose [MTD]) Time: Cycle 1 (21 Days)Description: PFS was defined as time from date of randomization to the date of investigator-determined objective progression as defined by Response Evaluation Criteria in Solid Tumors (RECIST) v1.1 or death due to any cause, whichever occurred first. Progressive disease (PD) is defined as at least a 20% increase in the sum of the largest diameter (LD) of target lesions, taking as reference the smallest sum LD recorded since the treatment started or the appearance of one or more new lesions.
Measure: Phase 2: Progression-free Survival (PFS) in Participants Treated With LY2228820 Plus Gemcitabine and Carboplatin Versus Placebo Plus Gemcitabine and Carboplatin Time: Randomization to Date of Disease Progression or Death from any cause (up to 3 years)Description: Overall Response Rate was estimated as the percentage of participants with best response of Complete Response (CR) or Partial Response (PR), based on RECIST version 1.1 divided by the total number of randomized participants. CR is defined as disappearance of all target lesions. PR is defined as at least 30% disease in the sum of the largest diameter (LD) of target lesions, taking as reference the baseline sum LD.
Measure: Phase 2: Percentage of Participants Who Achieve Complete Response or Partial Response (Overall Response Rate) Time: Baseline to Disease Progression (up to 3 years)Description: Data presented are the median overall survival in months for participants in the Phase 2 treatment arms.
Measure: Phase 2: Overall Survival Time: Baseline to Date of Death from any cause (up to 5 years)Description: PK parameters after administration of LY2228820 for both Phase 1b and Phase 2.
Measure: Phase 1b and 2: Pharmacokinetics (PK): Area Under the Concentration Versus Time Curve From Time Zero to 8 Hours (AUC 0-8) of LY2228820 Time: Phase1b:Cycle(C)1 Day(D)1:Predose(PRD),0.5,1,2,4,6,8 hours(hr)postdose(PD); C1D10:PRD,0.5,1,2,8hrPD; C2D10:PRD,0.5,1,2,4,6,8,12hrPD; C7D3:PRD,0.5,1,2,4,6hrPD; Phase 2: C1D3:PRD,0.5,1,2,4,6,8hrPD; C1D10:PRD,0.5,1,2,4,6,8hrPD; C7D3:PRD,0.5,1,2,4,6,8hrPDDescription: The Functional Assessment of Cancer Therapy-Ovarian Cancer (FACT-O) instrument measures health related quality of life (HRQoL) in participants with ovarian cancer. The instrument is organized into sections of physical, social/family, emotional, functional well-being and ovarian subscales with a 5-point rating scale in which 0 = "not at all" and 4 = "very much." Data presented here are change from baseline at follow-up in the FACT-O Total Score. The total score is the sum of Physical Well Being (PWB) + Social Well-being (SWB) + Emotional Well Being (EWB) + Family Well-being (FWB) + Ovarian Cancer Subscale (OCS). The FACT-O Total score range 0 - 152 with higher scores indicating better quality of life.
Measure: Phase 2: Change From Baseline in Functional Assessment of Cancer Therapy-Ovarian Cancer (FACT-O) Total Score Time: Baseline, Study Completion (up to 3 years)PF-06427878 is a new compound proposed for the treatment of hyperlipidemia. The primary purpose of this study is to evaluate the safety, tolerability, and pharmacokinetics of multiple oral doses of PF-06427878 in healthy adult subjects.
Maximum Observed Plasma Concentration (Cmax) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 1. null. --- Q12H ---
Maximum Observed Plasma Concentration (Cmax) for PF-06427878during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 12. null. --- Q12H ---
Time to Reach Maximum Observed Plasma Concentration (Tmax) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 1. null. --- Q12H ---
Time to Reach Maximum Observed Plasma Concentration (Tmax) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 12. null. --- Q12H ---
Time to Reach Maximum Observed Plasma Concentration (Tmax) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Area Under the Curve for PF-06427878 during the dosing interval (AUCtau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 1. null. --- Q12H ---
Area Under the Curve for PF-06427878 during the dosing interval (AUCtau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 12. null. --- Q12H ---
Area Under the Curve for PF-06427878 during the dosing interval (AUCtau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Plasma Decay Half-Life (t1/2) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Apparent Volume of Distribution (Vz/F) of PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Apparent Oral Clearance (CL/F) of PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Minimum Observed Plasma Concentration (Cmin) for PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Peak:Trough ratio of PF-06427878 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Accumulation ratio for Maximum Observed Plasma Concentration (Rac(Cmax)) for PF-06427878 on day14 relative to day 1 during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD. --- Q12H ---
Amount of PF-06427878 excreted in urine (Ae) during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Percent of dose excreted in urine as PF-06427878 (Ae%) during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
Renal clearance of PF-06427878 (CLr) during the dosing interval (tau), ie, 0-8H for Q8H, 0-12H for Q12H, and 0-24H for QD, on day 14. --- Q12H ---
This phase III trial compares standard chemotherapy to therapy with CPX-351 and/or gilteritinib for patients with newly diagnosed acute myeloid leukemia with or without FLT3 mutations. Drugs used in chemotherapy, such as daunorubicin, cytarabine, and gemtuzumab ozogamicin, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. CPX-351 is made up of daunorubicin and cytarabine and is made in a way that makes the drugs stay in the bone marrow longer and could be less likely to cause heart problems than traditional anthracycline drugs, a common class of chemotherapy drug. Some acute myeloid leukemia patients have an abnormality in the structure of a gene called FLT3. Genes are pieces of DNA (molecules that carry instructions for development, functioning, growth and reproduction) inside each cell that tell the cell what to do and when to grow and divide. FLT3 plays an important role in the normal making of blood cells. This gene can have permanent changes that cause it to function abnormally by making cancer cells grow. Gilteritinib may block the abnormal function of the FLT3 gene that makes cancer cells grow. The overall goals of this study are, 1) to compare the effects, good and/or bad, of CPX-351 with daunorubicin and cytarabine on people with newly diagnosed AML to find out which is better, 2) to study the effects, good and/or bad, of adding gilteritinib to AML therapy for patients with high amounts of FLT3/ITD or other FLT3 mutations and 3) to study changes in heart function during and after treatment for AML. Giving CPX-351 and/or gilteritinib with standard chemotherapy may work better in treating patients with acute myeloid leukemia compared to standard chemotherapy alone.
TREATMENT FOR PATIENTS WITHOUT FLT3 MUTATIONS: ARM A LOW RISK GROUP 1: INDUCTION 1: Patients receive cytarabine intravenously (IV) over 1-30 minutes every 12 hours (Q12H) on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H ---
Patients also receive cytarabine IV over 1-30 minutes Q12H on days 1-8 and dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5. INTENSIFICATION 1: Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H and etoposide IV over 90-120 minutes on days 1-5. --- Q12H ---
Patients also receive cytarabine IV over 1-30 minutes Q12H on days 1-8 and dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5. INTENSIFICATION 1: Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H and etoposide IV over 90-120 minutes on days 1-5. --- Q12H --- --- Q12H ---
INTENSIFICATION 2: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi intramuscularly (IM) or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM B LOW RISK GROUP 1: INDUCTION 1: Patients receive CPX-351 IV over 90 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H ---
Patients also receive CPX-351 IV over 90 minutes on days 1, 3, and 5. INTENSIFICATION 1: Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H and etoposide IV over 90-120 minutes on days 1-5. --- Q12H ---
INTENSIFICATION 2: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM A LOW RISK GROUP 2: INDUCTION 1: Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H ---
INTENSIFICATION 2: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM A LOW RISK GROUP 2: INDUCTION 1: Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H --- --- Q12H ---
INTENSIFICATION 2: Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H on days 1-4 and dexrazoxane IV over 5-15 minutes and mitoxantrone hydrochloride (mitoxantrone) IV over 5-15 minutes on days 3-6. --- Q12H ---
INTENSIFICATION 3: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM B LOW RISK GROUP 2: INDUCTION 1: Patients receive CPX-351 IV over 90 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H ---
INTENSIFICATION 3: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM A HIGH RISK GROUP: INDUCTION 1: Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H ---
INTENSIFICATION 3: Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9. Patients also receive asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9. ARM A HIGH RISK GROUP: INDUCTION 1: Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gemtuzumab ozogamicin IV over 2 hours on day 6. --- Q12H --- --- Q12H ---
TREATMENT FOR PATIENTS WITH FLT3/ITD MUTATIONS (ITD AR > 0.1): ARM AC LOW RISK GROUP 2: CONTINUED INDUCTION 1 (WITH GILTERITINIB): Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, gemtuzumab ozogamicin IV over 2 hours on day 6, and gilteritinib orally (PO) once daily (QD) on days 11-31. --- Q12H ---
Patients also receive cytarabine IV over 1-30 minutes Q12H on days 1-8, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, and gilteritinib PO QD on days 11-38. --- Q12H ---
INTENSIFICATION 1 (WITH GILTERITINIB): Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H and etoposide IV over 90-120 minutes on days 1-5, and gilteritinib PO QD on days 6-33. --- Q12H ---
INTENSIFICATION 2 (WITH GILTERITINIB): Patients receive methotrexate IT, hydrocortisone IT, and cytarabine IT on day 0. Patients also receive high-dose cytarabine IV over 1-3 hours Q12H on days 1-4, dexrazoxane IV over 5-15 minutes and mitoxantrone IV over 5-15 minutes on days 3-6, and gilteritinib PO QD on days 7-34. --- Q12H ---
INTENSIFICATION 3 (WITH GILTERITINIB): Patients receive high-dose cytarabine IV over 3 hours Q12H on days 1, 2, 8, and 9, asparaginase Erwinia chrysanthemi IM or IV over 1-2 hours and asparaginase IM or IV over 30 minutes on days 2 and 9, and gilteritinib PO QD on days 10-37. --- Q12H ---
ARM AC HIGH RISK GROUP: CONTINUED INDUCTION 1 (WITH GILTERITINIB): Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, gemtuzumab ozogamicin IV over 2 hours on day 6, and gilteritinib orally (PO) once daily (QD) on days 11-31. --- Q12H ---
TREATMENT FOR NON-ITD FLT3 ACTIVATING MUTATIONS: ARM AD LOW RISK GROUP 2: CONTINUED INDUCTION 1 (WITH GILTERITINIB): Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, gemtuzumab ozogamicin IV over 2 hours on day 6, and gilteritinib orally (PO) once daily (QD) on days 11-31. --- Q12H ---
ARM AD HIGH RISK GROUP: CONTINUED INDUCTION 1 (WITH GILTERITINIB): Patients receive cytarabine IV over 1-30 minutes Q12H on days 1-10, dexrazoxane IV over 5-15 minutes and daunorubicin IV over 1-15 minutes on days 1, 3, and 5, gemtuzumab ozogamicin IV over 2 hours on day 6, and gilteritinib orally (PO) once daily (QD) on days 11-31. --- Q12H ---
Description: The Kaplan-Meier method will be used to estimate 3-year EFS, defined as the time from study entry until induction failure, relapse, secondary malignancy, or death.
Measure: Event-free survival (EFS) Time: Up to 3 yearsDescription: The Kaplan-Meier method will be used to estimate 3-year OS, defined as the time from study entry until death.
Measure: Overall survival (OS) Time: Up to 3 yearsDescription: The proportion of patients MRD+ at end of induction 1 (EOI1) will be estimated as the number of patients MRD+ divided by the number of patients with evaluable EOI1 MRD results along with a corresponding 95% confidence interval determined using a binomial exact method.
Measure: Proportion of patients positive for minimal residual disease (MRD+) Time: Up to 4 weeksDescription: The proportion of patients who died during protocol therapy will be estimated along with the corresponding 95% confidence interval determined using a binomial exact method.
Measure: Proportion of patients who died during protocol therapy Time: Up to 2 yearsDescription: Cumulative incidence estimates will be used to determine the 3 year relapse rate defined as time from study entry to induction failure or relapse where deaths or secondary malignancies are competing events.
Measure: Relapse rate Time: Up to 3 yearsDescription: Cumulative incidence estimates will be used to determine the 3 year TRM defined as time from study entry to death where induction failure, relapse or secondary malignancies are competing events.
Measure: Treatment-related mortality rate (TRM) Time: Up to 3 yearsDescription: The proportion of patients experiencing at least one grade 3 or higher non-hematologic toxicity and infection while on protocol therapy will be estimated along with the corresponding 95% confidence interval determined using a binomial exact method. Toxicity will be assessed by Common Terminology Criteria for Adverse Events version 5.0 (CTCAE v5.0).
Measure: Incidence of adverse events Time: Up to 2 yearsDescription: Median and range of the length of course duration will be determined.
Measure: Course duration Time: Up to 2 yearsDescription: Median and range of the length of hospitalization time during protocol therapy will be determined.
Measure: Length of hospitalization Time: Up to 2 yearsDescription: Cumulative incidence estimates that account for competing events will be used to estimate time to count recovery in days where deaths are competing events.
Measure: Time to count recovery Time: Up to 2 yearsThe purpose of this study is to determine the most suitable dose of Fludrocortisone in reversal of sepsis and shock associated with sepsis in patients who are admitted to the ICU. The investigators will be looking to see whether patients receiving Fludrocortisone at different doses recover quicker and spend less time in hospital and in ICU, and to understand the reasons why this happens at certain doses. Sepsis is caused by toxic substances (toxins) from bacteria and other organism entering the bloodstream from a site of infection. In some people, the infection can progress to sepsis and septic shock where the functions of organs in the body are affected. Patients suffering from sepsis and septic shock are commonly managed in the intensive care unit (ICU) where they are prescribed antibiotics as standard therapy, as well as other therapies to support the functions of the body. Fludrocortisone is a steroid that has previously shown to be beneficial to help in shock in patients in ICU, but more information is required about the exact dose that is required to achieve this. This has been shown by previous research. However, the exact role of Fludrocortisone and the best dose has not been studied adequately to date as well as the ways in how it works within the body. The study aims to look tat the dose and the way it works.
300 patients will be recruited and randomised to enteral doses of 50mcg fludrocortisone Q24H, Q12H, Q6H or to the control arm of the study. --- Q24H --- --- Q12H ---
Description: To the assess the time it takes for shock to resolve in each intervention arm
Measure: Time to resolution of shock by Intervention group allocation Time: 7 DAYSDescription: Assess the levels of fludrocortisone in the interventional groups at time of resolution of shock
Measure: Time to resolution of shock and Fludrocortisone Levels Time: 7 daysDescription: Area under the curve of vasopressor dose in each intervention arm
Measure: Vasopressor Responsiveness by Intervention group allocation Time: 7 daysDescription: Area under the curve of vasopressor dose associated with fludrocortisone levels
Measure: Vasopressor Responsiveness and Fludrocortisone Levels Time: 7 daysDescription: Time between a new episode of shock after reversal of the initial episode
Measure: Recurrence of shock Time: censored at day 28Description: Number of Days that are without ventilation during admission
Measure: Ventilation free days Time: censored at day 28Description: Total number of days in ICU and in hospital for the index admission
Measure: ICU and hospital length of Stay Time: censored at day 28Description: The number of deaths that are recorded in participants and the location of the deaths when in hospital - ICU or ward. This will include cause of death
Measure: ICU and hospital mortality Time: censored at day 28Description: Baseline SOFA score to SOFAmax - numerical calculation based on scoring system of each participant during their admission
Measure: Delta SOFA Score Time: censored at day 28Description: Maximum SOFA score for each participant during their admission
Measure: Maximal SOFA score Time: censored at day 28Description: This is the number of new infections that occur >48hrs after commencing study drug
Measure: Superinfection Time: censored at day 28Description: Time to peak concentration of Fludrocortisone
Measure: Pharmacokinetic Outcome To assess the plasma levels of enterally administered fludrocortisone in all patients enrolled Time: 7 daysDescription: Time to absorption, clearance and metabolism of fludrocortisone in participants in each intervention arm except for the control arm
Measure: Pharmacokinetic Outcomes - To undertake detailed analysis of fludrocortisone kinetics in a subgroup of 30 patients enrolled (10 patients in each dosing group) Time: 7 daysDescription: Acquisition of blood samples at 4 timepoints over the first 7 days or until discharge from ICU for exploratory analysis to assess a range of biomarkers and their interactions with the primary outcomes
Measure: Vascular Responsiveness Analysis Time: 7 daysBroad Objectives: To determine the comparative efficacy of commonly employed strategies to overcome loop diuretic resistance when added to concomitant loop diuretics in hospitalized decompensated heart failure patients with hypervolemia Specific Aims: 1. Compare the 48-hour weight change of either intravenous chlorothiazide or oral tolvaptan compared to standard-of-care oral metolazone when combined with standardized loop diuretic dosing for diuretic resistance in decompensated heart failure 2. Compare the adverse effects of electrolyte depletion and renal function changes between intravenous chlorothiazide or oral tolvaptan compared to standard-of-care oral metolazone when combined with standardized loop diuretic dosing for diuretic resistance in acute heart failure 3. Pharmacoeconomic analysis of the direct costs of intravenous chlorothiazide or oral tolvaptan compared to standard-of-care oral metolazone when combined with standardized loop diuretic dosing for diuretic resistance in acute heart failure The investigators will conduct a dual center, randomized, double-blind, double-dummy, parallel design trial comparing: oral metolazone, intravenous chlorothiazide, or oral tolvaptan, in combination with loop diuretics in 60 patients hospitalized for hypervolemic decompensated heart failure and displaying loop diuretic resistance.
Patients will be randomized to either intravenous chlorothiazide 500mg IV Q12H + an oral placebo capsule Q12H or intravenous placebo infusion Q12H + a capsule containing either oral metolazone 5mg PO Q12H or oral tolvaptan 30mg once daily and placebo capsule in the evening dose. --- Q12H ---
Patients will be randomized to either intravenous chlorothiazide 500mg IV Q12H + an oral placebo capsule Q12H or intravenous placebo infusion Q12H + a capsule containing either oral metolazone 5mg PO Q12H or oral tolvaptan 30mg once daily and placebo capsule in the evening dose. --- Q12H --- --- Q12H ---
Patients will be randomized to either intravenous chlorothiazide 500mg IV Q12H + an oral placebo capsule Q12H or intravenous placebo infusion Q12H + a capsule containing either oral metolazone 5mg PO Q12H or oral tolvaptan 30mg once daily and placebo capsule in the evening dose. --- Q12H --- --- Q12H --- --- Q12H ---
Patients will be randomized to either intravenous chlorothiazide 500mg IV Q12H + an oral placebo capsule Q12H or intravenous placebo infusion Q12H + a capsule containing either oral metolazone 5mg PO Q12H or oral tolvaptan 30mg once daily and placebo capsule in the evening dose. --- Q12H --- --- Q12H --- --- Q12H --- --- Q12H ---
Description: The primary outcome will be 48-hour standing scale weight change (kg) from enrollment among the metolazone, intravenous chlorothiazide, and tolvaptan arms, using metolazone group as the comparator group for all other groups.
Measure: Weight Change Over 48 Hours Time: 48 hoursDescription: Net urine output from enrollment to the end of study at 48 hours measured in liters
Measure: Net Urine Output Time: 48 hoursDescription: Mean change in serum creatinine (mg/dl) from enrollment to end of study at 48 hours
Measure: Mean Change in Serum Creatinine Time: 48 hoursDescription: Mean change in glomerular filtration rate from enrollment to end of study at hospital discharge, an average of 5 days
Measure: Mean Change in Glomerular Filtration Rate at Discharge Time: hospital discharge an average of 5 daysDescription: Mean change in serum potassium (mEq/L) from enrollment to end of study at 48 hours
Measure: Mean Change in Serum Potassium Time: 48 hoursDescription: Cumulative dose of potassium supplementation (mEq) administered from enrollment to end of study at 48 hours
Measure: Potassium Supplementation Time: 48 hoursDescription: Incidence of hypokalemia (serum potassium less than 3.5mEq/L ) from enrollment to end of study
Measure: Number of Patients With Hypokalemia Time: 48 hoursDescription: Provider escalation of loop diuretic dosage at 24 hours for urine output less than 3 L at 24 hours
Measure: Number of Patients With Escalation of Loop Diuretic Therapy Time: 24 hoursDescription: Incidence of new atrial or ventricular arrhythmias from enrollment to end of study at 48 hours
Measure: Number of Patients With Cardiac Arrhythmias Time: 48 hoursDescription: SBP < 85 mmHg plus medical intervention for symptomatic hypotension
Measure: Number of Patients With Symptomatic Hypotension Time: 48 hoursDescription: Change in estimated glomerular filtration rate (ml/min/m2) from baseline to 48 hours
Measure: Change in eGFR From Baseline to 48 Hours Time: 48 hoursDescription: Mean change in serum sodium (mEq/L) from enrollment to end of study at 48 hours
Measure: Mean Change in Serum Sodium Time: 48 hoursDescription: Incidence of death from study enrollment to hospital discharge, an average of 5 days
Measure: Number of Patients With In-hospital Mortality Time: Enrollment to hospital discharge an average of 5 daysDescription: Incidence of new initiation of dopamine, dobutamine, or milrinone from enrollment to end of study at 48 hours
Measure: Number of Patients With New Inotrope Utilization Time: 48 hoursDescription: Incidence of Renal replacement therapy utilization (hemodialysis, ultrafiltration) from enrollment to hospital discharge, an average of 5 days
Measure: Number of Patients With Renal Replacement Therapy Utilization Time: enrollment to hospital discharge an average of 5 daysDescription: Diuretic Efficiency is calculated as 48hr urine output/ 48hr Furosemide equivalents in milligrams
Measure: Diuretic Efficiency Time: 48 hoursDescription: Change in serum chloride (mEq/L) from baseline to 48 hrs
Measure: Change in Serum Chloride From Baseline Time: 48 hoursDescription: Participants will score their congestion on a 10cm scale ranging from "Best" (10cm) to "Worst" (0cm). Change in score (units in centimeters) from baseline to 48 hours.
Measure: Change in Patient Congestion Score Time: 48 hoursResearch Hypothesis: Administration of BMS-663068, a prodrug for HIV attachment inhibitor BMS-626529, will result in a mean decrease of at least 1 log10 in HIV RNA at Day 9 following 8 days of therapy in at least one dosing regimen that is safe and well tolerated in Clade B HIV-1 infected subjects.
Number of participants with any clinically significant abnormalities in laboratory parameters have been presented.. Maximum Observed Plasma Concentration (Cmax) of BMS-626529 Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess Cmax of BMS-626529 following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 evening dose (PM) and Day 8 morning (AM) + evening dose (PM).. Trough Observed Plasma Concentration (Ctrough) of BMS-626529 Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to access Ctrough of BMS-626529 following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8 and Day 8 evening dose (PM).. Area Under the Concentration-time Curve in One Dosing Interval (AUC [Tau]) of BMS-626529 Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess AUC (tau) of BMS-626529 following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1 and Day 8 evening dose (PM).. Area Under the Concentration-time Curve Over a 24-hour Period (AUC [0-24]) of BMS-626529 Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess AUC (0-24) of BMS-626529 following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 8.. Accumulation Index (AI) of BMS-626529 Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess Accumulation Index of BMS-626529 following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 8 evening dose (PM).. Inhibitory Quotient (IQ) of BMS-626529 by Css,Avg and by Lowest Concentration of a Drug During Dosing Interval (Cmin) Following Q12H Dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented.. Inhibitory Quotient of BMS-626529 by Ctrough Following Q12H Dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented.. Cmax of Ritonavir Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess Cmax of ritonavir following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 evening dose (PM) and Day 8 morning (AM) + evening dose (PM).. Ctrough of Ritonavir Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to access Ctrough of ritonavir following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8 and Day 8 evening dose (PM).. AUC (Tau) of Ritonavir Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess AUC (tau) of ritonavir following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 1 and Day 8 evening dose (PM).. AUC (0-24) of Ritonavir Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess AUC (0-24) of ritonavir following Q12H dosing. --- Q12H ---
Geometric mean and geometric coefficient of variation are presented for Day 8.. Accumulation Index of Ritonavir Following Q12H Dosing. --- Q12H ---
Blood samples were collected at indicated time points to assess Accumulation Index of ritonavir following Q12H dosing. --- Q12H ---
Description: The primary assessment of the antiviral activity of BMS-663068 was assessed on the log10 change from Baseline in HIV RNA to Day 9. Baseline was the last non-missing observation before first dose (Day 1 pre-dose) and change from Baseline was calculated by subtracting Baseline value from post-Baseline visit value. An analysis of covariance (ANCOVA) model correcting for Baseline HIV viral load and treatment group was used to test the differences in mean log10 decrease in HIV RNA at Day 9 between 2 regimen groups by antiretroviral treatment history (ARV [antiretroviral] naive, ARV experienced, and combined [ARV naive + ARV experienced]). For the combined group (ARV naive +ARV experienced) an additional ANCOVA was used correcting also for treatment history as an additional covariate. Only Clade B participants were included in the population.
Measure: Mean Logarithm With Base 10 (Log10) Change From Baseline in Human Immunodeficiency Virus (HIV) Ribonucleic Acid (RNA) at Day 9 Time: Baseline and Day 9Description: Blood samples were collected for evaluation of CD4+ and CD8+ cells at Baseline (Day 1, pre-dose), Day 8, Day 15 (Follow up) and Day 50 (study discharge). Baseline was the last non-missing observation before first dose (Day 1 pre-dose) and change from Baseline was calculated by subtracting Baseline value from post-Baseline visit value.
Measure: Change From Baseline in Cluster of Differentiation 4 Positive (CD4+) Cell Count and Cluster of Differentiation 8 Positive (CD8+) Cell Count Time: Baseline (Day 1 pre-dose), Day 8, Day 15 and Day 50Description: Blood samples were collected for evaluation of percent CD4+ and percent CD8+ cells at Baseline (Day 1, pre-dose), Day 8, Day 15 (Follow up) and Day 50 (study discharge). Baseline was the last non-missing observation before first dose (Day 1 pre-dose) and change from Baseline was calculated by subtracting Baseline visit value from post-Baseline visit value.
Measure: Change From Baseline in Percent CD4+ Cell Count and Percent CD8+ Cell Count Time: Baseline (Day 1 pre-dose), Day 8, Day 15 and Day 50Description: An AE is any new untoward medical occurrence or worsening of a pre-existing medical condition in a participant or clinical investigation participant administered an investigational (medicinal) product and that does not necessarily have a causal relationship with this treatment. Any untoward medical occurrence resulting in death, life threatening, requires inpatient hospitalization or prolongation of existing hospitalization, results in persistent or significant disability/incapacity, congenital anomaly/birth defect, any other situation according to medical or scientific judgment that may not be immediately life-threatening or result in death or hospitalization but may jeopardize the participant or may require medical or surgical intervention to prevent serious outcomes were categorized as SAE. Treatment emergent adverse events (occurred after start of treatment) have been presented.Safety Population comprised of all randomized participants who used the trial medication at least once.
Measure: Number of Participants With Treatment Emergent Non-serious Adverse Event (Non-SAE) and Serious AE (SAE) Time: Up to 50 daysDescription: A complete physical examination included, at a minimum, assessment of the Cardiovascular, Respiratory, Gastrointestinal and Neurological systems. A brief physical examination included, at a minimum assessments of the skin, lungs, cardiovascular system, and abdomen (liver and spleen). Any abnormality found by investigator during physical examination were recorded. Number of participants with any abnormality in physical examination during study have been reported.
Measure: Number of Participants With Any Abnormality in Physical Examination Time: Up to 50 daysDescription: Vital signs including DBP and SBP were recorded. Normal ranges were as following: For DBP, lower limit: value <55 millimeter of mercury (mmHg) and change <-20 mmHg; upper limit: value >90 mmHg and change >20 mmHg). For SBP, lower limit: value <90 mmHg and change <-10 mmHg; upper limit: value >140 mmHg and change >10 mmHg. Number of participants with worst-case abnormalities are presented. Worst-case abnormality was defined as: (1) Below Normal: at least one post-Baseline assessment was below normal range, and no post-Baseline assessment was above normal range. (2) Above Normal: at least one post-Baseline assessment was above normal range, and no post-Baseline assessment was below normal range. (3) Within Normal: all post-Baseline assessments were within normal range. It was to be considered as 'Missing' when there were no post-Baseline assessments.
Measure: Number of Participants With Worst-case Abnormalities in Diastolic Blood Pressure (DBP) and Systolic Blood Pressure (SBP) Time: Up to 50 daysDescription: Vital signs (body temperature, RR, and HR) were recorded. Normal range were: For HR, lower limit: 55 beats per minute (bpm) and change <-15 bpm; upper limit: >100 bpm and change >30 bpm). For temperature, lower limit: 36.0 Celsius; upper limit: >37.5 Celsius or change >1.7 Celsius). For RR, lower limit: 8 breaths per minute; upper limit: >16 breaths per minute or change >10 breaths per minute. Number of participants with worst-case abnormalities are presented. Worst-case abnormality was defined as: (1) Below Normal: at least one post-Baseline assessment was below normal range, and no post-Baseline assessment was above normal range. (2) Above Normal: at least one post-Baseline assessment was above normal range, and no post-Baseline assessment was below normal range. (3) Within Normal: all post-Baseline assessments were within normal range. It was to be considered as 'Missing' when there were no post-Baseline assessments.
Measure: Number of Participants With Worst-case Abnormalities in Body Temperature, Respiratory Rate [RR], and Heart Rate [HR] Time: Up to 50 daysDescription: A 12-lead ECG was recorded during the study using an ECG machine that automatically measures ECG parameters. Normal range for ECG parameters were: PR interval (upper: 200 milliseconds [ms]); QRS (lower: 50 ms; upper: 120 ms); Corrected QT interval by Bazett formula (QTcB) (change from Baseline - increases by > 30 ms); Corrected QT interval by Fredericia formula (QTcF) (change from Baseline - increases by > 30 ms). Number of participants with worst-case abnormalities are presented which was defined as: (1) Below Normal: at least one post-Baseline assessment was below normal range, and no post-Baseline assessment was above normal range. (2) Above Normal: at least one post-Baseline assessment was above normal range, and no post-Baseline assessment was below normal range. Within Normal: all post-Baseline assessments were within normal range. It was to be considered as 'Missing' when there were no post-Baseline assessments.
Measure: Number of Participants With Worst-case Abnormalities in Electrocardiogram (ECG) Parameters Time: Up to 50 daysDescription: Laboratory parameters included hematology, clinical chemistry and urine parameters. Clinically significant abnormal laboratory findings are those which are not associated with the underlying disease, unless judged by the investigator to be more severe than expected for the participant's condition. Any abnormal laboratory test results which were considered clinically significant by the investigator were recorded on the case report form. Number of participants with any clinically significant abnormalities in laboratory parameters have been presented.
Measure: Number of Participants With Clinically Significant Abnormalities in Laboratory Parameters Time: Up to 50 daysDescription: Blood samples were collected at indicated time points to assess Cmax of BMS-626529 following Q12H dosing. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 morning dose (Anti Meridiem [AM]), Day 8 evening dose (Post Meridiem [PM]) and Day 8 morning + evening dose (AM+PM). Pharmacokinetic parameter values were derived by non-compartmental methods. Pharmacokinetic (PK) Population was used which comprised of all participants who receive BMS-663068 and provided pharmacokinetic samples.
Measure: Maximum Observed Plasma Concentration (Cmax) of BMS-626529 Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess Cmax of BMS-626529 following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 evening dose (PM) and Day 8 morning (AM) + evening dose (PM).
Measure: Cmax of BMS-626529 Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to access Ctrough of BMS-626529 following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8, Day 8 morning dose (AM) and Day 8 evening dose (PM).
Measure: Trough Observed Plasma Concentration (Ctrough) of BMS-626529 Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hours; Days 5,6,7: pre-morning doseDescription: Blood samples were collected at indicated time points to assess Ctrough of BMS-626529 following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8 and Day 8 evening dose (PM).
Measure: Ctrough of BMS-626529 Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hours; Days 5,6,7: pre-evening doseDescription: Blood samples were collected at indicated time points to assess AUC (tau) of BMS-626529 following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 morning dose (AM) and Day 8 evening dose (PM).
Measure: Area Under the Concentration-time Curve in One Dosing Interval (AUC [Tau]) of BMS-626529 Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess AUC (tau) of BMS-626529 following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1 and Day 8 evening dose (PM).
Measure: AUC (Tau) of BMS-626529 Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to assess AUC (0-24) of BMS-626529 following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8.
Measure: Area Under the Concentration-time Curve Over a 24-hour Period (AUC [0-24]) of BMS-626529 Following Q12H Dosing Time: Day 8: pre-morning dose, 1,2,3,4,5,6,8,12, 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess AUC (0-24) of BMS-626529 following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8.
Measure: AUC (0-24) of BMS-626529 Following QHS Dosing Time: Day 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to assess Accumulation Index of BMS-626529 following Q12H dosing. AI was calculated as ratio of AUC(tau) at steady-state to AUC(tau) after the first dose. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8 morning dose (AM).
Measure: Accumulation Index (AI) of BMS-626529 Following Q12H Dosing Time: Day 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess Accumulation Index of BMS-626529 following QHS dosing. AI was calculated as ratio of AUC(tau) at steady-state to AUC(tau) after the first dose. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8 evening dose (PM).
Measure: Accumulation Index of BMS-626529 Following QHS Dosing Time: Day 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to assess IQ of BMS-626529. Inhibitory quotient was calculated as the ratio of BMS-626529 in vivo exposure to in vitro measured protein binding adjusted EC90 (PBA-EC90). The following in vivo exposure measures were used in evaluating IQ: Cmin and Css,avg. Geometric mean and geometric coefficient of variation are presented.
Measure: Inhibitory Quotient (IQ) of BMS-626529 by Css,Avg and by Lowest Concentration of a Drug During Dosing Interval (Cmin) Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hours; Day 9: pre-dose, 4,12 hours; Day 10: pre-dose, 12 hours; Day 11: pre-dose; Days 5,6,7: pre-morning doseDescription: Blood samples were collected at indicated time points to assess IQ of BMS-626529. Inhibitory quotient was calculated as the ratio of BMS-626529 in vivo exposure to in vitro measured protein binding adjusted EC90 (PBA-EC90). The following in vivo exposure measures were used in evaluating IQ: Cmin and Css,avg. Geometric mean and geometric coefficient of variation are presented.
Measure: Inhibitory Quotient (IQ) of BMS-626529 by Css,Avg and by Lowest Concentration of a Drug During Dosing Interval (Cmin) Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hours; Day 2: pre-evening dose, 12,16 hours; Day 9: pre-dose, 12,16 hours; Day 10: pre-dose, 12 hours; Day 11: pre-dose; Days 5,6,7: pre-evening doseDescription: Blood samples were collected at indicated time points to assess IQ of BMS-626529. Inhibitory quotient was calculated as the ratio of BMS-626529 in vivo exposure to in vitro measured protein binding adjusted EC90 (PBA-EC90). The following in vivo exposure measure was used in evaluating IQ: Ctrough. Geometric mean and geometric coefficient of variation are presented.
Measure: Inhibitory Quotient of BMS-626529 by Ctrough Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hours; Day 9: pre-dose, 4,12 hours; Day 10: pre-dose, 12 hours; Day 11: pre-dose; Days 5,6,7: pre-morning doseDescription: Blood samples were collected at indicated time points to assess IQ of BMS-626529. Inhibitory quotient was calculated as the ratio of BMS-626529 in vivo exposure to in vitro measured protein binding adjusted EC90 (PBA-EC90). The following in vivo exposure measure was used in evaluating IQ: Ctrough. Geometric mean and geometric coefficient of variation are presented.
Measure: Inhibitory Quotient of BMS-626529 by Ctrough Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hours; Days 2: pre-evening dose, 12,16 hours; Day 9: pre-dose, 12,16 hours; Day 10: pre-dose, 12 hours; Day 11: pre-dose; Days 5,6,7: pre-evening doseDescription: Blood samples were collected at indicated time points to assess Cmax of ritonavir following Q12H dosing. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 morning dose (AM), Day 8 evening dose (PM) and Day 8 morning + evening dose (AM+PM). Pharmacokinetic parameter values were derived by non-compartmental methods. PK Population was used which comprised of all participants who receive ritonavir and provided pharmacokinetic samples.
Measure: Cmax of Ritonavir Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess Cmax of ritonavir following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 evening dose (PM) and Day 8 morning (AM) + evening dose (PM).
Measure: Cmax of Ritonavir Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to access Ctrough of ritonavir following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8, Day 8 morning dose (AM) and Day 8 evening dose (PM).
Measure: Ctrough of Ritonavir Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hours; Days 5,6,7: pre-morning doseDescription: Blood samples were collected at indicated time points to assess Ctrough of ritonavir following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Days 5, 6, 7, 8 and Day 8 evening dose (PM).
Measure: Ctrough of Ritonavir Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hours; Days 5,6,7: pre-evening doseDescription: Blood samples were collected at indicated time points to assess AUC (tau) of ritonavir following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1, Day 8 morning dose (AM) and Day 8 evening dose (PM).
Measure: AUC (Tau) of Ritonavir Following Q12H Dosing Time: Days 1, 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess AUC (tau) of ritonavir following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 1 and Day 8 evening dose (PM).
Measure: AUC (Tau) of Ritonavir Following QHS Dosing Time: Days 1, 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to assess AUC (0-24) of ritonavir following Q12H dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8.
Measure: AUC (0-24) of Ritonavir Following Q12H Dosing Time: Day 8: pre-morning dose, 1,2,3,4,5,6,8,12, 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess AUC (0-24) of ritonavir following QHS dosing. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8.
Measure: AUC (0-24) of Ritonavir Following QHS Dosing Time: Day 8: pre-evening dose, 1,2,3,4,5,6,8 hoursDescription: Blood samples were collected at indicated time points to assess Accumulation Index of ritonavir following Q12H dosing. AI was calculated as ratio of AUC(tau) at steady-state to AUC(tau) after the first dose. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8 morning dose (AM).
Measure: Accumulation Index of Ritonavir Following Q12H Dosing Time: Day 8: pre-morning dose, 1,2,3,4,5,6,8,12 hours; Day 8: 13,14,15,16,17,18,20 hoursDescription: Blood samples were collected at indicated time points to assess Accumulation Index of ritonavir following QHS dosing. AI was calculated as ratio of AUC(tau) at steady-state to AUC(tau) after the first dose. Pharmacokinetic parameter values were derived by non-compartmental methods. Geometric mean and geometric coefficient of variation are presented for Day 8 evening dose (PM).
Measure: Accumulation Index of Ritonavir Following QHS Dosing Time: Day 8: pre-evening dose, 1,2,3,4,5,6,8 hoursThis study is to evaluate the efficacy and safety of a titration method by selects 10 mg control-released (CR) oxycodone tablet as background drug in combined with immediate-released (IR) oxycodone, compared to conventional titration method with immediate-released (IR) oxycodone in patients with moderate to severe cancer pain in Taiwan.
Meanwhile, the titration with IR oxycodone will be added according to the pain intensity, e.g. if patient receiving 6 tablets of 10 mg CR oxycodone (giving in Q12H frequency for 3 days), 12 capsules of 5mg IR oxycodone will be dispensed for managing acute pain (rescue use) for the first cycle. --- Q12H ---
Description: The change from baseline of NRS pain score and the daily number of breakthrough pain
Measure: To evaluate the variable change of NRS pain score and the number of breakthrough pain to obtain pain control after treatment Time: Up to 14 daysDescription: The percentage of patients in each titration cycle
Measure: To evaluate the percentage of patients in each titration cycle Time: Up to 14 daysDescription: The number of patients who switched/discontinued therapy due to serious adverse events or lack of pain control
Measure: To evaluate the number of patients who switched/discontinued therapy due to serious adverse events or lack of pain control Time: Up to 14 daysDescription: The total opioid taken within 24 hrs daily from baseline to day 14
Measure: The total opioid taken within 24hrs daily from baseline to day 14 Time: Up to 14 daysDescription: Mean daily NRS score of patients from baseline to day 14
Measure: To evaluate the mean daily NRS score of subjects from baseline to day 14 Time: Up to 14 daysDescription: The total daily rescue dose taken (immediate-released oxycodone capsule) for treatment of breakthrough pain among patients from baseline to day 14
Measure: To evaluate the total daily rescue dose taken (immediate-released oxycodone capsule) for treatment of breakthrough pain among patients from baseline to day 14 Time: Up to 14 daysDescription: The occurrence rate of adverse events and physical examination status
Measure: To evaluate the tolerability and safety of Oxycodone CR and IR in cancer pain patient Time: Up to 28 daysDescription: The change from baseline in questionnaire
Measure: To evaluate the change from baseline in questionnaire Time: Up to 14 days