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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02278341
Other study ID # 1517-CL-0613
Secondary ID 2013-001497-16
Status Completed
Phase Phase 3
First received
Last updated
Start date November 21, 2014
Est. completion date July 6, 2018

Study information

Verified date December 2020
Source Astellas Pharma Inc
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This study was conducted to explore a new therapy for anemia in participants with end stage renal disease (ESRD) on dialysis. Anemia is a reduced number of red blood cells or hemoglobin. Hemoglobin (which contains iron) is important for the transport of oxygen in your blood. The purpose of this study was to evaluate if roxadustat is effective and safe in the maintenance treatment of anemia in ESRD participants on stable dialysis. Roxadustat was compared to epoetin alfa and darbepoetin alfa, commercially available medicines for treatment of anemia.


Description:

This study consisted of three study periods as follows: - Screening Period: up to 6 weeks - Treatment Period: a minimum of 52 weeks up to a maximum of 104 weeks - Follow-up Period: 4 weeks


Recruitment information / eligibility

Status Completed
Enrollment 838
Est. completion date July 6, 2018
Est. primary completion date June 8, 2017
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: Main Inclusion: - Participant is on stable hemodialysis (HD), hemodiafiltration (HDF) or peritoneal dialysis (PD) treatment with the same mode of dialysis for =4 months prior to randomization. - Participant is on IV or SC epoetin or IV or SC darbepoetin alfa treatment for =8 weeks prior to randomization with stable weekly doses (during 4 weeks prior to randomization). - Mean of the participant's three most recent Hb values, as measured by central laboratory, during the Screening Period. - Participant's alanine aminotransferase (ALT) and aspartate aminotransferase (AST) are =3 x upper limit of normal (ULN), and total bilirubin (TBL) is =1.5 x ULN Exclusion Criteria: Main Exclusion: - Participant has received a red blood cell (RBC) transfusion within 8 weeks prior to randomization. - Participant has a known hereditary hematologic disease such as thalassemia or sickle cell anemia, pure red cell aplasia, or other known causes for anemia other than Chronic Kidney Disease (CKD). - Participant has had a myocardial infarction, acute coronary syndrome, stroke, seizure, or a thrombotic/thrombo-embolic event (e.g., deep vein thrombosis or pulmonary embolism) within 12 weeks prior to randomization. - Participant has had uncontrolled hypertension, in the opinion of the investigator, within 2 weeks prior to randomization. - Participant has a history of malignancy, except for the following: cancers determined to be cured or in remission for =5 years, curatively resected basal cell or squamous cell skin cancers, cervical cancer in situ, or resected colonic polyps. - Participant has had any prior organ transplant (that has not been explanted), or participant is scheduled for organ transplantation.

Study Design


Intervention

Drug:
Roxadustat
Participants received initial dose of roxadustat orally as a tablet in doses of 100 mg, 150 mg or 200 mg, according to the average weekly dose of epoetin or darbepoetin alfa prior to randomization. Participants' roxadustat dosage was adjusted every 4 weeks to maintain Hb level within the target range 10.0 to 12.0 g/dL. Dose adjustment steps were as follows: 20, 40, 50, 70, 100, 150, 200, 250, 300, and 400 mg. Oral iron treatment of 200 mg was allowed for supplementation to support erythropoiesis. Treatment with intravenous iron was allowed only if certain protocol criteria were met.
Epoetin alfa
Participants received epoetin alfa via intravenous or subcutaneous injection, once a week, twice a week, or three times a week (TIW). Epoetin alfa dosage was adjusted to maintain Hb level within the target range. Dosing of epoetin alfa was per UK SmPC of Eprex®. Participants received IV iron supplementation according to the standard of care.
Darbepoetin alfa
Participants received darbepoetin alfa via intravenous or subcutaneous injection, once a week or once every other week. Darbepoetin alfa dosage was adjusted to maintain Hb level within the target range. Dosing of darbepoetin alfa was per EU SmPC of Aranesp®. Participants received IV iron supplementation according to the standard of care.
Iron
Oral iron treatment was recommended for supplementation to support erythropoiesis and as first-line treatment for iron deficiency, unless participant was intolerant to this treatment. For participants receiving roxadustat the recommended daily dose was 200 mg of elemental iron. Participants were advised to take roxadustat at least 1 hour before or 1 hour after oral iron. Intravenous iron supplementation for participants receiving roxadustat was allowed if all of the following criteria were met: The participant's Hb level had not responded adequately to roxadustat following two consecutive dose increases or reached the maximum dose limit, and participant's ferritin was < 100 ng/mL (< 220 pmol/L) or TSAT < 20%, or the participant was intolerant of oral iron therapy. For participants treated with epoetin alfa or darbepoetin alfa, IV iron supplementation was given according to standard of care.

Locations

Country Name City State
Belgium Site BE32001 Aalst
Belgium Site BE32002 Antwerp
Belgium Site BE32019 Antwerpen
Belgium Site BE32012 Baudour
Belgium Site BE32017 Bonheiden
Belgium Site BE32004 Brussels Flemish Brabant
Belgium Site BE32003 Leuven
Belgium Site BE32013 Liege
Belgium Site BE32011 Roeselare
Bulgaria Site BG35925 Blagoevgrad
Bulgaria Site BG35931 Haskovo
Bulgaria Site BG35915 Pleven
Bulgaria Site BG35909 Plovdiv
Bulgaria Site BG35919 Plovdiv
Bulgaria Site BG35920 Rousse
Bulgaria Site BG35938 Shumen
Bulgaria Site BG35906 Sofia
Bulgaria Site BG35921 Sofia
Bulgaria Site BG35924 Sofia
Bulgaria Site BG35907 Stara Zagora
Bulgaria Site BG35916 Varna
Bulgaria Site BG35918 Varna
Bulgaria Site BG35903 Veliko Tarnovo
Bulgaria Site BG35937 Yambol
Croatia Site HR38508 Cakovec
Croatia Site HR38505 Karlovac
Croatia Site HR38507 Osijek
Croatia Site HR38506 Rijeka
Croatia Site HR38504 Slavonski Brod
Croatia Site HR38501 Zadar
Croatia Site HR38509 Zagreb Grad Zagreb
Czechia Site CZ42008 Liberec
Czechia Site CZ42021 Praha 6
Czechia Site CZ42015 Rakovnik
France Site FR33005 Amiens cedex 1
France Site FR33010 La Tronche
France Site FR33055 Saint Ouen
France Site FR33007 Saint Priez En Jarez
France Site FR33056 Valenciennes
Georgia Site GE99503 Tbilisi
Georgia Site GE99504 Tbilisi
Georgia Site GE99508 Tbilisi
Germany Site DE49067 Berlin
Germany Site DE49073 Cloppenburg
Germany Site DE49056 Dormagen Nordrhein-Westfalen
Germany Site DE49008 Dresden
Germany Site DE49054 Dusseldorf
Germany Site DE49020 Frankfurt am Main
Germany Site DE49065 Hamburg
Germany Site DE49075 Heilbronn
Germany Site DE49001 Kaiserslautern
Germany Site DE49070 Muenchen
Germany Site DE49002 Solingen
Germany Site DE49071 Villingen-Schwenningen
Hungary Site HU36033 Baja
Hungary Site HU36036 Esztergom
Hungary Site HU36031 Gyor
Hungary Site HU36026 Kaposvar
Hungary Site HU36027 Kistarcsa
Hungary Site HU36032 Pecs
Hungary Site HU36035 Pecs
Hungary Site HU36034 Salgotarjan
Hungary Site HU36004 Szeged
Hungary Site HU36046 Szekesfehervar
Hungary Site HU36006 Szombathely
Hungary Site HU36003 Zalsaegerszeg
Italy Site IT39010 Brescia
Italy Site IT39039 Cremona Lombardia
Italy Site IT39008 Lecco
Italy Site IT39014 Mestre Venezia
Italy Site IT39006 Milano
Italy Site IT39037 Modena
Italy Site IT39022 Padova
Italy Site IT39036 Pavia
Italy Site IT39028 Prato Frazione Di Galciana
Italy Site IT39005 Roma
Italy Site IT39035 Torino
Italy Site IT39032 Trieste
Poland Site PL48002 Katowice
Poland Site PL48001 Krakow
Poland Site PL48013 Szczecin
Poland Site PL48005 Warszawa
Poland Site PL48006 Wroclaw
Poland Site PL48009 Wroclaw
Poland Site PL48014 Zamosc
Portugal Site PT35121 Almada
Portugal Site PT35127 Aveiro
Portugal Site PT35139 Cascais
Portugal Site PT35117 Faro
Portugal Site PT35128 Gaeiras
Portugal Site PT35114 Leiria
Portugal Site PT35102 Porto
Portugal Site PT35122 Setubal
Romania Site RO40015 Bucharest
Romania Site RO40018 Bucharest
Romania Site RO40019 Bucharest
Romania Site RO40003 Bucuresti
Romania Site RO40004 Oradea
Russian Federation Site RU70008 Kaluga
Russian Federation Site RU70005 Moscow
Russian Federation Site RU70051 Moscow
Russian Federation Site RU70003 Nizhny Novgorod
Russian Federation Site RU70004 Omsk
Russian Federation Site RU70014 Rostov-on-Don
Russian Federation Site RU70002 Saint Petersburg
Russian Federation Site RU70072 Saint Petersburg
Russian Federation Site RU70011 Saint-Petersburg
Russian Federation Site RU70050 Saint-Petersburg
Russian Federation Site RU70030 Sankt-Peterburg
Russian Federation Site RU70006 Smolensk
Russian Federation Site RU70037 Volgograd
Russian Federation Site RU70001 Yaroslavl
Serbia Site RS38102 Belgrade
Serbia Site RS38104 Belgrade
Serbia Site RS38105 Belgrade
Serbia Site RS38120 Belgrade
Serbia Site RS38117 Krusevac
Serbia Site RS38101 Nis
Serbia Site RS38116 Zrenjanin
Slovakia Site SK42102 Koshice
Slovakia Site SK42119 Levice
Slovakia Site SK42120 Lucenec
Slovakia Site SK42113 Puchov
Slovakia Site SK42116 Senica
Spain Site ES34010 Alcorcon Madrid
Spain Site ES34002 Badalona-Barcelona
Spain Site ES34006 Barcelona
Spain Site ES34008 Barcelona
Spain Site ES34009 El Ejido Almeria
Spain Site ES34011 Galdakao Vizcaya
Spain Site ES34017 Jaen
Spain Site ES34037 Madrid
Spain Site ES34030 Majadahonda Madrid
Spain Site ES34041 Santiago de Compostela A Coruna
Spain Site ES34052 Valencia
United Kingdom Site GB44087 Brighton EastSussex
United Kingdom Site GB44008 Cambridge
United Kingdom Site GB44011 Canterbury Kent
United Kingdom Site GB44010 Hull
United Kingdom Site GB44081 Leicester
United Kingdom Site GB44079 Liverpool
United Kingdom Site GB44080 Stoke on Trent Staffordshire
United Kingdom Site GB44001 Swansea

Sponsors (2)

Lead Sponsor Collaborator
Astellas Pharma Europe B.V. FibroGen

Countries where clinical trial is conducted

Belgium,  Bulgaria,  Croatia,  Czechia,  France,  Georgia,  Germany,  Hungary,  Italy,  Poland,  Portugal,  Romania,  Russian Federation,  Serbia,  Slovakia,  Spain,  United Kingdom, 

Outcome

Type Measure Description Time frame Safety issue
Primary Change From Baseline (BL) to the Average Hemoglobin (Hb) in Weeks 28-36 Without Rescue Therapy [EU (EMA)] Baseline Hb was defined as the mean of four central laboratory Hb values; four latest Hb values prior or on the same date as the first study drug intake. For participants who did not have an available Hb value during the week 28-36 period, imputation rules were applied. For analyses without rescue therapy, participants who used rescue therapy after the initiation of rescue therapy were set to missing for 6 weeks from the start date of rescue therapy. If no Hb value was available, an imputation technique was used, with the mean of all available values from Day 1 to minimum (End of Efficacy Emergent Period) carried forward. Baseline and weeks 28 to 36
Primary Change From BL to the Average Hb in Weeks 28 to 52 Regardless of Rescue Therapy [US (FDA)] Baseline Hb was defined as the mean of four central laboratory Hb values: four latest Hb values prior or on the same date as first study drug intake. Change from baseline to the average Hb are observed values. Missing hemoglobin data was imputed for each treatment relying on non-missing data from all participants within each treatment group using the Monte Carlo Markov Chain (MCMC) imputation model with treatment, baseline hemoglobin, randomization stratification factors and the available non missing hemoglobin for each scheduled week. Baseline and weeks 28 to 52
Secondary Percentage of Participants With Hb Response During Weeks 28 to 36 Hb response during weeks 28-36, was defined as mean Hb from 10-12 g/dL without receiving rescue therapy in the 6 weeks prior to, or during, the evaluation period. The percentages and 95% CI were unadjusted, the exact method of Clopper-Pearson was used for 95% CI. The Efficacy Emergent Period was defined as the evaluation period from the Analysis date of first dose intake up to end of treatment (EOT) Visit or last non-missing Hb assessment (for participants who died during the treatment period). Weeks 28 to 36
Secondary Change From BL in Low Density Lipoprotein Cholesterol (LDL-C) to the Average LDL-C of Weeks 12 to 28 Baseline LDL was defined as the LDL value on Day 1. If this value was missing, the latest value prior to first study drug administration was used. Baseline and weeks 12 to 28
Secondary Mean Monthly Intravenous (IV) Iron Use Participants with no or missing medication records of IV Iron have their monthly IV Iron use set to 0 mg. For participants who took IV Iron, but without a dosing frequency, the average values were set to missing. Day 1 to week 36
Secondary Change From BL in Short Form-36 (SF-36) Health Survey Physical Functioning (PF) Sub-score to the Average of Weeks 12 to 28 Baseline SF-36 PF was defined as the SF-36 PF value on Day 1.The SF-36 is a Quality of Life (QoL) instrument designed to assess generic health concepts relevant across age, disease, and treatment groups. The SF-36 contains 36 items that measure eight scales: (1) physical functioning (PF); (2) role limitations due to physical health problems (RP); (3) bodily pain (BP); (4) social functioning (SF); (5) general health perceptions (GH); (6) role limitations due to emotional problems (RE); (7) vitality, energy or fatigue (VT); and (8) mental health(MH). Each scale is transformed into 0-100 score, with higher scores indicating better health status. The SF-36 PF consists of 11 questions focused on health and ability to do usual activities, with higher scores indicating better health status. Baseline and weeks 12 to 28
Secondary Change From BL in SF-36 Vitality (VT) Sub-score to the Average of Weeks 12 to 28 Baseline VT Subscore was defined as the VT value on Day 1. The SF-36 is a QoL instrument designed to assess generic health concepts relevant across age, disease, and treatment groups. The SF-36 vitality has four questions with score range from 0-100 with higher scores indicating better vitality status. Baseline and weeks 12 to 28
Secondary Change From BL in Mean Arterial Pressure (MAP) to the Average of Weeks 20 to 28 Baseline MAP was defined as the MAP value on Day 1. If this value was missing, the latest value prior to first study drug administration was used. Mean Arterial Pressure (MAP) is derived as: MAP = (2/3)*DBP + (1/3)*SBP. Baseline and weeks 20 to 28
Secondary Time to First Occurrence of an Increase in Blood Pressure Increase in Blood Pressure was defined as either: Systolic Blood Pressure (SBP) = 170 mmHg and an increase from BL = 20 mmHg, or as: Diastolic Blood Pressure (DBP) = 100 mmHg and an increase from BL = 15 mmHg. For participants who have experienced more than one event, only their first event following study treatment was used. Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Weeks 1 to 36
Secondary Change From BL in Mean Arterial Pressure (MAP) to the Average MAP Value of Weeks 20 to 28 Baseline MAP was defined as the MAP value on day 1. If this value was missing, the latest value prior to first study drug administration was used. Mean Arterial Pressure (MAP) is derived as: MAP = (2/3)*DBP + (1/3)*SBP. Baseline and weeks 20 to 28
Secondary Time to First Occurrence of an Increase in Blood Pressure Increase in Blood Pressure was defined as either: SBP = 170 mmHg and an increase from BL = 20 mmHg, or as: DBP = 100 mmHg and an increase from BL = 15 mmHg. Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Weeks 1 to 36
Secondary Percentage of Participants With a Hb Response During Weeks 28 and 36 Regardless of Use of Rescue Therapy Hb response was defined as mean Hb during weeks 28 to 36 within the target range of 10.0 to 12.0 g/dL. The percentages and 95% CI are unadjusted, the exact method of Clopper-Pearson was used for 95% CI. Weeks 28 to 36
Secondary Change From BL in Hb to Each Postdosing Time Point Baseline Hb was defined as the mean of four latest central laboratory Hb values prior or on the same date as first study drug intake (pre-dose). Baseline and weeks 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 18,20, 22, 24, 26, 28, 30, 32, 34, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72,76, 80, 84, 88, 92, 96, 100, and 104
Secondary Hb Level Averaged Over Weeks 28 to 36, 44 to 52, and 96 to 104 Without Use of Rescue Therapy Baseline Hb was defined as the mean of four latest central laboratory Hb values prior or on the same date as first study drug intake (pre-dose). Averaged Hb values over weeks 28-36, weeks 44-52 and weeks 96-104 are observed values. Weeks 28 to 36, 44 to 52, and 96 to 104
Secondary Change From BL in Hb to the Average of Weeks 28 to 36, 44 to 52, and 96 to 104 Regardless of the Use of Rescue Therapy Change from baseline to the average Hb are observed values. Baseline Hb was defined as the mean of four latest central laboratory Hb values prior or on the same date as first study drug intake (pre-dose). Baseline and weeks 28 to 36, 44 to 52, and 96 to 104
Secondary Percentage of Hb Values = 10 g/dL in Weeks 28 to 36, 44 to 52, and 96 to 104 Without Use of Rescue Therapy Percentage for each participant was calculated as Number of Hb values >= 10.0 g/dL / Total number of Hb values*100 in weeks 28 to 36, 44 to 52 and 96 to 104 without use of rescue therapy within 6 weeks prior to and during the 8 week evaluation period. Weeks 28-36, 44-52 and 96-104
Secondary Percentage of Hb Values Within 10.0 to 12.0 g/dL in Weeks 28 to 36, 44 to 52, and 96 to 104 Without Use of Rescue Therapy Percentage for each participant was calculated as Number of Hb values within 10.0-12.0 g/dL / Total number of Hb values*100 in weeks 28 to 36, 44 to 52 and 96 to 104 without use of rescue therapy within 6 weeks prior to and during the 8 week evaluation period. Weeks 28-36, 44-52 and 96-104
Secondary Number of Hospitalizations The number of hospitalizations per participant were calculated during the Efficacy Emergent Period. The Efficacy Emergent Period was defined as the evaluation period from the Analysis date of first dose intake up to EOT Visit or last non-missing Hb assessment (for participants who died during the treatment period). It included all Non-Hemodialysis (HD) hospitalizations. The HD days were not counted as hospitalizations, even when performed overnight. Baseline to End of Treatment (EOT) (Up to week 104)
Secondary Number of Days of Hospitalization Per Year The number of days of hospitalizations per year was calculated as the sum of the durations of all non-HD hospitalizations in days (Date of discharge - Date of admission + 1)] / (duration of efficacy emergent period in days / 365.25). In case of missing dates, the hospitalization duration was imputed by the average duration per stay derived from the participants with non-missing duration within the same treatment group. Baseline to EOT (Up to week 104)
Secondary Time to First Hospitalization Time to first hospitalization in years was defined in years as: (First event date during the Efficacy Emergent Period - Analysis date of First dose intake +1)/365.25, and the 'First event date' was defined as 'Date of first Admission and 'Analysis Date of first dose intake. For participants without hospitalization, the time to censoring was calculated as: (Date of End of Efficacy Emergent Period - Analysis Date of first dose intake + 1) / 365.25. Date of End of Efficacy Emergent Period was defined as as the treatment period up to the EOT visit. For participants who have experienced more than one hospitalization, only their first event following study treatment was used. Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Baseline to EOT (Up to week 104)
Secondary Time to First Use of Rescue Therapy Rescue therapy was defined as red blood cell (RBC) transfusion for both treatment groups and ESA for roxadustat participants. Only rescue medication that was started during the study treatment and up to end of efficacy emergent period was taken into account and considered as use of rescue medication. For participants who have experienced more than one use of rescue therapy, only their first event following study treatment was used. Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Baseline to EOT (Up to week 104)
Secondary Time to First RBC Transfusion For participants who have experienced more than one RBC transfusion, only their first event following study treatment was used. For RBC transfusions, when the number of units was not given but the volume transfused was, the number of units were estimated by volume transfused/250 mL (for transfusion of packed cell units) or volume transfused/500 mL (for transfusion of full blood). Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Baseline to EOT (Up to week 104)
Secondary Mean Monthly Number of RBC Packs Per Participant During efficacy emergent period, the mean monthly number of RBC packs was calculated as the sum of blood volume and units transfused between the first dose and up to the last dose in the period divided by duration of efficacy emergent period (in days) divided by 28 days. Participants without medication records of RBC have their number of RBC packs and volume set to 0. Baseline to EOT (Up to week 104)
Secondary Mean Monthly Volume of RBC Transfusion Per Participant During Efficacy Emergent Period, the mean monthly volume of blood transfused was calculated as the sum of blood volume and units transfused between the first dose and up to the last dose in the period divided by duration of efficacy emergent period (in days) divided by 28 days. The Efficacy Emergent Period was defined as the evaluation period from the Analysis date of first dose intake up to EOT Visit or last non-missing Hb assessment (for participants who died during the treatment period). Baseline to EOT (Up to week 104)
Secondary Time to First Use of IV Iron Supplementation For participants who have received more than one IV iron, only their first event following study treatment was used. Data reported was analyzed by Kaplan-Meier estimate for cumulative proportion and the 95% confidence interval was calculated with Greenwood's formula. Baseline to EOT (Up to week 104)
Secondary Mean Monthly Intravenous (IV) Iron Per Participant During Weeks 37-52 and Weeks 53-104 Participants with no or missing medication records of IV Iron had their monthly IV Iron use set to 0 mg. Weeks 37-52 and weeks 53-104
Secondary Percentage of Participants With Oral Iron Use Only Percentage of participants with/without IV iron only was calculated based on total number of participants within the Efficacy Emergent Period. The Efficacy Emergent Period is defined as the evaluation period from the Analysis date of first dose intake up to EOT Visit or last non-missing Hb assessment (for participants who died during the treatment period). Baseline to EOT (Up to week 104)
Secondary Change From BL to Each Post-dosing Study Visit in Total Cholesterol Baseline assessment was the assessment from Day 1 visit. If baseline value was missing, then the latest screening period value was used as the baseline regardless of fasting status. Baseline and weeks 8, 28, 52, 104
Secondary Change From BL to Each Post-dosing Study Visit in LDL-C/High-density Lipoprotein Cholesterol (HDL-C) Ratio Baseline was defined as the value on Day 1. If baseline value was missing, the latest value prior to first study drug administration was used regardless of fasting. Baseline and weeks 8, 28, 52, 104
Secondary Change From BL to Each Postdosing Study Visit in Non-HDL Cholesterol Baseline was defined as the value on Day 1. If baseline value was missing, the latest value prior to first study drug administration was used regardless of fasting. Baseline and weeks 8, 28, 52, 104
Secondary Change From BL to Each Postdosing Study Visit in Apolipoproteins A1 (ApoA1) Baseline was defined as the value on Day 1. If baseline value was missing, the latest value prior to first study drug administration was used regardless of fasting. Baseline and weeks 8, 28, 52, 104
Secondary Change From BL to Each Postdosing Study Visit in Apolipoproteins B (ApoB) Baseline was defined as the value on Day 1. If baseline value was missing, the latest value prior to first study drug administration was used regardless of fasting. Baseline and weeks 8, 28, 52, 104
Secondary Change From BL to Each Postdosing Study Visit in ApoB/ApoA1 Ratio Baseline was defined as the value on Day 1. If baseline value was missing, the latest value prior to first study drug administration was used. Baseline and weeks 8, 28, 52, 104
Secondary Number of Participants With Mean LDL Cholesterol < 100 mg/dL Over Weeks 12 to 28 Missing category for Fasting Only includes non-fasting participants and the participants with missing values. Weeks 12 to 28
Secondary Number of Participants With CKD Who Achieved Antihypertensive Treatment Goal Achieved antihypertensive treatment goal was defined as SBP < 140 mmHg and DBP < 90 mmHg over an evaluation period based on the average of available values in weeks 12-28 (pre-dialysis). Weeks 12 to 28
Secondary Change From BL to the Average of Weeks 12 to 28 in SF-36 Physical Component Score (PCS) Baseline SF-36 PCS was defined as the SF-36 PCS value on Day 1. SF-36 contains 36-item that measures 8 scales with scores ranging from 0-100: physical functioning (PF); role limitations due to physical health problems (RP); bodily pain (BP); social functioning (SF); general health perceptions (GH); role limitations due to emotional problems (RE); vitality, energy or fatigue (VT); and mental health (MH). These scores are normed to the US population (norm-based scoring had very little impact on results when data was collected in Western European countries) to have a mean of 50 and standard deviation of 10. The PCS was calculated based on all 8 scales and ranges from 5.02-79.78. For each of these above scales, higher scores always indicating better health status. Baseline and weeks 12 to 28
Secondary Change From BL to the Average of Weeks 12 to 28 in Anemia Subscale (AnS) ("Additional Concerns") of Functional Assessment of Cancer Therapy-Anemia (FACT-An) Score Baseline FACT-An AnS was defined as the FACT-An AnS value on Day 1. Together with the Functional Assessment of Cancer Therapy - General (FACT-G), the Anemia Subscale (AnS) is referred to as the FACT-An Total. The AnS scale contains 13 fatigue specific items (the Fatigue Score) plus 7 items related to anemia. The Anemia AnS score range is 0 to 80. For the above score, a higher score indicates better QoL. Baseline and weeks 12 to 28
Secondary Change From BL to the Average Value of Weeks 12 to 28 in Total FACT-An Score Baseline FACT-An Total Score was defined on Day 1. Total Fact-An score is composed of FACT-G and Ans scales. FACT-G contains 27 items that cover four dimensions of well-being: physical (PWB) - 7 items, functional (FWB) - 7 items, social/family (SWB) - 7 items, and emotional (EWB) - 6 items. The AnS scale contains 13 fatigue specific items (the Fatigue Score) plus 7 items related to anemia. The total score is obtained by summation of the scores from PWB, SWB, EWB, FWB and AnS. The FACT-An Total Score scale range is 0-188. A higher score indicates better QoL. Baseline and weeks 12 to 28
Secondary Change From BL to the Average of Weeks 12 to 28 in Euroqol Questionnaire-5 Dimensions 5 Levels (EQ-5D 5L) Visual Analogue Scale (VAS) Score Baseline assessment was defined as the value on Day 1. The EuroQol Questionnaire -5 Dimensions -5 Levels (EQ-5D-5L) is a self-reported questionnaire, used as a measure of respondents' Health Related Quality of Life (HRQoL) and utility values. The EQ-5D consists of the descriptive system and the visual analogue scale (VAS). The EQ-5D descriptive system comprises 5 dimensions of health: mobility, self-care, usual activities, pain/discomfort, and anxiety/depression. Each dimension has 5 levels: no problems, slight problems, moderate problems, severe problems, extreme problems. The VAS records the respondent's self rated health status on a graduated (0-100) scale, where the endpoints are labeled 'Best imaginable health state' and 'Worst imaginable health state' with higher scores for higher HRQoL. Baseline and weeks 12 to 28
Secondary Percentage of Participants With Improvements Measured by Patients' Global Impression of Change (PGIC) The PGIC is a patient-rated instrument that measures change in participant's overall status on a 7-point scale ranging from 1 (very much improved) to 7 (very much worse), when compared to the start of treatment. The percentage of participants presented includes very much improved, much improved and minimally improved. Baseline and weeks 8, 12, 28, 36, 52, 76, 104
Secondary Change From BL in Serum Hepcidin Baseline assessment was assessment from Day 1 visit. If baseline value was missing, the value from screening visit was used. In case of missing data, no imputation rules were applied. Baseline and weeks 4, 12, 20, 36, 52, 104, and End of Study (EOS - up to 108 weeks)
Secondary Change From BL in Serum Ferritin Baseline assessment was assessment from Day 1 visit. If baseline value was missing, the value from screening visit was used. In case of missing data, no imputation rules were applied. Baseline and weeks 4, 8, 12, 20, 28, 36, 44, 52, 60, 68, 76, 84, 92, 100, 104, and EOS (up to 108 weeks)
Secondary Change From BL in Transferrin Saturation (TSAT) Baseline assessment was assessment from Day 1 visit. If baseline value was missing, the value from screening visit was used. In case of missing data, no imputation rules were applied. Baseline and weeks 4, 8, 12, 20, 28, 36, 44, 52, 60, 68, 76, 84, 92, 100, 104 and EOS (up to 108 weeks)
Secondary Change From BL in Glycated Hemoglobin (HbA1c) Level to Weeks 12, 28, 36, 44, 52, 60, 84, 104 and EOS (up to Week 108) Percentage of change from baseline to each study visit were calculated for HbA1c. Baseline assessment was assessment from Day 1 visit. If baseline value was missing, the value from screening visit was used. In case of missing data, no imputation rules were applied. Baseline and weeks 12, 28, 36, 44, 52, 60, 84, 104 and EOS (up to 108 weeks)
Secondary Number of Participants With Treatment-Emergent Adverse Events (TEAEs) Safety was assessed by evaluation of the following variables: (TEAEs; frequency, severity, seriousness, and relationship to study drug), Vital signs (systolic and diastolic blood pressure, pulse, respiratory rate and weight), Clinical laboratory variables (hematology, biochemistry including liver enzymes and total bilirubin, and urinalysis), Physical examination, 12-lead electrocardiogram (ECG) and Vascular Access Thrombosis. All AEs collected during the Safety Emergent Period were counted as TEAE. The TEAE was defined as an adverse event (AE) if it was observed after starting administration of the roxadustat or ESA. Any clinically significant abnormalities were reported as an AEs. All reported deaths after the first study drug administration and up to 28 days after the Analysis Date of Last Dose and considering last dosing frequency. Baseline up to EOS (Up to week 108)
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