A Study to Investigate the Safety, Tolerability, Pharmacokinetics, Pharmacodynamics and Efficacy of Risdiplam (RO7034067) in Type 2 and 3 Spinal Muscular Atrophy (SMA) Participants

Phase 2

Completed

• Conditions: Muscular Atrophy, Spinal
• Interventions: Drug: Placebo; Drug: Risdiplam

• Registration Number: NCT02908685
• Lead Sponsor: Hoffmann-La Roche

Brief Summary

Multi-center, randomized, double-blind, placebo-controlled study to assess the safety, tolerability, pharmacokinetics, pharmacodynamics, and efficacy of Risdiplam in adult and pediatric participants with Type 2 and Type 3 SMA. The study consists of two parts, an exploratory dose finding part (Part 1) of Risdiplam for 12 weeks and a confirmatory part (Part 2) of Risdiplam for 24 months.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2016-09-19
• Study First Submitted QC: 2016-09-19
• Study First Posted: 2016-09-21
• Study Start: 2016-10-19
• Primary Completion: 2019-09-06
• Results First Submitted: 2020-08-27
• Results First Submitted QC: 2021-05-20
• Results First Posted: 2021-06-15
• Study Completion: 2023-10-02
• Status Verified: 2024-03
• Last Update Submitted: 2024-04-01
• Last Update Posted: 2024-04-24

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 231

Inclusion Criteria

• Confirmed diagnosis of 5q-autosomal recessive SMA
• Negative blood pregnancy test at screening and agreement to comply with measures to prevent pregnancy and restrictions on sperm donation
• For Part 1: Type 2 or 3 SMA ambulant or non-ambulant
• For Part 2: 1) Type 2 or 3 SMA non-ambulant; 2) RULM entry item A greater than or equal to 2; 3) ability to sit independently as assessed by item 9 of the MFM

Exclusion Criteria

• Concomitant or previous participation in any investigational drug or device study within 90 days prior to screening, or 5 half-lives of the drug, whichever is longer
• Concomitant or previous administration of a SMN2-targeting antisense oligonucleotide, SMN2 splicing modifier or gene therapy either in a clinical study or as part of medical care
• Any history of cell therapy
• Hospitalization for a pulmonary event within the last 2 months or planned at time of screening
• Surgery for scoliosis or hip fixation in the one year preceding screening or planned within the next 18 months
• Unstable gastrointestinal, renal, hepatic, endocrine, or cardiovascular system diseases as considered to be clinically significant by the Investigator
• Presence of clinically significant electrocardiogram abnormalities before study drug administration from average of triplicate measurement or cardiovascular disease indicating a safety risk for participants as determined by the Investigator
• Any major illness within one month before the screening examination or any febrile illness within one week prior to screening and up to first dose administration
• Recently initiated treatment (within less than [<] 6 months prior to randomization) with oral salbutamol or another beta 2-adrenergic agonist taken orally
• Any prior use of chloroquine, hydroxychloroquine, retigabin, vigabatrin or thioridazine, is not allowed
• Ascertained or presumptive hypersensitivity (e.g., anaphylactic reaction) to Risdiplam or to the constituents of its formulation
• Recent history (less than one year) of ophthalmological diseases
• Participants requiring invasive ventilation or tracheostomy

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SEQUENTIAL

Arm && Interventions

Group	Intervention	Description
Part 2: Placebo	Placebo	Participants aged 2-25 years will receive placebo matching to risdiplam for 12 months. After 12 months of treatment with placebo, participants will be switched to risdiplam (5 mg once daily for participants with a body weight (BW) \>/=20kg or 0.25 mg/kg for participants with a BW \<20) in a blinded manner and participants will continue with treatment until Month 24. After Month 24, participants will be offered the opportunity to enter the open-label phase.
Part 1 Group A: Adolescents and Adults (Placebo)	Placebo	Adolescent and adult participants aged 12-25 years will receive placebo matching to risdiplam for at least 12 weeks. Once placebo-controlled period is completed, participants will be first switched to their cohort risdiplam dose. After the Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 1 Group B: Children (Placebo)	Placebo	Children aged 2-11 years will receive placebo matching to risdiplam for at least 12 weeks. Once placebo-controlled period is completed, participants will be first switched to their cohort risdiplam dose. After the Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 1 Group A: Adolescents and Adults (Risdiplam)	Risdiplam	Adolescent and adult participants aged 12-25 years will receive risdiplam for at least 12 weeks. Once the placebo-controlled period is completed and Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 1 Group A: Adolescents and Adults (Placebo)	Risdiplam	Adolescent and adult participants aged 12-25 years will receive placebo matching to risdiplam for at least 12 weeks. Once placebo-controlled period is completed, participants will be first switched to their cohort risdiplam dose. After the Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 1 Group B: Children (Placebo)	Risdiplam	Children aged 2-11 years will receive placebo matching to risdiplam for at least 12 weeks. Once placebo-controlled period is completed, participants will be first switched to their cohort risdiplam dose. After the Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 1 Group B: Children (Risdiplam)	Risdiplam	Children aged 2-11 years will receive risdiplam for at least 12 weeks. Once the placebo-controlled period is completed and Part 2 dose is selected, participants will be switched to Part 2 dose and will be treated in an open-label phase.
Part 2: Placebo	Risdiplam	Participants aged 2-25 years will receive placebo matching to risdiplam for 12 months. After 12 months of treatment with placebo, participants will be switched to risdiplam (5 mg once daily for participants with a body weight (BW) \>/=20kg or 0.25 mg/kg for participants with a BW \<20) in a blinded manner and participants will continue with treatment until Month 24. After Month 24, participants will be offered the opportunity to enter the open-label phase.
Part 2: Risdiplam	Risdiplam	Participants aged 2-25 years will receive risdiplam at the dose selected based on the results from Part 1 of the study (5 mg once daily for participants with a body weight (BW) \>/=20kg or 0.25 mg/kg for participants with a BW \<20 kg), for 24 months. After 24-month treatment, participants will be offered the opportunity to enter the open-label phase.

Primary Outcome Measures

Name	Time	Method
Part 1: Selected Part 2 Dose of Risdiplam for Participants With a Body Weight (BW) of >/=20kg	Day 1 up to at least 4 weeks on study (Up to CCOD of 25 July 2017)	The Internal Monitoring Committee (IMC) was responsible for selecting the dose for Part 2 of the study (pivotal dose). An external Independent Data Monitoring Committee (iDMC) reviewed data from Part 1 and confirmed the dose-selection decision of the IMC. The dose for Part 2 selected by the IMC was a dose that: 1.Was judged to be safe and well-tolerated, based on all available safety data from Part 1 and as confirmed by the iDMC; 2. Resulted in an exposure at steady-state below the exposure cap (mean value) of AUC0-24h,ss 2000 ng\*h/mL (adjusted for free-fraction, if required); 3. Resulted in an SMN protein increase that was expected to be clinically relevant.
Part 1: Selected Part 2 Dose of Risdiplam for Participants With BW of <20kg	Day 1 up to at least 4 weeks on study (Up to CCOD of 25 July 2017)	The Internal Monitoring Committee (IMC) was responsible for selecting the dose for Part 2 of the study (pivotal dose). An external Independent Data Monitoring Committee (iDMC) reviewed data from Part 1 and confirmed the dose-selection decision of the IMC. The dose for Part 2 selected by the IMC was a dose that: 1.Was judged to be safe and well-tolerated, based on all available safety data from Part 1 and as confirmed by the iDMC; 2. Resulted in an exposure at steady-state below the exposure cap (mean value) of AUC0-24h,ss 2000 ng\*h/mL (adjusted for free-fraction, if required); 3. Resulted in an SMN protein increase that was expected to be clinically relevant.
Part 2: Change From Baseline in the Total Motor Function Measure 32 (MFM-32) Total Score at Month 12	Baseline (Day-1) and Month 12	The Motor Function Measure 32 (MFM32) is a scale constructed for use in neuromuscular disorders. It comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The 32 scores are summed and expressed on a 0-100 scale for the MFM32 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on primary efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.

Secondary Outcome Measures

Name	Time	Method
Part 2: Change From Baseline in Total Score of Hammersmith Functional Motor Scale Expanded (HFMSE) at Month 12	Baseline (Day-1) and Month 12	The HFMSE scale contains 33 items, which are scored on a 3-point Likert-type scale (0-2) and summed to derive the total score, with lower scores indicating greater impairment. The HFMSE contains a series of assessments designed to assess important functional abilities, including standing, transfers, ambulation, and proximal and axial function. The overall score is the sum of the scores for all activities with a maximum achievable score of 66. Higher scores indicate greater motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on the efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in Forced Vital Capacity (FVC) at Month 12 in Participants Aged 6-25 Years	Baseline (Day-1) and Month 12	Spirometry is a pulmonary function test that assesses how the lungs work by measuring how much air moves through the airways. Spirometry was performed by all participants aged 6 or older. Forced vital capacity (FVC) is the total volume that can be exhaled after inhaling maximally. The best % predicted value out of all attempts were used for the analysis. MMRM analysis was performed based on the efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants With Marked Improvement (Defined as >= 3) in the Total Motor Function Measure (MFM32) Score at Month 12	At Month 12	The MFM32 comprises 32 items that evaluate physical function. The scoring of each task uses a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The 32 scores are summed and expressed on a 0-100 scale for the MFM32 total score. A change in MFM32 total score of threshold \>/=3 represents marked improvement in this measure. Logistic regression analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Total Score of the Revised Upper Limb Module (RULM) at Month 12	Baseline (Day-1) and Month 12	The RULM is a 20 items scale that assesses the proximal and distal motor functions of the arm. There is an entry item and the remaining 18 items are scored on the 3 point scale of: 0: cannot complete task independently; 1: modified method but can complete task independently; 2: completes task without any assistance, and with 1 item scored on a 2 point scale of as a can/cannot score with 1 as the highest score. The RULM total score is the sum of 19 items scores with range of 0-37, and the entry item does not contribute to the total score. Higher scores indicate greater upper limb function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on the efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Caregiver-Reported SMA Independence Scale (SMAIS) Total Score at Month 12	Baseline (Day-1) and Month 12	The SMA Independence Scale (SMAIS) was developed specifically for SMA participants in order to assess function-related independence. The SMAIS contains 29 items, assessing the amount of assistance required from another individual to perform daily activities such as eating, or bathing. Each item is scored on a 0-4 scale (with an additional option to indicate that an item is non-applicable). The SMAIS total score ranging from 0-44 is obtained based on 22 items with each item on the 0-2 scale. Lower scores indicate greater dependence on another individual. The SMAIS was completed by participants aged 12 years or older and caregivers of participants aged 2-25 years. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants Rated by Clinicians as Improved in the Clinical Global Impression of Change (CGI-C) Scale Ratings at Month 12	At Month 12	The Clinical Global Impression of Change (CGI-C) is used to score a clinician's impression of a participant's change in global health. The CGI-C is a single item measure of change in global health, using seven response options: "very much improved", "much improved", "minimally improved", "no change", "minimally worse", "much worse", and "very much worse". Participants considered as "improved" included responses of "very much improved, "much improved" and "minimally improved". Logistic regression analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants Who Achieve Stabilization or Improvement (Defined as >= 0) in the Total Motor Function Measure (MFM-32) Score at Month 12	At Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The 32 scores are summed and expressed on a 0-100 scale for the MFM32 total score. Higher scores indicate increased motor function. Logistic regression analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants Who Achieve an Improvement of at Least One Standard Error of Measurement on the Total MFM-32 Score at Month 12	At Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0-cannot initiate the task or maintain the starting position; 1-performs the task partially; 2-performs the task incompletely or imperfectly; 3-performs the task fully and "normally". The 32 scores are summed and expressed on a 0-100 scale for the total score. Higher scores indicate increased motor function. Standard error of measurement (SEM) is derived using 32 items scores and total scores at baseline. Change from baseline \> = one SEM is equivalent to a change \>= 4. Logistic regression analysis was performed based on efficacy hypothetical estimand included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the MFM-32 Domain 1 (D1) Score at Month 12	Baseline (Day-1) and Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The D1 items score are summed and expressed on 0-100 scale for the MFM D1 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the MFM-32 Domain 2 (D2) Score at Month 12	Baseline (Day-1) and Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The D2 items score are summed and expressed on 0-100 scale for the MFM D2 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the MFM-32 Domain 3 (D3) Score at Month 12	Baseline (Day-1) and Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The D3 items score are summed and expressed on 0-100 scale for the MFM D3 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Total Combined Scores of MFM-32 Domains 2 and 3 at Month 12	Baseline (Day-1) and Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The D2+D3 items score are summed and expressed on 0-100 scale for the MFM D2+D3 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in Forced Expiratory Volume in 1 Second (FEV1) at Month 12 in Participants Aged 6-25 Years	Baseline (Day-1) and Month 12	Spirometry is a pulmonary function test that assesses how the lungs work by measuring how much air moves through the airways. Spirometry was performed by all participants aged 6 or older. Forced expiratory volume (FEV1) is the volume forcefully exhaled in the first second of the forced vital capacity test. The best % predicted value out of all attempts were used for the analysis. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Peak Cough Flow (PCF) at Month 12 in Participants Aged 6-25 Years	Baseline (Day-1) and Month 12	Spirometry is a pulmonary function test that assesses how the lungs work by measuring how much air moves through the airways. Spirometry was performed by all participants aged 6 or older. Peak cough flow (PCF) is an assessment of cough strength. The best % predicted value out of all attempts were used for the analysis MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Best Sniff Nasal Inspiratory Pressure (SNIP) at Month 12	Baseline (Day-1) and Month 12	The Sniff Nasal Inspiratory Pressure (SNIP) is a volitional, non-invasive test of inspiratory muscle strength that has been successfully applied to children \> 2 years of age. Advantages include the simplicity of the maneuver and the absence of a mouthpiece, which is particularly helpful for participants with SMA, who may have bulbar weakness. SNIP also has the advantage of measuring inspiratory pressure during a natural maneuver that is easily performed even by young children with neuromuscular disorders. The best % predicted value out of all attempts were used for the analysis. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Total Combined Scores of MFM-32 Domains 1 and 2 at Month 12	Baseline (Day-1) and Month 12	The MFM32 comprises 32 items that evaluate physical function in three dimensions: D1 function related to standing and transfer; D2 axial and proximal function; D3 distal motor function. Tasks are scored with a 4-point Likert scale: 0 - cannot initiate the task or maintain the starting position; 1 - performs the task partially; 2 - performs the task incompletely or imperfectly; 3 - performs the task fully and "normally". The D1+D2 items score are summed and expressed on 0-100 scale for the MFM D1+D2 total score. Higher scores indicate increased motor function. A positive change from Baseline indicates improvement. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in Maximal Inspiratory Pressure (MIP) at Month 12 in Participants Aged 6-25 Years	Baseline (Day-1) and Month 12	The maximal inspiratory pressure (MIP) is a non-invasive test of muscle strength, which measures the maximum strength of the diaphragm and other inspiratory muscles. MIP was measured in participants aged 6 or older. Participants were asked to perform a forceful inspiration against an occluded mouth piece. The best % predicted value out of all attempts were used for the analysis. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in Maximal Expiratory Pressure (MEP) at Month 12 in Participants Aged 6-25 Years	Baseline (Day-1) and Month 12	The maximal expiratory pressure (MEP) is a non-invasive test of muscle strength, which measures the maximum strength of the abdominal muscles and other expiratory muscles. MEP was measured in participants aged 6 or older. Participants were asked to perform a forceful inspiration against an occluded mouth piece. The best % predicted value out of all attempts were used for the analysis. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Change From Baseline in the Participant-Reported SMA Independence Scale (SMAIS) Total Score at Month 12	Baseline (Day-1) and Month 12	The SMAIS was developed specifically for SMA participants in order to assess function-related independence. It contains 29 items, assessing the amount of assistance required from another individual to perform daily activities such as eating, or bathing. Each item is scored on a 0-4 scale (with an additional option to indicate that an item is non-applicable). The SMAIS total score ranging from 0-44 is obtained based on 22 items with each item on the 0-2 scale. Lower scores indicate greater dependence on another individual. The SMAIS was completed by participants aged 12 years or older and caregivers of participants aged 2-25 years. MMRM analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants Rated by Clinicians as No Change or Improved in the Clinical Global Impression of Change (CGI-C) Scale Ratings at Month 12	At Month 12	The CGI-C is used to score a clinician's impression of a participant's change in global health. It is a single item measure of change in global health, using seven response options: "very much improved", "much improved", "minimally improved", "no change", "minimally worse", "much worse", and "very much worse". Participants considered as "no change or improved" included responses of "no change", "very much improved", "much improved" and "minimally improved". Logistic regression analysis was performed based on efficacy hypothetical estimand, which included participants data assuming no prohibited medication intended for treatment of SMA was received and participants continued on their randomized treatment until the analysis time point at Month 12.
Part 2: Percentage of Participants Who Experience at Least One Disease-Related Adverse Event at Month 12	Baseline up to Month 12 (Week 52; up to CCOD of 06 September 2019)	Disease-related adverse events (AEs) were identified by applying two different types of baskets to the AE dataset: Narrow prospectively defined baskets of MedDRA lowest level terms. This basket was defined based on a group of CDC terms selected from an age and gender matched case control study comparing CDC code rates observed in participants with and without SMA using commercially available insurance claim data (CLAIMS and Market scan data). The lowest level terms included in each basket, coded using the latest version of MedDRA; Broad prospectively defined basket with events selected at preferred term level from all AEs reported in ongoing clinical trials up to January 2019, i.e., prior to unblinding of Part 2 of Study BP39055.
Part 2: Number of Disease-related Adverse Events Per Patient-years at Month 12	Baseline up to Month 12 (Week 52; up to CCOD of 06 September 2019)	Disease-related AEs were collected through the AE reporting of the study, and the disease-related AE rate was adjusted for patient years (AE rate per 100 patient-years). They were identified by applying two different types of baskets to the AE dataset: Narrow prospectively defined baskets of MedDRA lowest level terms and Broad prospectively defined basket with events selected at preferred term level from all AEs reported in ongoing clinical trials up to January 2019, i.e., prior to unblinding of Part 2 of Study BP39055.
Part 2: Percentage of Participants With Adverse Events (AEs) and Serious Adverse Events (SAEs) in the Placebo-Controlled Period	Day 1 up to 12 months of the placebo-controlled period	An adverse event (AE) is any untoward medical occurrence in a subject administered a pharmaceutical product and which does not necessarily have to have a causal relationship with the treatment. An adverse event can therefore be any unfavorable and unintended sign (including an abnormal laboratory finding, for example), symptom, or disease temporally associated with the use of a pharmaceutical product, whether or not considered related to the pharmaceutical product. Preexisting conditions which worsen during a study are also considered as adverse events.
Part 2: Number of Participants Aged 6-25 Years With Suicidal Behavior Based on Columbia-Suicide Severity Rating Scale (C-SSRS) in the Placebo-Controlled Period	Day 1 up to 12 months of the placebo-controlled period	The Columbia Suicide Severity Rating Scale (C-SSRS) is used to assess the lifetime suicidality of a participant (C-SSRS baseline) as well as any new instances of suicidality (C-SSRS since last visit). The structured interview prompts recollection of suicidal ideation, including the intensity of the ideation, behavior, and attempts with actual/potential lethality. The C-SSRS assessments results were collected for participants aged 6 years and older.
Part 1 and 2: Maximum Plasma Concentration (Cmax) of Risdiplam at Year 5	Day 1: 1, 2, 4, 6 h postdose, Weeks 4, 8 (Part 1 only), 52, 87: pre-dose, 1, 2, 4, 6 h post-dose and Weeks 1 (Day 7), 2, 8 (Part 2 only) 17, 35, 70, 104: predose	Reported here is the maximum observed concentration throughout the observation period.
Part 1 and 2: Area Under the Curve (AUC) From 0 to 24 Hours of Risdiplam at Year 5 Visit	Year 5 visit pre-dose, 1, 2, 4, 6, 24 hours post-dose
Part 1 and 2: Concentration at the End of a Dosing Interval (Ctrough) of Risdiplam at Year 5	The last predose sample collected from each participant who had at least 1400 days of risdiplam treatment duration.
Part 2: Percentage of Participants With Treatment Discontinuation Due to Adverse Events (AEs) and Serious Adverse Events (SAEs) in the Placebo-Controlled Period	Day 1 up to 12 months of the placebo-controlled period	An adverse event (AE) is any untoward medical occurrence in a subject administered a pharmaceutical product and which does not necessarily have to have a causal relationship with the treatment. An adverse event can therefore be any unfavorable and unintended sign (including an abnormal laboratory finding, for example), symptom, or disease temporally associated with the use of a pharmaceutical product, whether or not considered related to the pharmaceutical product. Preexisting conditions which worsen during a study are also considered as adverse events.
Part 2: Number of Participants Aged 6-25 Years With Suicidal Ideation Based on Columbia-Suicide Severity Rating Scale (C-SSRS) in the Placebo-Controlled Period	Day 1 up to 12 months of the placebo-controlled period	The Columbia Suicide Severity Rating Scale (C-SSRS) is used to assess the lifetime suicidality of a participant (C-SSRS baseline) as well as any new instances of suicidality (C-SSRS since last visit). The structured interview prompts recollection of suicidal ideation, including the intensity of the ideation, behavior, and attempts with actual/potential lethality. The C-SSRS assessments results were collected for participants aged 6 years and older.
Median Fold Change From Baseline in Survival of Motor Neuron (SMN) Protein Levels in Blood	Part 1: Day -1, pre-dose of Weeks 1, 2 (>/= 12 years only), 17, 35 and 104, and at 4h post-dose of Weeks 4 and 52. Part 2: Day -1, pre-dose of Weeks 1, 17, 35 and 104, and at 4h post-dose of Weeks 4 and 52.

Trial Locations

Locations (45)

Minami Kyushu National Hospital; 🇯🇵 Kagoshima, Japan

Miyagi Children's Hospital; 🇯🇵 Miyagi, Japan

Shiga Medical Center for Children; 🇯🇵 Shiga, Japan

Shizuoka Children's Hospital; 🇯🇵 Shizuoka, Japan

Jichi Medical University Hospital; 🇯🇵 Tochigi, Japan

McGill University Health Centre - Glen Site; 🇨🇦 Montreal, Quebec, Canada

Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico; Unità Operativa Complessa di Neurologia; 🇮🇹 Milano, Lombardia, Italy

Stanford University Medical Center; 🇺🇸 Palo Alto, California, United States

Universitätsklinikum Freiburg; Klinik für Neuropädiatrie und Muskelerkrankungen; 🇩🇪 Freiburg, Germany

Hopital Armand Trousseau; 🇫🇷 Paris, France

Hopital Roger Salengro; 🇫🇷 Lille, France

CHU de Nantes - Hotel Dieu; 🇫🇷 Nantes, France

Alberta Children's Hospital Division of Pediatric Neurology; 🇨🇦 Calgary, Alberta, Canada

Children's Hospital of Fudan University; 🇨🇳 Shanghai, China

Hospital Universitari Vall d'Hebron; Servicio de Reumatologia; 🇪🇸 Barcelona, Spain

Hospital Universitario Virgen del Rocío; 🇪🇸 Sevilla, Spain

Hospital Universitario La Paz; 🇪🇸 Madrid, Spain

Hôpital Necker-Enfants Malades; Service de neuropédiatrie; 🇫🇷 Paris, France

UZ Leuven Gasthuisberg; 🇧🇪 Leuven, Belgium

Columbia University Medical Center; The Neurological Institute of New York; 🇺🇸 New York, New York, United States

Uniwersytecki Szpital Kliniczny w Poznaniu; Od. Kliniczny Neurologii Dzieci i M?odziezy; 🇵🇱 Pozna?, Poland

Russian Children Neuromuscular Center of Veltischev; 🇷🇺 Moscow, Moskovskaja Oblast, Russian Federation

Klinika Neurologii I Wydzialu Lekarskiego WUM w Warszawie; 🇵🇱 Warszawa, Poland

University of Oxford; Department of Paediatrics; 🇬🇧 Headington, United Kingdom

UZ Gent; 🇧🇪 Gent, Belgium

Chr de La Citadelle; 🇧🇪 Liège, Belgium

Instituto de Puericultura E Pediatria Martagão Gesteira; 🇧🇷 Rio de Janeiro, RJ, Brazil

Clinical Medical Center Zagreb; University Hospital Rebro Department of Paediatrics; 🇭🇷 Zagreb, Croatia

Hopital Femme Mere Enfant; Medecine Physique et Readaptation Pediatrique ? L?ESCALE; 🇫🇷 Bron, France

IRCCS Ospedale Pediatrico Bambino Gesù; U.O. Malattie Neuromuscolari e Neurodegenerative; 🇮🇹 Roma, Lazio, Italy

Policlinico Agostino Gemelli; Dipartimento di Neuropsichiatria Infantile; 🇮🇹 Roma, Lazio, Italy

Fondazione IRCCS Istituto Neurologico ?Carlo Besta?; UO di Neurologia dello Sviluppo; 🇮🇹 Milano, Lombardia, Italy

Fukuoka Children's Hospital; 🇯🇵 Fukuoka, Japan

Hiroshima University Hospital; 🇯🇵 Hiroshima, Japan

Hyogo Medical University Hospital; 🇯🇵 Hyogo, Japan

Center Hospital of the National Center for Global Health and Medicine; 🇯🇵 Tokyo, Japan

National Center Of Neurology And Psychiatry Hospital; 🇯🇵 Tokyo, Japan

Szpital Gdanskiego Uniwersytetu Medycznego; Clinic of developmental neurology; 🇵🇱 Gda?sk, Poland

Clinic for Neurology and Psychiatry for Children and Youth; 🇷🇸 Belgrade, Serbia

Hacettepe University, School of Medicine; Pediatrics Department; Pediatrics Child Neurology Unit; 🇹🇷 Ankara, Turkey

Hospital Yeditepe University Kozyatagi; Pediatry; 🇹🇷 Atasehir- Istanbul, Turkey

London Health Sciences Centre; Children's Hospital; Pediatrics; 🇨🇦 London, Ontario, Canada

IRCCS Istituto Giannina Gaslini; U.O.S.D. Centro di Miologia e Patologie Neurodegenerative; 🇮🇹 Genova, Liguria, Italy

Hospital Sant Joan De Deu; 🇪🇸 Esplugues De Llobregas, Barcelona, Spain

Peking University First Hospital; 🇨🇳 Beijing City, China