Monday, May 6, 2019
South San Francisco, CA -- May 6, 2019 --
Genentech, a member of the Roche Group (SIX: RO, ROG; OTCQX: RHHBY), today announced new data from the dose-finding Part 1 of the pivotal FIREFISH trial showing infants with Type 1 spinal muscular atrophy (SMA) achieved key motor milestones after one year of treatment with investigational risdiplam. Among the infants who received the dose selected for the confirmatory Part 2 of the study (n=17), seven (41.2 percent) were able to sit without support for at least 5 seconds, assessed by the Gross Motor Scale of the Bayley Scales of Infant and Toddler Development – Third Edition (BSID-III). In addition, 11 (64.7 percent) infants were able to sit (with or without support) while nine (52.9 percent) achieved upright head control after 12 months of treatment as assessed by the Hammersmith Infant Neurological Examination Module 2 (HINE-2). Finally, one infant (5.9 percent) achieved the milestone of standing (supports weight) by this 12-month time point.
The data were presented at the 71st American Academy of Neurology (AAN) Annual Meeting from May 4-10 in Philadelphia, Pennsylvania. Roche and Genentech lead the clinical development of risdiplam, an investigational, orally administered survival motor neuron-2 (SMN2) splicing modifier for SMA, as part of a collaboration with the SMA Foundation and PTC Therapeutics.
“The continued improvements in motor milestones and function in the FIREFISH study to date are meaningful for this typical SMA Type 1 population where the majority of babies started treatment at nearly seven months old,” said FIREFISH study lead investigator Giovanni Baranello, M.D., Carlo Besta Neurological Research Institute Foundation, Developmental Neurology Unit, Milan, Italy.* “These encouraging findings further validate a treatment approach that increases survival motor neuron protein in both the central nervous system and throughout the body.”
Part 1 of FIREFISH also assessed motor function with the Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP-INTEND), a scale used for infants with Type 1 SMA. Results showed that 10 out of 17 infants (58.8 percent) in the therapeutically dosed group achieved a CHOP-INTEND total score of 40 points or more. Median change from baseline to month 12 in CHOP-INTEND was 17.5 points. The maximum CHOP-INTEND score was 57 points after 12 months of treatment, increasing from a maximum of 49 points after eight months.
Among all 21 infants enrolled in Part 1 of the FIREFISH study, the median duration of treatment is 14.8 months, with 19 infants treated for more than 12 months. Three infants experienced fatal complications of their disease after approximately one, eight and 13 months of treatment. None of these have been attributed by the investigator as related to risdiplam. No infant has lost the ability to swallow during the study, and no infant has required tracheostomy or permanent ventilation. The event-free survival was 18 out of 21 (85.7 percent) overall and 15 out of 17 (88.2 percent) in the therapeutically dosed group. The most common adverse events included fever (pyrexia; 52.4 percent), upper respiratory tract infections (42.9 percent), diarrhea (28.6 percent), vomiting (23.8 percent), cough (23.8 percent), pneumonia (19.0 percent) and constipation (19.0 percent).
“We are highly encouraged by our latest findings for risdiplam, which take us one step closer to potentially bringing the first oral treatment option to the SMA community,” said Sandra Horning, M.D., chief medical officer and head of Global Product Development. “While SMA has seen important advances over the past few years, significant medical need remains for people living with all types of SMA across multiple age groups. We look forward to sharing additional data from our broad development program for risdiplam as it emerges.”
Genentech also presented new data from Part 1 of its pivotal SUNFISH trial in people aged 2-25 years with Type 2 or 3 SMA. The dose-finding SUNFISH Part 1 includes a particularly broad patient population. Baseline functional status ranged from individuals unable to sit to those capable of walking. Scoliosis ranged from none to severe. As previously reported, a sustained median increase from baseline in SMN protein of greater than two-fold, as measured in blood, was seen after 12 months of treatment with risdiplam.
The most common adverse events in Part 1 of the SUNFISH study were fever (pyrexia; 41 percent), cough (33 percent), vomiting (29 percent), upper respiratory tract infections (26 percent), persistent sore throat (oropharyngeal pain; 22 percent) and cold (nasopharyngitis; 20 percent). The most common serious adverse event that occurred in two of the 51 patients exposed to risdiplam was pneumonia. To date there have been no treatment-related safety findings leading to withdrawal from any study.
An exploratory efficacy analysis of Part 1 (n=51) of the SUNFISH study assessed motor function, using the Motor Function Measure-32 (MFM32) scale. This scale is designed to detect motor function changes in a broad range of patients, from weak Type 2 to strong Type 3 SMA, and is therefore more appropriate for the SUNFISH population. One patient withdrew from the trial during the open-label extension. Among the patients for which the MFM32 scale has been completed at all visits up to month 12 (n=43), 58 percent saw an improvement of at least three points on the scale from baseline, including 71 percent among patients 2-11 years old and 42 percent aged 12-25 years. While Part 1 of the SUNFISH study was not designed or powered to detect efficacy, the change from baseline in total MFM32 score is the primary efficacy endpoint in the ongoing Part 2 (n=180) of the trial.
The confirmatory Part 2 portions of the SUNFISH and FIREFISH studies have completed enrollment and will conduct their primary efficacy analyses in Q4 2019 and Q1 2020, respectively.
Roche and Genentech are planning to include the new data presented at the AAN Annual Meeting in regulatory filings with the U.S. Food and Drug Administration and European Medicines Agency during the second half of 2019.
Full session details and data presentation listings for the 2019 AAN Annual Meeting can be found at the meeting website: https://www.aan.com/conferences-community/annual-meeting/.
Follow Genentech on Twitter via @Genentech and keep up to date with AAN 2019 Annual Meeting news and updates by using the hashtag #AANAM.
*Current location of investigator: Dubowitz Neuromuscular Centre, UCL, Institute of Child Health, Great Ormond Street Hospital, London, U.K.
About spinal muscular atrophy
Spinal muscular atrophy (SMA) is a severe, inherited, progressive neuromuscular disease that causes devastating muscle atrophy and disease-related complications. It is the most common genetic cause of infant mortality and one of the most common rare diseases, affecting approximately one in 11,000 babies. SMA leads to the progressive loss of nerve cells in the spinal cord that control muscle movement. Depending on the type of SMA, an individual’s physical strength and their ability to walk, eat or breathe can be significantly diminished or lost.
SMA is caused by a mutation in the survival motor neuron 1 (SMN1) gene that results in a deficiency of SMN protein. SMN protein is found throughout the body and increasing evidence suggests SMA is a multi-system disorder and the loss of SMN protein may affect many tissues and cells, which can stop the body from functioning.
Risdiplam is an investigational orally-administered medicine being studied in a broad range of patients with SMA from one month to 60 years of age. It is designed to provide sustained increases in SMN protein centrally and peripherally through daily dosing and is being evaluated for its potential ability to help the SMN2 gene produce more functional SMN protein throughout the body.
Roche and Genentech lead the clinical development of risdiplam as part of a collaboration with the SMA Foundation and PTC Therapeutics. Risdiplam is currently being evaluated in four multicenter trials in people with SMA:
About Genentech in neuroscience
Neuroscience is a major focus of research and development at Genentech and Roche. The company’s goal is to develop treatment options based on the biology of the nervous system to help improve the lives of people with chronic and potentially devastating diseases. Genentech and Roche have more than a dozen investigational medicines in clinical development for diseases that include multiple sclerosis, spinal muscular atrophy, neuromyelitis optica spectrum disorder, Alzheimer’s disease, Huntington’s disease, Parkinson’s disease, Duchenne muscular dystrophy and autism.
Founded more than 40 years ago, Genentech is a leading biotechnology company that discovers, develops, manufactures and commercializes medicines to treat patients with serious and life-threatening medical conditions. The company, a member of the Roche Group, has headquarters in South San Francisco, California. For additional information about the company, please visit http://www.gene.com.