Who to treat, when, and with which treatment
For many patients, having multiple effective treatment options means that SMA is no longer a fatal disease in early childhood, but one that can be managed into adolescence and adulthood. The question for clinicians is, who do they treat, when, and with which treatment?
Studies have long shown that the number of copies of the backup gene that a patient has is inversely associated with disease severity.6 In 2018, a group of SMA experts published a treatment algorithm to help guide decision-making following a positive SMA newborn screening.7 The treatment guidelines were updated in 2020 based on clinical trial data for presymptomatic infants, and current recommendations include immediate treatment for infants with two to four copies of the SMN2 gene.8 For patients with only one copy of SMN2, most of whom will likely be symptomatic at birth, the guidelines recommend that treatment decisions be made jointly between the clinician and the family.7,8
Some suggest that the number of SMN2 copies a patient has should also be a factor in determining phenotype, which has started a conversation on the development of a new classification system.9 The original classification system for disease severity – Types 0-4 – was based on age of onset and degree of motor function achieved, with Type 0 developing prenatally and being the most severe and Type 4 developing in adulthood. Type 1 is the most common, affecting more than half of all people with SMA, followed by Types 2-4. In 2018, updated consensus care guidelines offered a revised classification system that better reflected disease progression in the age of therapy. The functional motor outcomes include nonsitters (historically Type I), sitters (historically Type 2/3), and walkers (historically Type 3/4).10,11 These guidelines are a start, but clinicians say more revision is needed.
“Types 1, 2, 3, 4 were based on function – getting to a certain point and then losing it, but now that we can treat this disease, people will shift categories based on therapeutic response or based on normal development that is possible now that the neurologic piece has been stabilized,” Dr. Brandsema said. “We need to completely change our thinking around all these different aspects of SMA management.”
While discussions of a new classification system for SMA are underway, another effort to update treatment recommendations is closer to completion. Led by Cure SMA, a group of about 50 physician experts in the United States and Europe who specialize in SMA are revising guidelines for diagnosis and treatment, the first time the recommendations have been updated since 2018. The updated recommendations, which should be published later this year, will focus on diagnosis and treatment considerations.
“We have three treatments that are available, and there are specific FDA indications for each of those, but it’s not totally clear just how those medications should be used or applied to different clinical situations,” said Dr. Schroth. “We’re in a rapid phase of learning right now in the SMA community, trying to understand how these treatments alter physiology and disease outcomes and how to best use the tools that we now have available to us. In parallel with clinical treatments, we have to be doing the best care we can to optimize the outcomes for those treatments.”
Research advances in 2021
Although all three drugs approved to treat SMA – nusinersen (Spinraza; Biogen), onasemnogene abeparvovec-xioi gene replacement therapy (Zolgensma; Novartis Gene Therapies), and risdiplam (Evrysdi, Genentech/Roche) – are highly effective, there are still unanswered questions and unmet needs. New research findings from 2021 focused on higher dosing, different drug-delivery methods, combination therapy, and complementary therapeutics to address SMA comorbidities.
Higher-dose nusinersen. The first drug approved to treat SMA, nusinersen is an antisense oligonucleotide approved for all ages and all SMA types. It works by altering splicing of the SMN2 gene pre-mRNA to make more complete SMN protein. Given as an intrathecal (IT) injection, four “loading doses” are administered within the first 2 months of treatment, followed by a maintenance dose every 4 months for the duration of the individual’s life.
Reports from patients of waning effects of nusinersen just prior to follow-up treatment have led some clinicians to ask if a higher dose may be needed. A study underway seeks to address that issue.
DEVOTE is a phase 2/3 trial to study the safety and efficacy of high-dose nusinersen in patients with SMA. Preliminary findings reported in 2021 found no adverse events among patients treated with 28 mg of nusinersen for 161-257 days.12 Another analysis from this trial found that higher doses are associated with greater decrease of plasma phosphorylated neurofilament heavy chain (pNF-H) levels in patients with SMA and may lead to clinically meaningful improvement in motor function beyond that observed with the approved 12 mg dose.13 The trial is ongoing.
Another trial, ASCEND, is a phase 3B study assessing higher dose nusinersen in patients previously treated with risdiplam. Recruitment for that trial began in October 2021.
Long-term efficacy and IT administration of SMA therapy. Several studies are looking at the long-term efficacy and alternate routes of administration of onasemnogene abeparvovec and other SMA therapies.
A one-time gene replacement therapy delivered via an IV infusion replaces the function of the missing or nonworking SMN1 gene with a new, working copy of the SMN1 gene. FDA approved in 2019, it is authorized for use in patients with SMA up to 2 years of age.
The latest data from an ongoing, long-term follow-up safety study of onasemnogene abeparvovec, published in May 2021, suggest that the treatment’s effects persist more than 5 years after treatment. Researchers followed 13 infants with symptomatic SMA type 1 since the beginning of the phase 1 clinical trial of the gene transfer therapy. All patients who received the therapeutic dose maintained their baseline motor function, and two of the patients actually improved without other SMN-targeted treatment. At a median 6.2 years after they received treatment, all were alive and none needed permanent ventilation.14
After a 2-year hold by the FDA, a study of IT administration of onasemnogene abeparvovec is now enrolling patients. Citing concerns from animal studies that IT administration might result in dorsal root ganglia injury, the FDA issued a partial hold on the STRONG trial in 2019. Following positive study results in nonhuman primates, the FDA announced the trial can continue. Novartis is launching a new phase 3 STEER trial to test the drug delivered intrathecally in patients aged 2-18 years with Type 2 SMA. IT administration could allow the gene therapy to be used safely and effectively in more patients with SMA.
Efficacy of risdiplam in more patients. The first oral treatment for SMA was approved by the FDA in 2020. It’s given once per day in patients with SMA of all ages and disease types. The drug increases functional SMN protein production by the SMN2 gene.
A July 2021 publication of the results of the FIREFISH study found that infants with Type I SMA treated with risdiplam for 12 months were significantly more likely to achieve motor milestones, such as sitting without support, compared with untreated infants with Type 1 SMA.15 Risdiplam is also effective in older patients with Type 2 or 3 SMA, according to results published in December from the SUNFISH clinical trial.16 Another study, RAINBOWFISH, is studying safety and efficacy at 24 months in presymptomatic infants started on treatment at up to 6 weeks of age.
The efficacy of risdiplam in previously treated patients is the subject of JEWELFISH, an ongoing study in patients 6 months to 60 years with SMA. Preliminary data presented at the 2020 Virtual SMA Research and Clinical Care Meeting suggest treatment with risdiplam led to a median two-fold increase in the amount of blood SMN protein levels after 4 weeks, which was sustained for at least 24 months.17
Combination therapy. Among the more eagerly awaited results are those from studies of combination therapies, including those that combine approved SMN up-regulators with new non–SMN-targeted therapeutics.
“We’re seeing that while these three approved therapies have dramatic results, especially for infants who are treated presymptomatically, there are still unmet medical needs in those patients, particularly for older teens and adults whose disease may have progressed before they were able to start therapy,” said Jackie Glascock, PhD, vice president of research for Cure SMA.
Of particular interest are studies of myostatin inhibitors, therapeutics that block the production of the protein myostatin. Myostatin acts on muscle cells to reduce muscle growth. Animal studies suggest that inhibiting myostatin increases muscle mass, which could be important in patients with muscle loss due to SMA.
Three experimental myostatin inhibitors are currently in clinical trials. MANATEE is a global phase 2-3 trial that aims to evaluate the safety and efficacy of the antimyostatin antibody GYM329 (RO7204239) in combination with risdiplam. SAPPHIRE is a phase 3 trial of apitegromab (SRK-015) in combination with nusinersen or risdiplam. RESILIANT is a phase 3 trial of tadefgrobep alfa in combination with other treatments.
A trial is underway to study the efficacy and safety of nusinersen in patients with persistent symptoms of SMA after treatment with the gene therapy. The phase 4 study, RESPOND, is enrolling children aged 2-36 months.