Idorsia to present long-term lucerastat data and kidney biopsy results at WORLDSymposium
- Data from up to 42 months of treatment reinforce lucerastat’s potential as a first-in-class oral substrate reduction therapy addressing key unmet needs across the Fabry population
- The company is finalizing the development plan for the optimal regulatory pathway to approval
Allschwil, Switzerland – January 30, 2026
Idorsia Ltd (SIX: IDIA) announces that the results of lucerastat treatment over 42-months and the kidney biopsy data will be presented at the 22nd Annual WORLDSymposium™, taking place from February 2-6, 2026.
The following two posters will be presented on February 5, 15:30 PST (February 6, 00:30 CET):
- Lucerastat, an investigational oral substrate reduction therapy in Fabry disease: Kidney biopsy results from the MODIFY open-label extension study (#125, Kiosk 14-B)
- Lucerastat effect on kidney function in patients with Fabry disease: Results from the ongoing open label-extension (OLE) of the phase 3 clinical program (#361. Kiosk 39-B)
The posters present long-term results from the Phase 3 MODIFY study and its open-label extension when ongoing participants had received lucerastat for at least 42 months, with some exceeding six years of continuous therapy. These data provide important insight into the durability of lucerastat’s clinical effects and tolerability over extended treatment.
Idorsia also conducted a kidney biopsy sub-study within the open-label extension, enrolling male patients with classic Fabry disease who had received at least two years of lucerastat monotherapy. This analysis evaluated Gb3 accumulation in key kidney cell types using established quantitative methods, generating data that may help further characterize lucerastat’s potential impact on renal disease biology.
About the MODIFY study (NCT03425539) and its open label extension (NCT03737214)
MODIFY was a multicenter, double-blind, randomized, placebo-controlled, parallel-group study to determine the efficacy and safety of lucerastat as an oral monotherapy in adult patients with Fabry disease. 118 patients were randomized in a 2:1 ratio to either lucerastat or placebo. At the end of the double-blind period, 107 patients entered an open label extension study, to determine the long-term safety and tolerability of lucerastat oral therapy and to further evaluate its clinical efficacy on renal function, in adult patients with Fabry disease. Results from the pivotal Phase 3 MODIFY study and 12-month interim analysis of its open-label extension (OLE) have been published in Nature Communications, titled “Lucerastat, an oral therapy for Fabry disease: Results from a pivotal phase 3 study and its open-label extension”.
The MODIFY study in Fabry disease enrolled a diverse population of 118 patients across 14 countries. As announced in an earlier press release, while the study did not meet its primary endpoint of reducing neuropathic pain over six months, lucerastat demonstrated a robust pharmacodynamic effect, significantly reducing plasma and urinary Gb3 levels compared to placebo. These reductions were sustained over time in the OLE, with patients switching from placebo to lucerastat showing similar biomarker reductions.
More importantly, an interim analysis of the OLE, where ongoing patients had been treated with lucerastat for at least 12 months, revealed a notable shift in renal function trajectory, with a reduction in the rate of eGFR decline among patients treated with lucerastat as compared to eGFR slope observed in the 2 years preceding their enrollment in MODIFY. In patients with impaired renal function or fast-deteriorating eGFR at baseline, lucerastat was associated with a marked attenuation of kidney function loss, suggesting a potential disease-modifying effect. In addition, there was a stabilization of cardiac function, with no worsening over time of the echocardiography left ventricular mass index (see this press release for more details).
Notes to the editor
About Fabry disease
Fabry disease is a rare, X-linked lysosomal storage disorder caused by mutations in the GLA gene, resulting in deficient or absent activity of the enzyme α-galactosidase A (α-Gal A). This enzymatic deficiency leads to the accumulation of globotriaosylceramide (Gb3) and its derivatives in cells throughout the body. Over time, this buildup causes progressive damage across multiple organ systems, including the kidneys, heart, nervous system, skin, eyes, and gastrointestinal tract.
The disease manifests in two main phenotypes: classic Fabry disease, typically presenting in childhood with severe, multisystemic involvement, and late-onset Fabry disease, which may emerge in adulthood with predominant cardiac or renal symptoms. Due to its variable presentation and non-specific symptoms, Fabry disease is frequently underdiagnosed or misdiagnosed, leading to delays in treatment and increased risk of irreversible organ damage.
Recent newborn screening programs and high-risk population studies suggest that Fabry disease is more prevalent than previously estimated, with a diagnosed prevalence of more than 21,000 patients expected across the US, EU5, and Japan by 2034, and a higher incidence of late-onset forms. Notably, female patients, once considered carriers, are now recognized as affected individuals with a wide spectrum of disease severity – up to 70% of heterozygous females develop Fabry-related symptoms during their lifetime.
Current treatment options include enzyme replacement therapies (ERTs) and oral chaperone therapy for patients with amenable mutations. However, these therapies have limitations, including intravenous administration, immunogenicity, and mutation-specific efficacy. There remains a significant unmet need for a well-tolerated, oral, disease-modifying therapy that can be used regardless of genotype or prior treatment history.
Lucerastat in Fabry disease
Lucerastat is an investigational, oral substrate reduction therapy designed to treat Fabry disease independently of α-Gal A activity, GLA mutation status, or prior enzyme replacement therapy (ERT). It acts by inhibiting glucosylceramide synthase, thereby reducing the synthesis of glycosphingolipids, including globotriaosylceramide (Gb3), which accumulate due to deficient α-galactosidase A activity in Fabry disease.
Preclinical studies demonstrated that lucerastat is a highly soluble and bioavailable small molecule capable of penetrating key tissues affected by Fabry disease – including the kidneys, liver, and dorsal root ganglia – where it effectively reduces substrate accumulation. Clinical pharmacology studies confirmed lucerastat’s favorable pharmacokinetic profile, characterized by rapid absorption, predictable elimination, and no evidence of saturation, supporting consistent exposure across dosing regimens.
In early clinical trials, lucerastat was well tolerated at doses up to 4000 mg, with no dose-limiting toxicities and a safety profile unaffected by concomitant medications. In a 12-week exploratory study in adult Fabry patients receiving ERT, lucerastat 1000 mg twice daily led to a rapid and sustained reduction in plasma Gb3 and related biomarkers, confirming its mechanism of action and potential for fast-onset substrate reduction.
The recently published Phase 3 MODIFY study and its long-term extension further support lucerastat’s disease-modifying potential. While the primary endpoint of neuropathic pain reduction was not met, lucerastat demonstrated robust and sustained biomarker reductions and a promising renal signal, with a slower rate of eGFR decline in patients with impaired kidney function. These findings suggest lucerastat may offer long-term organ protection and broaden therapeutic options for Fabry patients, especially those underserved by current treatments.
Key scientific literature
- Nordbeck P., et al. Lucerastat, an oral therapy for Fabry disease: Results from a pivotal phase 3 study and its open-label extension. Nature Communications, 10 January 2026 (online ahead of print). https://doi.org/10.1038/s41467-025-68256-5
- Guérard N., et al. Lucerastat, an iminosugar for substrate reduction therapy: tolerability, pharmacodynamics, and pharmacokinetics in patients with Fabry disease on enzyme replacement. Clin Pharmacol Ther. 2018; 103(4):703-11.
- Welford RWD., et al. Glucosylceramide synthase inhibition with lucerastat lowers globotriaosylceramide and lysosome staining in cultured fibroblasts from Fabry patients with different mutation types. Hum Mol Genet 2018; 27(19): 3392-3403
- Germain DP. Fabry disease. Orphanet J Rare Dis. 2010 Nov 22;5:30.
About Idorsia
The purpose of Idorsia is to challenge accepted medical paradigms, answering the questions that matter most. To achieve this, we will discover, develop, and commercialize transformative medicines – either with in-house capabilities or together with partners – and evolve Idorsia into a leading biopharmaceutical company, with a strong scientific core.
Headquartered near Basel, Switzerland – a European biotech hub – Idorsia has a highly experienced team of dedicated professionals, covering all disciplines from bench to bedside; QUVIVIQ™ (daridorexant), a different kind of insomnia treatment with the potential to revolutionize this mounting public health concern; strong partners to maximize the value of our portfolio; a promising in-house development pipeline; and a specialized drug discovery engine focused on small-molecule drugs that can change the treatment paradigm for many patients. Idorsia is listed on the SIX Swiss Exchange (ticker symbol: IDIA).
For further information, please contact:
Investor & Media Relations
Idorsia Pharmaceuticals Ltd, Hegenheimermattweg 91, CH-4123 Allschwil
+41 58 844 10 10
investor.relations@idorsia.com – media.relations@idorsia.com – www.idorsia.com
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