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INTRODUCTION: The Phase 3 APOLLO-B study evaluates patisiran in patients (pts) with transthyretin (ATTR) cardiac amyloidosis over a 12-month (M) double-blind (DB) period, followed by an open-label extension (OLE) period when all pts receive patisiran (NCT03997383). Hypothesis: Patisiran provides long-term benefit in pts with ATTR cardiac amyloidosis. Aims: Describe safety and efficacy of patisiran during the APOLLO-B OLE (18M+). METHODS: Pts (18-85 yrs) with ATTR cardiac amyloidosis and heart failure history were randomized 1:1 to patisiran or placebo (pbo). Pts completing DB period were eligible to receive patisiran in the OLE for ≤36M. Results summarized based on DB treatment arm. Exploratory assessments include change from study baseline (CFB) in 6-minute walk test (6MWT), KCCQ-OS, NT-proBNP, and troponin I. RESULTS: In the DB period, 359 pts (pbo n=178; patisiran n=181) received study drug (median [range] age, 76.0 [41, 85] yrs; male, 89%; wtATTR, 80%; tafamidis at baseline, 25%); 334 (93%) entered the OLE. In patisiran arm, M12 and M18 results, respectively, were similar for each endpoint: 6MWT and KCCQ-OS (mean [SEM] CFB) −8.09 [5.73] vs −9.21 [6.04] meters (m) and 0.60 [1.36] vs 0.22 [1.48]; NT-proBNP and troponin I (geometric mean fold-CFB [95%CI]) 1.10 [1.03, 1.17] vs 1.17 [1.07, 1.27] and 1.11 [1.05, 1.18] vs 1.09 [1.01, 1.17]). In pbo arm, patisiran initiation in OLE was associated with a slower rate of worsening or relative stability across endpoints; CFB at M12 vs M18, respectively: 6MWT, −25.43 [5.61] vs −31.08 [5.45] m; KCCQ-OS, −3.41 [1.33] vs −4.02 [1.49]; NT-proBNP, 1.39 [1.28, 1.51] vs 1.53 [1.38, 1.71]; and troponin I, 1.29 [1.21, 1.38] vs 1.21 [1.13, 1.30]. Patisiran had an acceptable safety profile; no new concerns. OLE analyses are ongoing; updated data to be presented. CONCLUSIONS: The M18 results provide evidence that beneficial effects observed in DB period on functional capacity, health status, and quality of life were maintained by continued treatment with patisiran during the OLE. Pbo-treated pts initiating patisiran at M12 showed slowed worsening or stabilization in most endpoints at M18. Early treatment initiation is important: pbo-treated pts did not recover functional capacity or health lost prior to initiating OLE patisiran.
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Abstract Therapeutics that inhibit enzymes, receptors, ion channels, and cotransporters have long been the mainstay of cardiovascular medicine. Now, oligonucleotide therapeutics offer a modern variation on this paradigm of protein inhibition. Rather than target a protein, however, small interfering ribonucleic acids and antisense oligonucleotides target the messenger RNA (mRNA) from which a protein is translated. Endogenous, cellular mechanisms enable the oligonucleotides to bind a selected sequence on a target mRNA, leading to its degradation. The catalytic nature of the process confers an advantage over the stoichiometric binding of traditional small molecule therapeutics to their respective protein targets. Advances in nucleic acid chemistry and delivery have enabled development of oligonucleotide therapeutics against a wide range of diseases, including hyperlipidemias and hereditary transthyretin-mediated amyloidosis with polyneuropathy. While most of these therapeutics were initially designed for rare diseases, recent clinical trials highlight the potential impact of oligonucleotides on more common forms of cardiovascular disease.