A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome

Elizabeth Berry-Kravis; Joseph P. Horrigan; Nicole Tartaglia; Randi Hagerman; Alexander Kolevzon; Craig A. Erickson; Shivkumar Hatti; Mike Snape; Alex Yaroshinsky; George Stoms; Kevin Sanders; Jean Frazier; Thomas Challman; Jeffrey Innis; Bryan King; Joseph Cubells; Jeannie Visootsak; Steven Skinner; Dianne Treadwell-Deering; Sherry Sellers Vinson; Howard Needelman; Larry Glass; Nancy E. Jones

doi:10.1016/j.pediatrneurol.2020.04.019

A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome

Elizabeth Berry-Kravis, Joseph P. Horrigan, Nicole Tartaglia, Randi Hagerman, Alexander Kolevzon, Craig A. Erickson, Shivkumar Hatti, Mike Snape, Alex Yaroshinsky, George Stoms, Kevin Sanders, Jean Frazier, Thomas Challman, Jeffrey Innis, Bryan King, Joseph Cubells, Jeannie Visootsak, Steven Skinner, Dianne Treadwell-Deering, Sherry Sellers VinsonHoward Needelman, Larry Glass, Nancy E. Jones

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

Background: We analyze the safety and tolerability of trofinetide and provide a preliminary evaluation of its efficacy in adolescent and adult males with fragile X syndrome. Methods: This study was an exploratory, phase 2, multicenter, double-blind, placebo-controlled, parallel group study of the safety and tolerability of orally administered trofinetide in 72 adolescent and adult males with fragile X syndrome. Subjects were randomly assigned in a 1:1:1 ratio to 35 or 70 mg/kg twice daily trofinetide or placebo for 28 days. Safety assessments included adverse events, clinical laboratory tests, vital signs, electrocardiograms, physical examinations, and concomitant medications. Efficacy measurements were categorized into four efficacy domains, which related to clinically relevant phenotypic dimensions of impairment associated with fragile X syndrome. Results: Both 35 and 70 mg/kg dose levels of trofinetide were well tolerated and appeared to be generally safe. Trofinetide at the 70 mg/kg dose level demonstrated efficacy compared with placebo based on prespecified criteria. On the basis of a permutation test, the probability of a false-positive outcome for the achieved prespecified success was 0.045. In the group analysis, improvement from treatment baseline was demonstrated on three fragile X syndrome–specific outcome measures. Conclusions: Trofinetide was well tolerated in adolescent and adult males with fragile X syndrome. Despite the relatively short duration of the study, a consistent signal of efficacy at the higher dose was observed in both caregiver and clinician assessments, based on a novel analytical model incorporating evaluation of multiple key symptom areas of fragile X syndrome. This finding suggests a potential for trofinetide treatment to provide clinically meaningful improvement in core fragile X syndrome symptoms.

Original language	English (US)
Pages (from-to)	30-41
Number of pages	12
Journal	Pediatric Neurology
Volume	110
DOIs	https://doi.org/10.1016/j.pediatrneurol.2020.04.019
State	Published - Sep 2020

Keywords

Clinical trial
Fragile X
NNZ-2566
Neurodevelopmental disorders
Trofinetide

ASJC Scopus subject areas

Pediatrics, Perinatology, and Child Health
Neurology
Developmental Neuroscience
Clinical Neurology

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10.1016/j.pediatrneurol.2020.04.019

Cite this

Berry-Kravis, E., Horrigan, J. P., Tartaglia, N., Hagerman, R., Kolevzon, A., Erickson, C. A., Hatti, S., Snape, M., Yaroshinsky, A., Stoms, G., Sanders, K., Frazier, J., Challman, T., Innis, J., King, B., Cubells, J., Visootsak, J., Skinner, S., Treadwell-Deering, D., ... Jones, N. E. (2020). A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome. Pediatric Neurology, 110, 30-41. https://doi.org/10.1016/j.pediatrneurol.2020.04.019

Berry-Kravis, E, Horrigan, JP, Tartaglia, N, Hagerman, R, Kolevzon, A, Erickson, CA, Hatti, S, Snape, M, Yaroshinsky, A, Stoms, G, Sanders, K, Frazier, J, Challman, T, Innis, J, King, B, Cubells, J, Visootsak, J, Skinner, S, Treadwell-Deering, D, Vinson, SS, Needelman, H, Glass, L & Jones, NE 2020, 'A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome', Pediatric Neurology, vol. 110, pp. 30-41. https://doi.org/10.1016/j.pediatrneurol.2020.04.019

@article{fe02376ef5f049f8990f79cafccf063c,

title = "A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome",

abstract = "Background: We analyze the safety and tolerability of trofinetide and provide a preliminary evaluation of its efficacy in adolescent and adult males with fragile X syndrome. Methods: This study was an exploratory, phase 2, multicenter, double-blind, placebo-controlled, parallel group study of the safety and tolerability of orally administered trofinetide in 72 adolescent and adult males with fragile X syndrome. Subjects were randomly assigned in a 1:1:1 ratio to 35 or 70 mg/kg twice daily trofinetide or placebo for 28 days. Safety assessments included adverse events, clinical laboratory tests, vital signs, electrocardiograms, physical examinations, and concomitant medications. Efficacy measurements were categorized into four efficacy domains, which related to clinically relevant phenotypic dimensions of impairment associated with fragile X syndrome. Results: Both 35 and 70 mg/kg dose levels of trofinetide were well tolerated and appeared to be generally safe. Trofinetide at the 70 mg/kg dose level demonstrated efficacy compared with placebo based on prespecified criteria. On the basis of a permutation test, the probability of a false-positive outcome for the achieved prespecified success was 0.045. In the group analysis, improvement from treatment baseline was demonstrated on three fragile X syndrome–specific outcome measures. Conclusions: Trofinetide was well tolerated in adolescent and adult males with fragile X syndrome. Despite the relatively short duration of the study, a consistent signal of efficacy at the higher dose was observed in both caregiver and clinician assessments, based on a novel analytical model incorporating evaluation of multiple key symptom areas of fragile X syndrome. This finding suggests a potential for trofinetide treatment to provide clinically meaningful improvement in core fragile X syndrome symptoms.",

keywords = "Clinical trial, Fragile X, NNZ-2566, Neurodevelopmental disorders, Trofinetide",

author = "Elizabeth Berry-Kravis and Horrigan, {Joseph P.} and Nicole Tartaglia and Randi Hagerman and Alexander Kolevzon and Erickson, {Craig A.} and Shivkumar Hatti and Mike Snape and Alex Yaroshinsky and George Stoms and Kevin Sanders and Jean Frazier and Thomas Challman and Jeffrey Innis and Bryan King and Joseph Cubells and Jeannie Visootsak and Steven Skinner and Dianne Treadwell-Deering and Vinson, {Sherry Sellers} and Howard Needelman and Larry Glass and Jones, {Nancy E.}",

note = "Funding Information: Conflicts of interest: E.B.-K. participated in the Neu-2566-FXS 001 trial, has been a consultant for Seaside Therapeutics, Novartis, Roche, Alcobra, Neuren, Cydan, Fulcrum, GW, Neurotrope, Marinus, Zynerba, BioMarin, and Ovid Pharmaceuticals regarding conduct of clinical trials in FXS and other rare neurological diseases, is on the Scientific Advisory Board for Vtesse/Mallinckrodt to provide guidance on clinical trials in Niemann-Pick type C (NP-C), has received research funding to conduct clinical trials in FXS from Novartis, Roche, Seaside Therapeutics, Alcobra, Neuren, Ovid, and Zynerba to conduct a clinical trial in NP-C from Vtesse/Mallinckrodt, and to develop FMR1 testing standards from Asuragen. She was also a participating principal investigator on a clinical trial in Rett syndrome sponsored by Neuren Pharmaceuticals. She has research finding through grants from NIH, CDC, FRAXA Research Foundation, International Rett Syndrome Foundation, and the Phelan McDermid Foundation. She was consultant to GCC on the project funded by Neuren Pharmaceuticals for the psychometric analysis of the FXRS. J.P.H. was an employee at Neuren Pharmaceuticals, Inc. during the conduct of the research. He is currently an employee at AMO Pharma Ltd., which was not involved in the clinical trial reported in this manuscript. N.T. participated in the Neu-2566-FXS 001 trial and has received research funding from NICHD and CDC, and for industry-sponsored clinical trials in autism and/or fragile X from Seaside Therapeutics, Roche, Neuren, Alcobra, Zynerba, and Ovid. She has consulted with Zynerba and Ovid on clinical trial design and outcome measures in FXS. R.H. participated in the Neu-2566-FXS 001 trial and receives research funding from NICHD, Azrieli Foundation, Curemark, and Zynerba currently regarding studies in FXS, autism, or premutation involvement. She has consulted with Zynerba, Fulcrum, Ovid, Novartis, and Roche in the past and has carried out studies funded by Marinus, Roche, Novartis, Seaside Therapeutics, Forest, and the National Fragile X Foundation in the past. A.K. participated in the Neu-2566-FXS 001 trial and receives research funding from the National Institute of Neurological Disorders and Stroke, New York Community Trust, AMO Pharma, and the Seaver Foundation. He has been a consultant for Ovid Therapeutics, Genentech, Supernus Pharmaceuticals, Fulcrum Therapeutics, Coronis, 5AM Ventures, Labcorp, and sema4. C.A.E. participated in the Neu-2566-FXS 001 trial. He has received current or past funding from Confluence Pharmaceuticals, Novartis, F. Hoffmann-La Roche Ltd., Seaside Therapeutics, Riovant Sciences, Inc., Fulcrum Therapeutics, Neuren Pharmaceuticals Ltd., Alcobra Pharmaceuticals, Neurotrope, Zynerba Pharmaceuticals, Inc., and Ovid Therapeutics Inc. to consult on trial design or development strategies and/or conduct clinical trials in FXS or other neurodevelopmental disorders. C.A.E. is additionally the inventor or coinventor on several patents held by Cincinnati Children's Hospital Medical Center or Indiana University School of Medicine describing methods of treatment in FXS or other neurodevelopmental disorders. S.H. participated in the Neu-2566-FXS 001 trial. M.S. was a consultant for Neuren Pharmaceuticals for the reported study. He is an employee of AMO Pharma Ltd., which was not involved in the presently reported study. A.Y. is a Biostatistician for Vital Systems, Inc., a contract research organization utilized by Neuren for the trial described in this article. G.S. is President of Vital Systems, Inc., a contract research organization utilized by Neuren Pharmaceuticals for the conduct and analysis of this clinical trial, the Rett-001 and Rett 002 trials of trofinetide in Rett syndrome, and trials in traumatic brain injury sponsored by Neuren. L.G. and N.E.J. are executives at Neuren Pharmaceuticals Ltd. Funding Information: The study NCT01894958 was sponsored and funded by Neuren Pharmaceuticals, Ltd. The authors gratefully acknowledge the contribution of patients who participated in the study and their families. The authors also thank Lars Sanders for his help with the figures. The authors acknowledge the 15 clinical centers and study staff who recruited participants for the study: Elizabeth Berry-Kravis, MD, PhD, Rush University Medical Center; Nicole Tartaglia, MD, Children's Hospital Colorado; Craig Erickson, MD, Cincinnati Children's Hospital Medical Center; Randi Hagerman, MD, UC Davis MIND Institute; Shivkumar Hatti, MD, Suburban Research Associates; Kevin Sanders, MD, Vanderbilt University Medical Center; Alexander Kolevzon, MD, Icahn School of Medicine at Mount Sinai; Jean Frazier, MD, University of Massachusetts Medical School; Thomas Challman, MD, Geisinger Medical Center; Joseph Cubells, MD, Emory University; Jeannie Visootsak, MD, Emory University; Jeffrey Innis, MD, University of Michigan; Bryan King, MD, Seattle Children's Hospital Research Center; Steven Skinner, MD, Greenwood Genetic Center, Diane Treadwell-Deering, MD, Texas Children's Hospital; Sherry Vinson-Sellers, MD, Texas Children's Hospital; Howard Needelman, MD, University of Nebraska. Author contributions: J.P.H. L.G. and N.E.J. conceptualized and designed the study. M.S. participated in the design and conceptualization of the study, including the selection and development of the clinical rating scales. E.B.-K. assisted with the conceptualization and design of the study and selection of outcome measures. J.P.H. led the coordination and implementation of the study. N.E.J. and L.G. participated in the coordination and implementation of the study. E.B.-K. and N.T. assisted with the implementation of study. R.H. A.K. C.A.E. and S.H provided feedback on the protocol or outcome measures. E.B.-K. N.T. R.H. A.K. C.A.E. S.H. and the FXS-001 investigators enrolled subjects and collected study data. A.Y. and G.S. provided statistical advice and conducted the analysis of the safety and efficacy data. J.P.H. L.G. and N.E.J. participated in the analysis. J.P.H. L.G. N.E.J. E.B.-K. N.T. R.H. A.K. C.A.E. and S.H. interpreted the data. J.P.H. L.G. N.E.J. E.B.-K. N.T. R.H. A.K. C.A.E. S.H. M.S. A.Y. and G.S. critically reviewed and revised the manuscript. All named authors read and approved the final manuscript. FXS 001 Investigators: Kevin Sanders, MD, Vanderbilt University Medical School (during the research study); currently with Roche Pharmaceuticals. Jean Frazier, MD, University of Massachusetts. Thomas Challman, MD, Geisinger Medical Center. Jeffrey Innis, MD, PhD, University of Michigan. Bryan King, MD, Seattle Children's Hospital (during the research study); currently with University of California San Francisco. Joseph Cubells, MD, PhD, Emory University. Jeannie Visootsak, MD, Emory University (during the research study); currently with Neurogene Inc. Steven Skinner, MD, Greenwood Genetic Center. Dianne Treadwell-Deering, MD, Texas Children's Hospital (during the study); currently with Nemours/Alfred I. DuPoint Medical Center. Sherry Sellers Vinson, MD, Texas Children's Hospital. Howard Needelman, MD, University of Nebraska Medical Center. Conflicts of interest: E.B.-K. participated in the Neu-2566-FXS 001 trial, has been a consultant for Seaside Therapeutics, Novartis, Roche, Alcobra, Neuren, Cydan, Fulcrum, GW, Neurotrope, Marinus, Zynerba, BioMarin, and Ovid Pharmaceuticals regarding conduct of clinical trials in FXS and other rare neurological diseases, is on the Scientific Advisory Board for Vtesse/Mallinckrodt to provide guidance on clinical trials in Niemann-Pick type C (NP-C), has received research funding to conduct clinical trials in FXS from Novartis, Roche, Seaside Therapeutics, Alcobra, Neuren, Ovid, and Zynerba to conduct a clinical trial in NP-C from Vtesse/Mallinckrodt, and to develop FMR1 testing standards from Asuragen. She was also a participating principal investigator on a clinical trial in Rett syndrome sponsored by Neuren Pharmaceuticals. She has research finding through grants from NIH, CDC, FRAXA Research Foundation, International Rett Syndrome Foundation, and the Phelan McDermid Foundation. She was consultant to GCC on the project funded by Neuren Pharmaceuticals for the psychometric analysis of the FXRS. J.P.H. was an employee at Neuren Pharmaceuticals, Inc. during the conduct of the research. He is currently an employee at AMO Pharma Ltd., which was not involved in the clinical trial reported in this manuscript. N.T. participated in the Neu-2566-FXS 001 trial and has received research funding from NICHD and CDC, and for industry-sponsored clinical trials in autism and/or fragile X from Seaside Therapeutics, Roche, Neuren, Alcobra, Zynerba, and Ovid. She has consulted with Zynerba and Ovid on clinical trial design and outcome measures in FXS. R.H. participated in the Neu-2566-FXS 001 trial and receives research funding from NICHD, Azrieli Foundation, Curemark, and Zynerba currently regarding studies in FXS, autism, or premutation involvement. She has consulted with Zynerba, Fulcrum, Ovid, Novartis, and Roche in the past and has carried out studies funded by Marinus, Roche, Novartis, Seaside Therapeutics, Forest, and the National Fragile X Foundation in the past. A.K. participated in the Neu-2566-FXS 001 trial and receives research funding from the National Institute of Neurological Disorders and Stroke, New York Community Trust, AMO Pharma, and the Seaver Foundation. He has been a consultant for Ovid Therapeutics, Genentech, Supernus Pharmaceuticals, Fulcrum Therapeutics, Coronis, 5AM Ventures, Labcorp, and sema4. C.A.E. participated in the Neu-2566-FXS 001 trial. He has received current or past funding from Confluence Pharmaceuticals, Novartis, F. Hoffmann-La Roche Ltd., Seaside Therapeutics, Riovant Sciences, Inc., Fulcrum Therapeutics, Neuren Pharmaceuticals Ltd., Alcobra Pharmaceuticals, Neurotrope, Zynerba Pharmaceuticals, Inc., and Ovid Therapeutics Inc. to consult on trial design or development strategies and/or conduct clinical trials in FXS or other neurodevelopmental disorders. C.A.E. is additionally the inventor or coinventor on several patents held by Cincinnati Children's Hospital Medical Center or Indiana University School of Medicine describing methods of treatment in FXS or other neurodevelopmental disorders. S.H. participated in the Neu-2566-FXS 001 trial. M.S. was a consultant for Neuren Pharmaceuticals for the reported study. He is an employee of AMO Pharma Ltd., which was not involved in the presently reported study. A.Y. is a Biostatistician for Vital Systems, Inc., a contract research organization utilized by Neuren for the trial described in this article. G.S. is President of Vital Systems, Inc., a contract research organization utilized by Neuren Pharmaceuticals for the conduct and analysis of this clinical trial, the Rett-001 and Rett 002 trials of trofinetide in Rett syndrome, and trials in traumatic brain injury sponsored by Neuren. L.G. and N.E.J. are executives at Neuren Pharmaceuticals Ltd. Funding Information: The study NCT01894958 was sponsored and funded by Neuren Pharmaceuticals, Ltd . The authors gratefully acknowledge the contribution of patients who participated in the study and their families. The authors also thank Lars Sanders for his help with the figures. Publisher Copyright: {\textcopyright} 2020 The Author(s)",

year = "2020",

month = sep,

doi = "10.1016/j.pediatrneurol.2020.04.019",

language = "English (US)",

volume = "110",

pages = "30--41",

journal = "Pediatric Neurology",

issn = "0887-8994",

publisher = "Elsevier Inc.",

}

TY - JOUR

T1 - A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome

AU - Berry-Kravis, Elizabeth

AU - Horrigan, Joseph P.

AU - Tartaglia, Nicole

AU - Hagerman, Randi

AU - Kolevzon, Alexander

AU - Erickson, Craig A.

AU - Hatti, Shivkumar

AU - Snape, Mike

AU - Yaroshinsky, Alex

AU - Stoms, George

AU - Sanders, Kevin

AU - Frazier, Jean

AU - Challman, Thomas

AU - Innis, Jeffrey

AU - King, Bryan

AU - Cubells, Joseph

AU - Visootsak, Jeannie

AU - Skinner, Steven

AU - Treadwell-Deering, Dianne

AU - Vinson, Sherry Sellers

AU - Needelman, Howard

AU - Glass, Larry

AU - Jones, Nancy E.

N1 - Funding Information: Conflicts of interest: E.B.-K. participated in the Neu-2566-FXS 001 trial, has been a consultant for Seaside Therapeutics, Novartis, Roche, Alcobra, Neuren, Cydan, Fulcrum, GW, Neurotrope, Marinus, Zynerba, BioMarin, and Ovid Pharmaceuticals regarding conduct of clinical trials in FXS and other rare neurological diseases, is on the Scientific Advisory Board for Vtesse/Mallinckrodt to provide guidance on clinical trials in Niemann-Pick type C (NP-C), has received research funding to conduct clinical trials in FXS from Novartis, Roche, Seaside Therapeutics, Alcobra, Neuren, Ovid, and Zynerba to conduct a clinical trial in NP-C from Vtesse/Mallinckrodt, and to develop FMR1 testing standards from Asuragen. She was also a participating principal investigator on a clinical trial in Rett syndrome sponsored by Neuren Pharmaceuticals. She has research finding through grants from NIH, CDC, FRAXA Research Foundation, International Rett Syndrome Foundation, and the Phelan McDermid Foundation. She was consultant to GCC on the project funded by Neuren Pharmaceuticals for the psychometric analysis of the FXRS. J.P.H. was an employee at Neuren Pharmaceuticals, Inc. during the conduct of the research. He is currently an employee at AMO Pharma Ltd., which was not involved in the clinical trial reported in this manuscript. N.T. participated in the Neu-2566-FXS 001 trial and has received research funding from NICHD and CDC, and for industry-sponsored clinical trials in autism and/or fragile X from Seaside Therapeutics, Roche, Neuren, Alcobra, Zynerba, and Ovid. She has consulted with Zynerba and Ovid on clinical trial design and outcome measures in FXS. R.H. participated in the Neu-2566-FXS 001 trial and receives research funding from NICHD, Azrieli Foundation, Curemark, and Zynerba currently regarding studies in FXS, autism, or premutation involvement. She has consulted with Zynerba, Fulcrum, Ovid, Novartis, and Roche in the past and has carried out studies funded by Marinus, Roche, Novartis, Seaside Therapeutics, Forest, and the National Fragile X Foundation in the past. A.K. participated in the Neu-2566-FXS 001 trial and receives research funding from the National Institute of Neurological Disorders and Stroke, New York Community Trust, AMO Pharma, and the Seaver Foundation. He has been a consultant for Ovid Therapeutics, Genentech, Supernus Pharmaceuticals, Fulcrum Therapeutics, Coronis, 5AM Ventures, Labcorp, and sema4. C.A.E. participated in the Neu-2566-FXS 001 trial. He has received current or past funding from Confluence Pharmaceuticals, Novartis, F. Hoffmann-La Roche Ltd., Seaside Therapeutics, Riovant Sciences, Inc., Fulcrum Therapeutics, Neuren Pharmaceuticals Ltd., Alcobra Pharmaceuticals, Neurotrope, Zynerba Pharmaceuticals, Inc., and Ovid Therapeutics Inc. to consult on trial design or development strategies and/or conduct clinical trials in FXS or other neurodevelopmental disorders. C.A.E. is additionally the inventor or coinventor on several patents held by Cincinnati Children's Hospital Medical Center or Indiana University School of Medicine describing methods of treatment in FXS or other neurodevelopmental disorders. S.H. participated in the Neu-2566-FXS 001 trial. M.S. was a consultant for Neuren Pharmaceuticals for the reported study. He is an employee of AMO Pharma Ltd., which was not involved in the presently reported study. A.Y. is a Biostatistician for Vital Systems, Inc., a contract research organization utilized by Neuren for the trial described in this article. G.S. is President of Vital Systems, Inc., a contract research organization utilized by Neuren Pharmaceuticals for the conduct and analysis of this clinical trial, the Rett-001 and Rett 002 trials of trofinetide in Rett syndrome, and trials in traumatic brain injury sponsored by Neuren. L.G. and N.E.J. are executives at Neuren Pharmaceuticals Ltd. Funding Information: The study NCT01894958 was sponsored and funded by Neuren Pharmaceuticals, Ltd. The authors gratefully acknowledge the contribution of patients who participated in the study and their families. The authors also thank Lars Sanders for his help with the figures. The authors acknowledge the 15 clinical centers and study staff who recruited participants for the study: Elizabeth Berry-Kravis, MD, PhD, Rush University Medical Center; Nicole Tartaglia, MD, Children's Hospital Colorado; Craig Erickson, MD, Cincinnati Children's Hospital Medical Center; Randi Hagerman, MD, UC Davis MIND Institute; Shivkumar Hatti, MD, Suburban Research Associates; Kevin Sanders, MD, Vanderbilt University Medical Center; Alexander Kolevzon, MD, Icahn School of Medicine at Mount Sinai; Jean Frazier, MD, University of Massachusetts Medical School; Thomas Challman, MD, Geisinger Medical Center; Joseph Cubells, MD, Emory University; Jeannie Visootsak, MD, Emory University; Jeffrey Innis, MD, University of Michigan; Bryan King, MD, Seattle Children's Hospital Research Center; Steven Skinner, MD, Greenwood Genetic Center, Diane Treadwell-Deering, MD, Texas Children's Hospital; Sherry Vinson-Sellers, MD, Texas Children's Hospital; Howard Needelman, MD, University of Nebraska. Author contributions: J.P.H. L.G. and N.E.J. conceptualized and designed the study. M.S. participated in the design and conceptualization of the study, including the selection and development of the clinical rating scales. E.B.-K. assisted with the conceptualization and design of the study and selection of outcome measures. J.P.H. led the coordination and implementation of the study. N.E.J. and L.G. participated in the coordination and implementation of the study. E.B.-K. and N.T. assisted with the implementation of study. R.H. A.K. C.A.E. and S.H provided feedback on the protocol or outcome measures. E.B.-K. N.T. R.H. A.K. C.A.E. S.H. and the FXS-001 investigators enrolled subjects and collected study data. A.Y. and G.S. provided statistical advice and conducted the analysis of the safety and efficacy data. J.P.H. L.G. and N.E.J. participated in the analysis. J.P.H. L.G. N.E.J. E.B.-K. N.T. R.H. A.K. C.A.E. and S.H. interpreted the data. J.P.H. L.G. N.E.J. E.B.-K. N.T. R.H. A.K. C.A.E. S.H. M.S. A.Y. and G.S. critically reviewed and revised the manuscript. All named authors read and approved the final manuscript. FXS 001 Investigators: Kevin Sanders, MD, Vanderbilt University Medical School (during the research study); currently with Roche Pharmaceuticals. Jean Frazier, MD, University of Massachusetts. Thomas Challman, MD, Geisinger Medical Center. Jeffrey Innis, MD, PhD, University of Michigan. Bryan King, MD, Seattle Children's Hospital (during the research study); currently with University of California San Francisco. Joseph Cubells, MD, PhD, Emory University. Jeannie Visootsak, MD, Emory University (during the research study); currently with Neurogene Inc. Steven Skinner, MD, Greenwood Genetic Center. Dianne Treadwell-Deering, MD, Texas Children's Hospital (during the study); currently with Nemours/Alfred I. DuPoint Medical Center. Sherry Sellers Vinson, MD, Texas Children's Hospital. Howard Needelman, MD, University of Nebraska Medical Center. Conflicts of interest: E.B.-K. participated in the Neu-2566-FXS 001 trial, has been a consultant for Seaside Therapeutics, Novartis, Roche, Alcobra, Neuren, Cydan, Fulcrum, GW, Neurotrope, Marinus, Zynerba, BioMarin, and Ovid Pharmaceuticals regarding conduct of clinical trials in FXS and other rare neurological diseases, is on the Scientific Advisory Board for Vtesse/Mallinckrodt to provide guidance on clinical trials in Niemann-Pick type C (NP-C), has received research funding to conduct clinical trials in FXS from Novartis, Roche, Seaside Therapeutics, Alcobra, Neuren, Ovid, and Zynerba to conduct a clinical trial in NP-C from Vtesse/Mallinckrodt, and to develop FMR1 testing standards from Asuragen. She was also a participating principal investigator on a clinical trial in Rett syndrome sponsored by Neuren Pharmaceuticals. She has research finding through grants from NIH, CDC, FRAXA Research Foundation, International Rett Syndrome Foundation, and the Phelan McDermid Foundation. She was consultant to GCC on the project funded by Neuren Pharmaceuticals for the psychometric analysis of the FXRS. J.P.H. was an employee at Neuren Pharmaceuticals, Inc. during the conduct of the research. He is currently an employee at AMO Pharma Ltd., which was not involved in the clinical trial reported in this manuscript. N.T. participated in the Neu-2566-FXS 001 trial and has received research funding from NICHD and CDC, and for industry-sponsored clinical trials in autism and/or fragile X from Seaside Therapeutics, Roche, Neuren, Alcobra, Zynerba, and Ovid. She has consulted with Zynerba and Ovid on clinical trial design and outcome measures in FXS. R.H. participated in the Neu-2566-FXS 001 trial and receives research funding from NICHD, Azrieli Foundation, Curemark, and Zynerba currently regarding studies in FXS, autism, or premutation involvement. She has consulted with Zynerba, Fulcrum, Ovid, Novartis, and Roche in the past and has carried out studies funded by Marinus, Roche, Novartis, Seaside Therapeutics, Forest, and the National Fragile X Foundation in the past. A.K. participated in the Neu-2566-FXS 001 trial and receives research funding from the National Institute of Neurological Disorders and Stroke, New York Community Trust, AMO Pharma, and the Seaver Foundation. He has been a consultant for Ovid Therapeutics, Genentech, Supernus Pharmaceuticals, Fulcrum Therapeutics, Coronis, 5AM Ventures, Labcorp, and sema4. C.A.E. participated in the Neu-2566-FXS 001 trial. He has received current or past funding from Confluence Pharmaceuticals, Novartis, F. Hoffmann-La Roche Ltd., Seaside Therapeutics, Riovant Sciences, Inc., Fulcrum Therapeutics, Neuren Pharmaceuticals Ltd., Alcobra Pharmaceuticals, Neurotrope, Zynerba Pharmaceuticals, Inc., and Ovid Therapeutics Inc. to consult on trial design or development strategies and/or conduct clinical trials in FXS or other neurodevelopmental disorders. C.A.E. is additionally the inventor or coinventor on several patents held by Cincinnati Children's Hospital Medical Center or Indiana University School of Medicine describing methods of treatment in FXS or other neurodevelopmental disorders. S.H. participated in the Neu-2566-FXS 001 trial. M.S. was a consultant for Neuren Pharmaceuticals for the reported study. He is an employee of AMO Pharma Ltd., which was not involved in the presently reported study. A.Y. is a Biostatistician for Vital Systems, Inc., a contract research organization utilized by Neuren for the trial described in this article. G.S. is President of Vital Systems, Inc., a contract research organization utilized by Neuren Pharmaceuticals for the conduct and analysis of this clinical trial, the Rett-001 and Rett 002 trials of trofinetide in Rett syndrome, and trials in traumatic brain injury sponsored by Neuren. L.G. and N.E.J. are executives at Neuren Pharmaceuticals Ltd. Funding Information: The study NCT01894958 was sponsored and funded by Neuren Pharmaceuticals, Ltd . The authors gratefully acknowledge the contribution of patients who participated in the study and their families. The authors also thank Lars Sanders for his help with the figures. Publisher Copyright: © 2020 The Author(s)

PY - 2020/9

Y1 - 2020/9

N2 - Background: We analyze the safety and tolerability of trofinetide and provide a preliminary evaluation of its efficacy in adolescent and adult males with fragile X syndrome. Methods: This study was an exploratory, phase 2, multicenter, double-blind, placebo-controlled, parallel group study of the safety and tolerability of orally administered trofinetide in 72 adolescent and adult males with fragile X syndrome. Subjects were randomly assigned in a 1:1:1 ratio to 35 or 70 mg/kg twice daily trofinetide or placebo for 28 days. Safety assessments included adverse events, clinical laboratory tests, vital signs, electrocardiograms, physical examinations, and concomitant medications. Efficacy measurements were categorized into four efficacy domains, which related to clinically relevant phenotypic dimensions of impairment associated with fragile X syndrome. Results: Both 35 and 70 mg/kg dose levels of trofinetide were well tolerated and appeared to be generally safe. Trofinetide at the 70 mg/kg dose level demonstrated efficacy compared with placebo based on prespecified criteria. On the basis of a permutation test, the probability of a false-positive outcome for the achieved prespecified success was 0.045. In the group analysis, improvement from treatment baseline was demonstrated on three fragile X syndrome–specific outcome measures. Conclusions: Trofinetide was well tolerated in adolescent and adult males with fragile X syndrome. Despite the relatively short duration of the study, a consistent signal of efficacy at the higher dose was observed in both caregiver and clinician assessments, based on a novel analytical model incorporating evaluation of multiple key symptom areas of fragile X syndrome. This finding suggests a potential for trofinetide treatment to provide clinically meaningful improvement in core fragile X syndrome symptoms.

AB - Background: We analyze the safety and tolerability of trofinetide and provide a preliminary evaluation of its efficacy in adolescent and adult males with fragile X syndrome. Methods: This study was an exploratory, phase 2, multicenter, double-blind, placebo-controlled, parallel group study of the safety and tolerability of orally administered trofinetide in 72 adolescent and adult males with fragile X syndrome. Subjects were randomly assigned in a 1:1:1 ratio to 35 or 70 mg/kg twice daily trofinetide or placebo for 28 days. Safety assessments included adverse events, clinical laboratory tests, vital signs, electrocardiograms, physical examinations, and concomitant medications. Efficacy measurements were categorized into four efficacy domains, which related to clinically relevant phenotypic dimensions of impairment associated with fragile X syndrome. Results: Both 35 and 70 mg/kg dose levels of trofinetide were well tolerated and appeared to be generally safe. Trofinetide at the 70 mg/kg dose level demonstrated efficacy compared with placebo based on prespecified criteria. On the basis of a permutation test, the probability of a false-positive outcome for the achieved prespecified success was 0.045. In the group analysis, improvement from treatment baseline was demonstrated on three fragile X syndrome–specific outcome measures. Conclusions: Trofinetide was well tolerated in adolescent and adult males with fragile X syndrome. Despite the relatively short duration of the study, a consistent signal of efficacy at the higher dose was observed in both caregiver and clinician assessments, based on a novel analytical model incorporating evaluation of multiple key symptom areas of fragile X syndrome. This finding suggests a potential for trofinetide treatment to provide clinically meaningful improvement in core fragile X syndrome symptoms.

KW - Clinical trial

KW - Fragile X

KW - NNZ-2566

KW - Neurodevelopmental disorders

KW - Trofinetide

UR - http://www.scopus.com/inward/record.url?scp=85087772263&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85087772263&partnerID=8YFLogxK

U2 - 10.1016/j.pediatrneurol.2020.04.019

DO - 10.1016/j.pediatrneurol.2020.04.019

M3 - Article

C2 - 32660869

AN - SCOPUS:85087772263

SN - 0887-8994

VL - 110

SP - 30

EP - 41

JO - Pediatric Neurology

JF - Pediatric Neurology

ER -

A Double-Blind, Randomized, Placebo-Controlled Clinical Study of Trofinetide in the Treatment of Fragile X Syndrome

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