Monkeypox Clinical Trial
— UNITYOfficial title:
A Phase III, Multi-country, Randomized, Placebo-controlled, Double-blinded Trial to Assess the Efficacy and Safety of Tecovirimat Antiviral Treatment for Patients With Monkeypox Virus Disease
The overall purpose of this study is to evaluate whether tecovirimat is an efficient and safe antiviral in the treatment of monkeypox in adults and adolescents (14 years old and older). The primary objective is to evaluate the clinical efficacy, as assessed by time to all visible lesion(s) resolution, of tecovirimat treatment + Standard of Care (SOC) compared to placebo + SOC for patients with monkeypox. The secondary objective is to evaluate the clinical efficacy, as assessed by mortality, hospitalization, complications, duration of symptoms and virological shedding, and the safety of tecovirimat treatment + SOC compared to placebo + SOC in patients with monkeypox.
Status | Recruiting |
Enrollment | 150 |
Est. completion date | January 1, 2025 |
Est. primary completion date | January 1, 2024 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 14 Years and older |
Eligibility | Inclusion Criteria: - Adults and adolescents (14 years old and older) with laboratory-confirmed (PCR if available) or highly suspected monkeypox virus infection of any duration - At least one visible active skin or mucosal lesion - Reachable via smartphone (for video calls) for outpatient participants - Signed informed consent Exclusion Criteria: - Current or planned use of another investigational drug at any point during study participation. - Ongoing treatment which cannot be interrupted and for which a major interaction has been described with tecovirimat - Patients who, in the judgement of the investigator, will be at significantly increased risk as a result of participation in the study (for example: if the investigator judges that an antiviral treatment is indicated in the framework of compassionate therapeutic access in Switzerland). - Hypersensitivity to tecovirimat |
Country | Name | City | State |
---|---|---|---|
Argentina | Fundación Huésped | Ciudad Autonoma de Buenos Aires | |
Brazil | Faculty of Medicine, Federal University of Minas Gerais | Belo Horizonte | |
Brazil | Evandro Chagas National Institute of Infectious Diseases-Oswaldo Cruz Foundation-FIOCRUZ | Rio de Janeiro | |
Brazil | Federal Hospital for State Employees | Rio De Janeiro | |
Brazil | Nova Iguaçu General Hospital | Rio De Janeiro | |
Brazil | University Hospital Prof. Edgard Santos | Salvador | |
Brazil | Emílio Ribas Institute of Infectious Diseases | São Paulo | |
Brazil | STD/AIDS Reference and Training Center | São Paulo | |
Switzerland | Hôpitaux Universitaires de Genève | Genève | |
Switzerland | CHUV | Lausanne | Vaud |
Switzerland | Zürich checkpoint | Zürich |
Lead Sponsor | Collaborator |
---|---|
Calmy Alexandra | ANRS, Emerging Infectious Diseases, Oswaldo Cruz Foundation |
Argentina, Brazil, Switzerland,
Adler H, Gould S, Hine P, Snell LB, Wong W, Houlihan CF, Osborne JC, Rampling T, Beadsworth MB, Duncan CJ, Dunning J, Fletcher TE, Hunter ER, Jacobs M, Khoo SH, Newsholme W, Porter D, Porter RJ, Ratcliffe L, Schmid ML, Semple MG, Tunbridge AJ, Wingfield T, Price NM; NHS England High Consequence Infectious Diseases (Airborne) Network. Clinical features and management of human monkeypox: a retrospective observational study in the UK. Lancet Infect Dis. 2022 Aug;22(8):1153-1162. doi: 10.1016/S1473-3099(22)00228-6. Epub 2022 May 24. Erratum In: Lancet Infect Dis. 2022 Jul;22(7):e177. Lancet Infect Dis. 2022 Jul;22(7):e177. — View Citation
Carvalho T. The unknown efficacy of tecovirimat against monkeypox. Nat Med. 2022 Nov;28(11):2224-2225. doi: 10.1038/d41591-022-00094-0. No abstract available. — View Citation
Desai AN, Thompson GR 3rd, Neumeister SM, Arutyunova AM, Trigg K, Cohen SH. Compassionate Use of Tecovirimat for the Treatment of Monkeypox Infection. JAMA. 2022 Oct 4;328(13):1348-1350. doi: 10.1001/jama.2022.15336. — View Citation
Girometti N, Byrne R, Bracchi M, Heskin J, McOwan A, Tittle V, Gedela K, Scott C, Patel S, Gohil J, Nugent D, Suchak T, Dickinson M, Feeney M, Mora-Peris B, Stegmann K, Plaha K, Davies G, Moore LSP, Mughal N, Asboe D, Boffito M, Jones R, Whitlock G. Demographic and clinical characteristics of confirmed human monkeypox virus cases in individuals attending a sexual health centre in London, UK: an observational analysis. Lancet Infect Dis. 2022 Sep;22(9):1321-1328. doi: 10.1016/S1473-3099(22)00411-X. Epub 2022 Jul 1. — View Citation
Merchlinsky M, Albright A, Olson V, Schiltz H, Merkeley T, Hughes C, Petersen B, Challberg M. The development and approval of tecoviromat (TPOXX(R)), the first antiviral against smallpox. Antiviral Res. 2019 Aug;168:168-174. doi: 10.1016/j.antiviral.2019.06.005. Epub 2019 Jun 7. — View Citation
O'Laughlin K, Tobolowsky FA, Elmor R, Overton R, O'Connor SM, Damon IK, Petersen BW, Rao AK, Chatham-Stephens K, Yu P, Yu Y; CDC Monkeypox Tecovirimat Data Abstraction Team. Clinical Use of Tecovirimat (Tpoxx) for Treatment of Monkeypox Under an Investigational New Drug Protocol - United States, May-August 2022. MMWR Morb Mortal Wkly Rep. 2022 Sep 16;71(37):1190-1195. doi: 10.15585/mmwr.mm7137e1. — View Citation
Siegrist EA, Sassine J. Antivirals With Activity Against Mpox: A Clinically Oriented Review. Clin Infect Dis. 2023 Jan 6;76(1):155-164. doi: 10.1093/cid/ciac622. — View Citation
Smith SK, Self J, Weiss S, Carroll D, Braden Z, Regnery RL, Davidson W, Jordan R, Hruby DE, Damon IK. Effective antiviral treatment of systemic orthopoxvirus disease: ST-246 treatment of prairie dogs infected with monkeypox virus. J Virol. 2011 Sep;85(17):9176-87. doi: 10.1128/JVI.02173-10. Epub 2011 Jun 22. — View Citation
Thornhill JP, Barkati S, Walmsley S, Rockstroh J, Antinori A, Harrison LB, Palich R, Nori A, Reeves I, Habibi MS, Apea V, Boesecke C, Vandekerckhove L, Yakubovsky M, Sendagorta E, Blanco JL, Florence E, Moschese D, Maltez FM, Goorhuis A, Pourcher V, Migaud P, Noe S, Pintado C, Maggi F, Hansen AE, Hoffmann C, Lezama JI, Mussini C, Cattelan A, Makofane K, Tan D, Nozza S, Nemeth J, Klein MB, Orkin CM; SHARE-net Clinical Group. Monkeypox Virus Infection in Humans across 16 Countries - April-June 2022. N Engl J Med. 2022 Aug 25;387(8):679-691. doi: 10.1056/NEJMoa2207323. Epub 2022 Jul 21. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Time to all visible lesion(s) resolution | Time for all visible lesions (skin, mucosal) to heal with a new fresh layer of skin re-epithelialization (i.e resurfacing of a wound with a new epithelium layer). For skin lesions, typically this means the lesion has scabbed, desquamated and new layer of skin has been formed. For mucosal lesions, the phase of scabbing and desquamation is absent, and healing with new layer of skin ensues. | 28 days | |
Secondary | All-cause mortality within the first 28 days (applied to all patients) | All-cause mortality is more reliably measured than monkeypox-specific mortality. It is easy to measure and is reliable. | 28 days | |
Secondary | All-cause unplanned admission to hospital within first 28 days (applies to outpatients) | Most patients will be managed at home or in community and this outcome is an important patient-centered and health system outcome. All-cause is easier to measure than monkeypox specific and will ease data burden. | 28 days | |
Secondary | Occurrence of patients with a complication within first 28 days (applies to all patients who did not already have a complication at baseline) | Complications include secondary bacterial skin infection (cellulitis, abscess, necrotizing fasciitis, need for antibiotics), severe pain, ocular impairment (e.g. keratitis), neurologic impairment (e.g. encephalitis) or mental health disturbance, confusion, cardiac impairment (e.g. cardiomyopathy, myocarditis), severe dehydration, and genitourinary complications as urinary retention. Progression to complications is an important patient-centered outcome and an important health system outcome to prepare and anticipate clinical services for monkeypox cases. It is easy to measure, as long as definitions are clear, and the relevant staff is trained. Complications will be differentiated based on drug-related complications and disease-related complications. | 28 days | |
Secondary | Time to resolution of symptoms and signs within first 28 days (applies to all patients) | Symptoms include fatigue, malaise, nausea, vomiting, abdominal pain, anorexia, cough, dysphagia, odynophagia, fever, headache, oral pain, pain with urination, rectal/anal pain. Signs include lymphadenopathy, ocular lesions, pharyngitis, urethritis, and proctitis. Collection of symptoms and signs can be useful to understand the clinical characterization. | 28 days | |
Secondary | Viral clearance up to 28 days after randomization | Occurrence of negative oropharyngeal , rectal swab, and skin swab PCR results, respectively, 7, 14, 21 days and 28 days after randomization. Viral clearance assessment is important to evaluate whether treatment is also a route for reducing transmission. | 28 days | |
Secondary | Frequency of adverse events (AEs) and serious adverse events (SAEs) for specific therapeutics (applies to all patients) | The collection of standardized data of adverse events is of importance in order to increase the understanding of safety and tolerability of the treatment. | 60 days |
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