Study Comparing Short Term Efficacy of Dysport and Dysport NG to Placebo, and to Assess Efficacy and Safety of Dysport NG of Subjects With Cervical Dystonia

Phase 3

Completed

Conditions: Cervical Dystonia

Interventions: Biological: Botulinum toxin type A
Drug: Placebo

Registration Number: NCT01261611

Lead Sponsor: Ipsen

Brief Summary: The purpose of this study is to evaluate how well a new drug called Dysport NG works and how safe it is, when it is used for the treatment of cervical dystonia. Dysport NG will be compared to an approved drug called Dysport.

Detailed Description: The primary study objectives will be assessed in terms of improvement of the subject's CD at a pre-defined time point after treatment. The primary study objectives are to demonstrate the superiority of Dysport NG to placebo in terms of efficacy and to test the non-inferior efficacy of Dysport NG, when compared to Dysport, in CD subjects. In addition to testing for the primary study objectives, the superiority in terms of efficacy of Dysport versus placebo, will be assessed.

This clinical study was designed and implemented and reported in accordance with the International Conference on Harmonization (ICH) Harmonized Tripartite Guidelines for Good Clinical Practice (GCP), with applicable local regulations (including European Directive 2001/20/EC, US Code of Federal Regulations Title 21, and with the ethical principles laid down in the Declaration of Helsinki.

A large body of evidence demonstrates the safety and efficacy of Dysport across several clinical indications. This study was the first use of Dysport NG in humans with CD. The active substance (BTX-A-HAC) in Dysport NG was the same as in the currently marketed Dysport product and had the same mechanism of action. Dysport NG was, therefore, expected to have the same efficacy and safety profile in humans as Dysport, with the advantage of eliminating the potential risk of transmission of infective agents, by the substitution of plant and synthetic products for human and animal-derived products. However, due to the change of excipient, thorough assessment of the safety and efficacy of Dysport NG is necessary. Previous clinical studies indicate that the maximum effect of Dysport and maximum improvements in CD are observed approximately 4 weeks post treatment, after which there is a gradual return to baseline disease status. The Week 4 follow up visit after the first treatment cycle was therefore, chosen as the primary time point of interest. Retreatment is necessary in order to maintain the beneficial effect and the long term treatment of CD. Previously conducted long term studies demonstrate the maintenance of the therapeutic effect of Dysport following repeated treatments, with a favourable short and long term safety and immunogenicity profile.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 382

Inclusion Criteria

Dystonia with at least 18 months duration since onset.
Previously untreated with Botulinum toxin-A (BTX-A) or -B or a minimum of 14 weeks since the last injection.
TWSTRS score at baseline of: Total score ≥ 30, Severity Sub-Scale score ≥ 15, Disability Sub-Scale score ≥ 3, Pain Sub-Scale score ≥ 2.

Exclusion Criteria

Known hypersensitivity to Botulinum toxin (BTX) or related compounds or any component in the study drug formulation (including cow milk protein).
Pure anterocollis or pure retrocollis.
In apparent remission from Cervical Dystonia.
Known clinically significant underlying swallowing or respiratory abnormality which might be exacerbated by BTX treatment.
Previous poor response to BTX treatment or known presence of BTX neutralising antibodies.
Previous phenol or alcohol injections into the neck muscles.
Previous myotomy or denervation surgery involving the neck or shoulder region.

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Dysport NG	Botulinum toxin type A	500U (1mL) administered as intramuscular injection on day 1 of treatment cycle 1 and 2. 250U (0.5mL), 500U (1mL) or 750U (1.5mL) administered as intramuscular injection on day 1 of treatment cycle 3. 250U (0.5mL), 500U (1mL), 750U (1.5mL) or 1000U (2mL) administered as intramuscular injection on day 1 of treatment cycle 4 and 5.
Dysport	Botulinum toxin type A	500U (1mL) injected as intramuscular injection on day 1 of treatment cycle 1.
Placebo	Placebo	1mL administered as, intramuscular injection on day 1 of treatment cycle 1.

Primary Outcome Measures

Name	Time	Method
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Total Score Following First Treatment Cycle	Baseline and Week 4	TWSTRS measures the degree of CD and is comprised of three different components, namely Severity, Disability and Pain subscales. There is an ordinal scale score and range for each component. Severity scores range from 0 (absence of severity) to 35 (maximum severity), Disability scores range from 0 (no disability) to 30 (maximum disability) and Pain scores range from 0 (no pain) to 20 (maximum pain). TWSTRS Total score is the sum of the 3 component scores ranging from 0 to a maximum of 85, with higher scores denoting worse outcome. If the change from baseline is negative, this represents an improvement in symptoms.

Secondary Outcome Measures

Name	Time	Method
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Severity Subscale Score Following First Treatment Cycle	Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Severity subscale. TWSTRS Severity subscale scores range from 0 (absence of severity) to 35 (maximum severity). If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Disability Subscale Score Following First Treatment Cycle	Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Disability subscale. TWSTRS Disability subscale scores range from 0 (no disability) to 30 (maximum disability). If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Pain Subscale Score Following First Treatment Cycle	Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Pain subscale. TWSTRS Pain subscale scores range from 0 (no pain) to 20 (maximum pain). If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Subject Visual Analogue Score (VAS) for Symptoms of Cervical Dystonia Following First Treatment Cycle	Baseline and Week 4	The assessment was made on a continuous 100-mm horizontal line with a scale range of 0 mm (no symptoms) to 100 mm (worst possible symptoms).
Percentage of Treatment Responders for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	A treatment responder was defined as a patient with \>30% improvement in TWSTRS Total score compared to baseline. TWSTRS measures the degree of CD and is comprised of three different components, namely Severity, Disability and Pain subscales. There is an ordinal scale score and range for each component. Severity scores range from 0 (absence of severity) to 35 (maximum severity), Disability scores range from 0 (no disability) to 30 (maximum disability) and Pain scores range from 0 (no pain) to 20 (maximum pain). TWSTRS Total score is the sum of the 3 component scores ranging from 0 to a maximum of 85, with higher scores denoting worse outcome. If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Subject Visual Analogue Score (VAS) for Pain From Cervical Dystonia Following First Treatment Cycle	Baseline and Week 4	The assessment was made on a continuous 100-mm horizontal line with a scale range of 0 mm (no pain) to 100 mm (worst possible pain).
Percentage of Treatment Responders Following First Treatment Cycle	Baseline and Week 4	A treatment responder was defined as a patient with \>30% improvement in TWSTRS Total score compared to baseline. TWSTRS measures the degree of CD and is comprised of three different components, namely Severity, Disability and Pain subscales. There is an ordinal scale score and range for each component. Severity scores range from 0 (absence of severity) to 35 (maximum severity), Disability scores range from 0 (no disability) to 30 (maximum disability) and Pain scores range from 0 (no pain) to 20 (maximum pain). TWSTRS Total score is the sum of the 3 component scores ranging from 0 to a maximum of 85, with higher scores denoting worse outcome. If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Total Score for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	TWSTRS measures the degree of CD and is comprised of three different components, namely Severity, Disability and Pain subscales. There is an ordinal scale score and range for each component. Severity scores range from 0 (absence of severity) to 35 (maximum severity), Disability scores range from 0 (no disability) to 30 (maximum disability) and Pain scores range from 0 (no pain) to 20 (maximum pain). TWSTRS Total score is the sum of the 3 component scores ranging from 0 to a maximum of 85, with higher scores denoting worse outcome. If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Pain Subscale Score for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Pain subscale. TWSTRS Pain subscale scores range from 0 (no pain) to 20 (maximum pain). If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Subject Visual Analogue Score (VAS) for Pain From Cervical Dystonia for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	The assessment was made on a continuous 100-mm horizontal line with a scale range of 0 mm (no pain) to 100 mm (worst possible pain).
Change From Baseline in Subject Visual Analogue Score (VAS) for Symptoms of Cervical Dystonia for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	The assessment was made on a continuous 100-mm horizontal line with a scale of 0 mm (no symptoms) to 100 mm (worst possible symptoms).
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Severity Score for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Severity subscale. TWSTRS Severity subscale scores range from 0 (absence of severity) to 35 (maximum severity). If the change from baseline is negative, this represents an improvement in symptoms.
Change From Baseline in Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) Disability Score for Treatment Cycles 2 to 5	Treatment cycle Baseline and Week 4	TWSTRS measures the degree of CD and comprises three different components, one of which is the Disability subscale. TWSTRS Disability subscale scores range from 0 (no disability) to 30 (maximum disability). If the change from baseline is negative, this represents an improvement in symptoms.

Trial Locations

Locations (48): Samara Regional Clinical Hospital
🇷🇺
Samara, Russian Federation
Gabinet Lekarski
🇵🇱
Lodz, Poland
Research Medical Complex "Vashe Zdorovie"
🇷🇺
Kazan, Russian Federation
Bukovinian Medical State University
🇺🇦
Chernivtsi, Ukraine
Donetsk Railroad Clinical Hospital
🇺🇦
Donetsk, Ukraine
HH Ziekenhuis
🇧🇪
Roeselare, Belgium
Pécsi Tudományegyetem
🇭🇺
Pécs, Hungary
Malopolskie Centrum Medyczne
🇵🇱
Krakow, Poland
Municipal Institution "Odesa Regional Clinical Hospital"
🇺🇦
Odessa, Ukraine
Universitair Ziekenhuis Antwerpen
🇧🇪
Edegem, Belgium
Centre Hospitalier Universitaire de Liège
🇧🇪
Liège, Belgium
Niepubliczny Zaklad Opieki Zdrowotnej
🇵🇱
Poznan, Poland
Samodzielny Publiczny Centralny Szpital Kliniczny
🇵🇱
Warszawa, Poland
Hospital Santa Maria
🇵🇹
Lisboa, Portugal
Institute of Neurology, Psychiatry and Narcology AMS of Ukraine
🇺🇦
Kharkiv, Ukraine
AZ Sint Lucas
🇧🇪
Gent, Belgium
Pomorskie Centrum Traumatologii im. M. Kopernika w Gdansku
🇵🇱
Gdansk, Poland
Semmelweis Egyetem
🇭🇺
Budapest, Hungary
Jósa András Oktató Kórház Nonprofit Kft.
🇭🇺
Nyíregyháza, Hungary
Szegedi Tudományegyetem Szent-Györgyi Albert Klinikai Központ
🇭🇺
Szeged, Hungary
Specjalistyczna Praktyka Lekarska
🇵🇱
Katowice, Poland
Hospital Geral de Santo Antonio
🇵🇹
Porto, Portugal
Nizhniy Novgorod Research Institute for Traumatology and Orthopaedics
🇷🇺
Nizhniy Novgorod, Russian Federation
Lviv Regional Clinical Hospital
🇺🇦
Lviv, Ukraine
Uzhgorod National University
🇺🇦
Uzhgorod, Ukraine
Research Center of Neurology of RAMS
🇷🇺
Moscow, Russian Federation
Austin Hospital
🇦🇺
Heidelberg, Australia
Monash Medical Centre
🇦🇺
Clayton, Australia
Westmead Hospital
🇦🇺
Westmead, Australia
Department of Neurosciences Alfred Hospital
🇦🇺
Prahran, Australia
AZ St. Jan
🇧🇪
Brugge, Belgium
Univ.-Klinik für Neurologie
🇦🇹
Wien, Austria
Fakultni nemocnice Brno
🇨🇿
Brno, Czechia
Pardubicka krajska nemocnice
🇨🇿
Pardubice, Czechia
RESEARCH SITE s.r.o.
🇨🇿
Plzen, Czechia
CHU Amiens
🇫🇷
Amiens, France
Vseobecna fakultni nemocnice v Praze
🇨🇿
Praha, Czechia
Hopital Neurologique
🇫🇷
Bron, France
CHU Caremeau
🇫🇷
Nîmes, France
CHU Bordeaux
🇫🇷
Pessac, France
CHU Strasbourg
🇫🇷
Strasbourg, France
Hopital Purpan
🇫🇷
Toulouse, France
Neurologische Klinik u. Poliklinik
🇩🇪
Bonn, Germany
Neurologische Klinik
🇩🇪
Würzburg, Germany
Smolensk State Medical Academy Smolensk Regional Clinical Hospital
🇷🇺
Smolensk, Russian Federation
Russian Medical Military Academy n.a. S.M.Kirov
🇷🇺
St. Petersburg, Russian Federation
Ukrainian State Institute of Medical and Social Problems of Disability
🇺🇦
Dnipropetrovsk, Ukraine
Vinnytsya National Medical University
🇺🇦
Vinnytsya, Ukraine