The Effectiveness of the Twin Block and Carriere Motion Appliances in Post-pubertal Patients and an Evaluation of the Impact of Class II Malocclusion and Its Correction on Oral Health-related Quality of Life
NCT ID: NCT07292636
Last Updated: 2025-12-18
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
NOT_YET_RECRUITING
NA
88 participants
INTERVENTIONAL
2026-03-31
2029-09-30
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
* Compare the effectiveness and efficiency of Clark's Twin Block Appliance (CTB) vs Carriere Motion Appliance (CMA) in correcting Class II malocclusion when used in post-pubertal older adolescents, in terms of skeletal and dental change.
* Evaluate potential negative oral health-related quality of life (OHRQoL) impacts during the active treatment phase with either CTB or CMA in post-pubertal adolescents.
* Investigate the impact of Class II malocclusion on oral health-related quality of life (OHRQoL) in post-pubertal adolescents.
Class II division 1 malocclusion is a dental condition where the upper teeth protrude significantly over the lower teeth. It is a common type of malocclusion observed in orthodontic practice, accounting for approximately 20-25% globally. Correcting Class II malocclusion in growing patients using functional appliances and Class II correctors is relatively predictable.
In Ireland and the United Kingdom, the Clark's Twin Block (CTB) is the most commonly used functional appliance. The CTB consists of two components: one for the upper teeth and one for the lower teeth. These components are engineered to position the lower jaw forward, thereby promoting the desired dentoskeletal changes (moving the upper teeth back and lower forward). Another device used for Class II correction is the Carriere Motion Appliance (CMA). The CMA is gaining popularity as a treatment option for Class II malocclusion, inducing dental changes similar to those achieved with a CTB. However, uncertainty persists regarding the effectiveness of these appliances in older adolescents in the post-pubertal growth phase (aged approximately 14.5 years or above).
Additionally, although both CTB and CMA are effective in growing patients in correcting dental and skeletal discrepancies, they may influence daily activities, comfort, and psychological aspects, which often results in poor compliance. Poor adherence to orthodontic treatment, whether with fixed or removable appliances, can lead to higher rates of treatment failure.
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
Multiple treatment approaches are available to address the Class II byccal segment relationship characteristic of this type of malocclusion. However, the treatment approach depends on various factors, with chronological and skeletal age being pivotal. Typically, patients present with an underlying Class II skeletal pattern characterised by mandibular retrusion.
In growing patients, treatment often involves growth-dependent strategies, such as functional appliances or other Class II correctors. While these approaches primarily produce dentoalveolar effects, with less than one-third of the correction achieved by functional appliances attributable to skeletal changes, understanding the distinction between skeletal and dentoalveolar impacts is crucial. This differentiation informs treatment choice by highlighting the varying degrees to which these methods can achieve skeletal versus dental corrections, essential for tailoring patient-specific plans.
A continuing discussion exists regarding the ability of functional appliances, whether removable or fixed, to provide effective short- and long-term stimulation of mandibular growth. While this discussion endures, it is widely recognised that the majority of correction achieved with these appliances tends to be dentoalveolar rather than skeletal in nature, with only a modest proportion attributable to true mandibular advancement. Furthermore, these dentoalveolar effects are not exclusive to functional appliances, as similar outcomes have been documented with alternative Class II correctors such as the Carriere Motion Appliance, as detailed in subsequent studies.
Some researchers propose that functional appliances yield favourable outcomes by promoting mandibular growth, either through increased mandibular length or condylar growth. Conversely, other studies contend that the extent of these skeletal effects is limited. Consequently, substantial evidence indicates that dentoalveolar changes resulting from functional appliance treatment exceed the skeletal changes.
Correcting Class II malocclusion in growing patients using functional appliances and Class II correctors is relatively predictable. However, uncertainty persists regarding the effectiveness of these appliances in older adolescents in the post-pubertal growth phase (aged approximately 14.5 years or above). Limited evidence from two retrospective studies suggests that CTB and fixed functional appliances remain effective in patients with mean ages of 13.73 ± 1.51 years and 13.76 ± 1.44 years, respectively. Furthermore, a recent randomised controlled trial (RCT) demonstrated that CTB yielded comparable effects in patients aged 11 years 8 months to 12 years 8 months, relative to those who initiated treatment 18 months later. However, the interval of active treatment between the immediate treatment group and the later treatment group may not have been sufficient to reveal significant differences in treatment outcomes. The delay for the late-treatment group was constrained by the current waiting list durations in this study.
There is a notable lack of literature regarding the effectiveness of functional appliances and other Class II correctors in post-pubertal patients.
Oral Health Related Quality of Life associated with Class II and its treatment Although both CTB and CMA are effective in growing patients in correcting dental and skeletal discrepancies, they may influence daily activities, comfort, and psychological aspects, which often results in poor compliance. Poor adherence to orthodontic treatment, whether with fixed or removable appliances, can lead to higher rates of treatment failure. To address these compliance challenges, our study will use wear-time sensors in the CTBs to objectively monitor appliance adherence.
Several generic measures are used to assess oral health-related quality of life (OHRQoL) across various dental conditions. One such measure is the Child Oral Health Impact Profile (COHIP), which is also available in a short form (COHIP-19). This questionnaire is a reliable and valid tool for assessing OHRQoL in patients aged 7 to 18 years.
However, generic measures may not fully capture condition-specific impacts. To address this limitation, condition-specific OHRQoL measures have been developed. The Malocclusion Impact Questionnaire (MIQ), initially developed and tested in the UK, provides a targeted assessment of the effects of malocclusion on young patients. The Orthodontic Treatment Impact Questionnaire (OTIQ) evaluates the daily impact of orthodontic appliances on adolescents and demonstrates strong construct validity, reliability, and internal consistency.
Statement of the problem:
The effectiveness of functional appliances and Class II correctors in treating Class II malocclusion is well known. However, treating older adolescents in the post-pubertal skeletal growth phase presents certain challenges that we aim to address:
* To evaluate the effectiveness and efficiency of CTB and CMA in older adolescents who have completed their skeletal growth spurt.
* To assess the impact of CTB and CMA on OHRQoL, thereby informing treatment planning decisions and appliance wear protocols to improve treatment adherence.
* Additionally, understanding the impact of Class II malocclusion on OHRQoL may assist orthodontists in preparing patients for treatment and involving them in the decision-making process.
Importance of this research:
* The findings will provide insight into whether treatment initiated at an older age remains effective and into which of the two established treatment modalities is more effective and efficient.
* Additionally, this research will elucidate both the potential benefits on oral health-related quality of life and the challenges and adjustments young patients encounter during treatment. Such knowledge may be invaluable for orthodontists in preparing patients for treatment, refining appliance design, and improving patient comfort and adherence.
* Ultimately, these insights will inform patient selection and consent processes for older adolescent patients with Class II malocclusions.
Objectives:
The objectives of this clinical trial are to:
* Compare the amount of dental and skeletal changes and time taken to achieve those changes between post-pubertal patients wearing CTB and CMA.
* Assess the challenges and adjustments older adolescents face during CTB and CMA therapy through the completion of Orthodontic Treatment Impact Questionnaire (OTIQ).
* Evaluate the OHRQoL associated with Class II malocclusion in older adolescents through the completion of the Malocclusion Impact Questionnaire (MIQ) and the Child Oral Health Impact Profile (COHIP-19) questionnaire.
Hypotheses:
* Correction of Class II malocclusion with either CTB or CMA in post-pubertal older adolescents is effective, and both appliances are equally effective and efficient.
* Class II correction with CTB and CMA has a beneficial effect on OHRQoL in older adolescents.
* Class II malocclusion affects the OHRQoL of older adolescents negatively.
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Keywords
Explore important study keywords that can help with search, categorization, and topic discovery.
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
RANDOMIZED
PARALLEL
TREATMENT
DOUBLE
Study Groups
Review each arm or cohort in the study, along with the interventions and objectives associated with them.
CTB group
Participants assigned to this group will receive CTB.
CTB
The appliance will be used with the bite registration taken in maximum protrusion incorporating the following features: (1) Adam's clasps on all first premolars and first permanent molars, (2) three ball-ended clasps on the mandibular incisors, (3) midline expansion screw in the maxillary component, (4) blocks intersecting at 70 degrees, with a height of 5-6 mm in the premolar region. Patients will be instructed to wear the appliance full-time, except for eating, and during contact or water sports. Objective wear time in minutes will be recorded by a Theramon® microsensor (Handelsagentur Gschladt, Hargelsberg, Austria, or Forestadent, Pforzheim, Germany) placed in the maxillary component.
CMA group
Participants assigned to this group will receive CMA.
CMA
The appliance consists of rigid stainless-steel or acrylic bars bonded to the maxillary canines and first molars bilaterally. Elastics will be worn in a Class II pattern, from hooks on the maxillary canine to attachments on the mandibular first molar (bonded molar tubes). Anchorage in the mandibular dentition will be provided by an Essix-type retainer. Patients will be instructed to wear elastics full time except for eating and cleaning the teeth. The elastics protocol for the CMA appliance will be: Force 1 elastics (Henry Schein Orthodontics) that generate about 375 g of force that will be used during the first 6 weeks, changed to Force 2 elastics that generate about 540 g of force thereafter.
Interventions
Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.
CTB
The appliance will be used with the bite registration taken in maximum protrusion incorporating the following features: (1) Adam's clasps on all first premolars and first permanent molars, (2) three ball-ended clasps on the mandibular incisors, (3) midline expansion screw in the maxillary component, (4) blocks intersecting at 70 degrees, with a height of 5-6 mm in the premolar region. Patients will be instructed to wear the appliance full-time, except for eating, and during contact or water sports. Objective wear time in minutes will be recorded by a Theramon® microsensor (Handelsagentur Gschladt, Hargelsberg, Austria, or Forestadent, Pforzheim, Germany) placed in the maxillary component.
CMA
The appliance consists of rigid stainless-steel or acrylic bars bonded to the maxillary canines and first molars bilaterally. Elastics will be worn in a Class II pattern, from hooks on the maxillary canine to attachments on the mandibular first molar (bonded molar tubes). Anchorage in the mandibular dentition will be provided by an Essix-type retainer. Patients will be instructed to wear elastics full time except for eating and cleaning the teeth. The elastics protocol for the CMA appliance will be: Force 1 elastics (Henry Schein Orthodontics) that generate about 375 g of force that will be used during the first 6 weeks, changed to Force 2 elastics that generate about 540 g of force thereafter.
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
2. Cervical Vertebral Maturation (CVM) stage ≥5,
3. a mild-moderate skeletal II pattern,
4. normodivergent with average maxillomandibular planes angle (MMPA: 27±4 degrees),
5. Class II division 1 incisor relationship,
6. Class II molar relationship of ≥1/2 unit bilaterally,
7. overjet of ≥7 mm,
8. ≤5mm of dental crowding in both arches and
9. fluent English speaker.
Exclusion Criteria
2. low MMPA,
3. have/had cleft lip or palate or craniofacial syndrome,
4. hypodontia,
5. gross mandibular asymmetry,
6. a medically diagnosed growth excess or deficiency,
7. not dentally fit or
8. had previously received orthodontic treatment.
14 Years
ALL
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
Health Service Executive, Ireland
OTHER
University of Dublin, Trinity College
OTHER
Dublin Dental University Hospital
OTHER
Aslam Alkadhimi
OTHER
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Aslam Alkadhimi
PhD researcher/Consultant Orthodontist
Principal Investigators
Learn about the lead researchers overseeing the trial and their institutional affiliations.
Prof Padhraig Fleming
Role: STUDY_CHAIR
Chair/Professor of Orthodontics. Programme Lead, Doctorate in Orthodontics. Division of Public and Child Dental Health. Dublin Dental University Hospital.
Aslam Alkadhimi
Role: PRINCIPAL_INVESTIGATOR
Dublin Dental Hospital, Trinity College Dublin
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Ashtown Gate HSE Orthodontic Unit
Dublin, Dublin, Ireland
Countries
Review the countries where the study has at least one active or historical site.
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
Facility Contacts
Find local site contact details for specific facilities participating in the trial.
Aslam Alkadhimi
Role: primary
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
250901
Identifier Type: -
Identifier Source: org_study_id