Effects of the Herbst Appliance With Different Anchorages and Twin-Block Appliance in Class II Malocclusion (HASA)
Primary Purpose
Malocclusion, Angle Class II
Status
Recruiting
Phase
Not Applicable
Locations
Brazil
Study Type
Interventional
Intervention
Herbst appliance with skeletal anchorage
Herbst appliance with dental anchorage
Twin-Block appliance
Sponsored by
About this trial
This is an interventional treatment trial for Malocclusion, Angle Class II focused on measuring Orthodontic Appliances, Functional, Herbst Appliance, Malocclusion, Angle Class II
Eligibility Criteria
Inclusion Criteria:
- Teenagers aged from 10 to 14 years old (both genders)
- Parental permission with a signed consent form
- Referral from the Orthodontics Clinic of the State of Rio de Janeiro University or private clinics
- Presenting Class II, Division 1 malocclusion with convex profile and minimum overjet of 6 mm in permanent dentition.
Exclusion Criteria:
- Missing teeth.
Sites / Locations
- Rio de Janeiro State UniversityRecruiting
Arms of the Study
Arm 1
Arm 2
Arm 3
Arm Type
Experimental
Active Comparator
Active Comparator
Arm Label
Herbst appliance with skeletal anchorage
Herbst appliance with dental anchorage
Twin-Block appliances
Arm Description
Group treated with the Herbst appliance with indirect skeletal anchorage in mini-implants.
Group treated with the conventional Herbst appliance with dental anchorage.
Group treated with Twin-Block appliance.
Outcomes
Primary Outcome Measures
Lower incisors position changes as measured by tomographic superimposition of the mandible.
Comparison in lower incisors position between the two groups at the end of the treatment.
Secondary Outcome Measures
Morphological mandible changes as measured by tomographic superimposition of the cranial base.
Comparison between the changes of the mandible in the two groups at the end of the treatment.
Maxilla changes as measured by tomographic superimposition of the cranial base.
Comparison between the changes of the maxilla in the two groups at the end of the treatment.
Changes in relationship between maxilla and mandible as measured by tomographic superimposition of the cranial base.
Comparison between the changes of the relationship between the maxilla and the mandible in the two groups at the end of the treatment.
Lower molar position changes as measured by tomographic superimposition of the mandible.
Comparison between the changes of the lower molar in the three groups at the end of the treatment.
Upper molar position changes as measured by tomographic superimposition of the maxilla.
Comparison between the changes of the upper molar in the three groups at the end of the treatment.
Facial changes as measured by tomographic superimposition of the face
Comparison between the facial changes in the three groups.
Full Information
1. Study Identification
Unique Protocol Identification Number
NCT02411812
Brief Title
Effects of the Herbst Appliance With Different Anchorages and Twin-Block Appliance in Class II Malocclusion
Acronym
HASA
Official Title
Effects of the Herbst Appliance With Skeletal Anchorage or Dental Anchorage, and Twin-Block Appliance in Class II Malocclusion: A Randomized Clinical Trial
Study Type
Interventional
2. Study Status
Record Verification Date
October 2022
Overall Recruitment Status
Recruiting
Study Start Date
August 2015 (Actual)
Primary Completion Date
August 2025 (Anticipated)
Study Completion Date
September 2025 (Anticipated)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor-Investigator
Name of the Sponsor
Klaus Barretto-Lopes
4. Oversight
Data Monitoring Committee
No
5. Study Description
Brief Summary
The purpose of this study is to determine if the Herbst appliance with indirect skeletal anchorage in mini-implants is capable of preventing excessive inclination of the lower incisors at the end of the treatment when compared to the Herbst appliance with dental anchorage and Twin-Block appliances in patients with Class II malocclusion and overjet ≥ 6 mm.
Detailed Description
2a. Background
The prevalence of the Angle Class II malocclusion is high, comprising almost half of known orthodontic problems (Silva Filho et al., 1990; Proffit et al., 1998). The Class II malocclusion is frequently responsible for negative aesthetic of the facial profile. This can result in psychosocial problems, principally in the Angle Class II, division I malocclusion because of the pronounced projection of the anterior superior teeth. This projection has also been related to fracture and avulsion of the anterior superior teeth.
Different types of appliances had been developed for the treatment of the Angle Class II malocclusion. Among these, functional orthopedic appliances have been used because they can correct Class II malocclusion with better improvement in the growth of the mandible when compared to headgears, which also can correct the problem, but with better restriction of the growth of the maxilla (Tulloch et al., 1997).
The Herbst appliance is a fixed functional orthopedic appliance that is often used because of its non-compliance-nature and the positive results achieved. Emil Herbst created the Herbst appliance in the 1910s (Pancherz; Ruf, 2008), but it was forgotten for decades. Only in the 1970s, Pancherz began a study of the Herbst appliance, and reported the positive results obtained in treatment of the Class II, division I malocclusion (Pancherz, 1979). Several subsequent studies of the Herbst appliance provided new scientific evidence of its benefits.
Nowadays, the Herbst appliance is often used in the treatment of Class II malocclusions, because of its efficiency (Bremen, Pancherz, 2008) and also because of the positive effects in orthodontic and orthopedic correction (Franchi et al., 1999). However, some investigators have stated that the correction of a Class II malocclusion is a result of anchorage loss, and could be responsible for negative effects on the lower incisors such as protrusion and gingival recession (Pancherz, 1979; Pancherz; Hansen, 1986; Pancherz; Hansen, 1988; Schütz et al., 2002; Vigorito; Yared et al., 2006; Dominguez, 2007).
Some attempts have been made to reduce the negative effects on lower incisors caused by the Herbst appliance, such as increasing the number of teeth in the mandibular anchorage, using soft-tissue anchorage, splints, and cast splints anchorage (Weschler et al., 2005; El-Fateh et al., 2011). However, these attempts were unsuccessful.
With the intention of solving these problems, a mini-implant prototype was developed for Herbst appliance anchorage (Barretto-Lopes, 2004). Mini-implants and implants have been used as anchors in orthodontics, for different purposes in different locations (Kanomi, 1997; Deguchi et al., 2003; Miyawaki et al., 2003). Some investigators have suggested the use of mini-implants as orthopedic anchors in animals (Smalley et al., 1988; De Pauw et al., 1999) and in the treatment of Class III malocclusions with retrusive maxillae in humans (Enacar et al., 2003, DeClerck et al., 2010; Heyman et al., 2010). However, there is little information about the use of mini-implants as an orthopedic anchor in the treatment of Class II malocclusions.
Therefore, a first in vitro study was developed to test the flexural resistance of the mini-implant prototypes developed for Herbst appliance anchorage (Barretto-Lopes, 2010, 2010). Subsequently, a question arose with respect to the resistance strength of these mini-implant prototypes when inserted in the bone, and a second ex vivo study was designed to evaluate if the mini-implant prototypes were capable of withstanding orthopedic forces in Minipigs br 1, and to compare the prototype resistance between the sites of insertion. The results showed that the mini-implant prototypes inserted in bone were capable of withstanding orthopedic forces (20.55 kgf for the mandible and 13.86 kgf for the maxilla), and the anterior region of the mandible could withstand statistically significant higher forces than the posterior region of the maxilla (Barretto-Lopes et al., 2012).
The next step was to test the Herbst with skeletal anchorage in humans and a pilot study was performed in patients to test the Herbst appliance with direct anchorage in mini-implants. However, the mini-implants presented mobility in the three cases tested and the trial was suspended.
Probably the direct load in mini-implants would be the reason of the system failure and a second pilot study in humans was carried out using the Herbst appliance with indirect anchorage in mini-implants. This system proved to be stable.
Thus, an in vivo study is necessary to evaluate the effect of the Herbst appliance with indirect anchorage in mini-implants on the lower incisors at the end of treatment compared to the Herbst appliance with dentoalveolar anchorage. Secondarily, this study could evaluate other dental effects and skeletal effects in the maxilla and mandible, resulting from the use of two types of anchoring.
2b. Objectives
Primary objective To determine if the Herbst appliance with indirect skeletal anchorage in mini-implants is capable of preventing excessive inclination of the lower incisors at the end of the treatment when compared to Herbst appliance with dental anchorage and Twin-Block appliances in patients with Class II malocclusion.
Secondary objectives To evaluate the changes occurred on mandible, maxilla, relationship between maxilla and mandible, lower molar and upper molar at the end of the treatment with the Herbst appliance with skeletal and dental anchorage, and Twin-Block appliances in patients with Class II malocclusion.
3-12. Methods
3a. Study design
According to the norms of the CONSORT STATEMENT (Moher et al., 2010), this study will be clinical with intervention, in which the allocation of the subjects will be randomized (block randomization). This study will be parallel, stratified by gender, with blinding for the outcome evaluators. The primary purpose of this study will be treatment.
4b. Participants - Settings and locations where the data are collected
The treatment will be performed in the Orthodontics Clinic of Rio de Janeiro State University. This public university serves a predominantly low-income population located in the Vila Isabel neighborhood in northern Rio de Janeiro State, Brazil. The estimated population size is 81,858 habitants (IBGE - CENSO 2000). Data will be collected from April 2015 through August 2016.
5. Interventions
Three groups will receive treatment. Group 1 will be treated with the Herbst appliance with dental anchorage for 12 months. Group 2 will be treated with the Herbst appliance with skeletal anchorage in mini-implants for 12 months. Group 3 will be treated with Twin-Block appliances.
7a. Sample size
The open source software developed by Harvard University (http://hedwig.mgh.harvard.edu/sample_size/js/js_parallel_quant.html) was used for the sample size calculation. The main outcome measure was the difference between lower incisor proclination before and after treatment. Standard deviation of 1.31 (Martin, Pancherz, 2009) with a two-tailed curve was considered. Difference in means of 2 mm was used as minimal detectable difference. This value was based on a question answered by Professors and Post graduation students who reported a reduction of 2 mm as clinically significant. The significance level will be ≤ 5% and the power of the study will be 80%.
Therefore, 57 subjects will be needed, with 19 subjects in each group. An Intention-to-treat analysis will be performed to deal with dropouts and multiple imputation will be used to deal with missing data. The treatment time will be, approximately, 12 months.
7b. Interim analysis and stopping guidelines
In the group with indirect skeletal anchorage, in case of mobility in the mini-implants in any subject, the load will be removed for about one month. After that, the load will be restored. If the mobility persists, the mini-implant will be removed and reinserted in another site. If mobility occurs again, this subject will be reallocated to the group with dental anchorage. The same procedure will be followed in case of failure of the mini-implant.
8. Randomization
8a. Sequence generation
The randomization of the clinical research will be done with a randomized list, using the first generator from the site www.randomization.com (Pandis et al., 2011).
8b. Type
The type of randomization will be block randomization. In this approach, after the selection of the subjects according to the eligibility criteria, the sample will be separated into 10 blocks with 6 subjects in each.
9. Allocation and concealment mechanism
The sequence of allocation will be concealed in sequential opaque envelopes numbered from 1 to 60, with the treatment modality.
10. Implementation
Before the beginning of the research, the secretary of the Department of Orthodontics of the Faculty of Dentistry of the University of the State of Rio de Janeiro will be responsible for the implementation of the randomization (generation and storage of the randomized list, allocation concealment and treatment assignment). The subjects will write their names on the numbered envelopes, and will open the envelopes to learn the treatment for which they were selected. After that, the envelopes will be closed with the type of treatment selected for storage of the information.
11. Blinding
Blinding will be carried out only for the data analysis because the researchers, participants and subjects will know the treatment modality. Therefore, a person who does not know in which group a subject was treated will analyze the data.
12. Statistical methods
For the primary and secondary outcome measures, the data analysis will be performed using SPSS statistical software package (version 12.0, Chicago). Means, standard deviations, and ranges of the dental and skeletal measures will be calculated for the Herbst appliance with dental anchorage and for the Herbst appliance with indirect skeletal anchorage. Statistical differences will be assessed using analysis of variance. The Wilcoxon's test will be used to assess dental and skeletal differences between the Herbst with dental anchorage and Herbst with indirect skeletal anchorage. Measurements will be repeated after 1 week by an examiner, and intraexaminer correlation coefficients (ICC) will be used to evaluate the reliability of repeated measures. A 1-sample test will be performed on duplicate measurements to test for systematic errors.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Malocclusion, Angle Class II
Keywords
Orthodontic Appliances, Functional, Herbst Appliance, Malocclusion, Angle Class II
7. Study Design
Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Masking
Outcomes Assessor
Allocation
Randomized
Enrollment
60 (Anticipated)
8. Arms, Groups, and Interventions
Arm Title
Herbst appliance with skeletal anchorage
Arm Type
Experimental
Arm Description
Group treated with the Herbst appliance with indirect skeletal anchorage in mini-implants.
Arm Title
Herbst appliance with dental anchorage
Arm Type
Active Comparator
Arm Description
Group treated with the conventional Herbst appliance with dental anchorage.
Arm Title
Twin-Block appliances
Arm Type
Active Comparator
Arm Description
Group treated with Twin-Block appliance.
Intervention Type
Device
Intervention Name(s)
Herbst appliance with skeletal anchorage
Intervention Description
Group treated with the Herbst appliance with indirect skeletal anchorage in mini-implants.
Intervention Type
Device
Intervention Name(s)
Herbst appliance with dental anchorage
Intervention Description
Group treated with the conventional Herbst appliance with dental anchorage.
Intervention Type
Device
Intervention Name(s)
Twin-Block appliance
Intervention Description
Group treated with Twin-Block appliance
Primary Outcome Measure Information:
Title
Lower incisors position changes as measured by tomographic superimposition of the mandible.
Description
Comparison in lower incisors position between the two groups at the end of the treatment.
Time Frame
12 months
Secondary Outcome Measure Information:
Title
Morphological mandible changes as measured by tomographic superimposition of the cranial base.
Description
Comparison between the changes of the mandible in the two groups at the end of the treatment.
Time Frame
12 months
Title
Maxilla changes as measured by tomographic superimposition of the cranial base.
Description
Comparison between the changes of the maxilla in the two groups at the end of the treatment.
Time Frame
12 months
Title
Changes in relationship between maxilla and mandible as measured by tomographic superimposition of the cranial base.
Description
Comparison between the changes of the relationship between the maxilla and the mandible in the two groups at the end of the treatment.
Time Frame
12 months
Title
Lower molar position changes as measured by tomographic superimposition of the mandible.
Description
Comparison between the changes of the lower molar in the three groups at the end of the treatment.
Time Frame
12 months
Title
Upper molar position changes as measured by tomographic superimposition of the maxilla.
Description
Comparison between the changes of the upper molar in the three groups at the end of the treatment.
Time Frame
12 months
Title
Facial changes as measured by tomographic superimposition of the face
Description
Comparison between the facial changes in the three groups.
Time Frame
12 months
10. Eligibility
Sex
All
Minimum Age & Unit of Time
10 Years
Maximum Age & Unit of Time
14 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria:
Teenagers aged from 10 to 14 years old (both genders)
Parental permission with a signed consent form
Referral from the Orthodontics Clinic of the State of Rio de Janeiro University or private clinics
Presenting Class II, Division 1 malocclusion with convex profile and minimum overjet of 6 mm in permanent dentition.
Exclusion Criteria:
Missing teeth.
Central Contact Person:
First Name & Middle Initial & Last Name or Official Title & Degree
Klaus B Lopes, PhD
Phone
55-21-99148-4446
Email
klausbarretto@uol.com.br
First Name & Middle Initial & Last Name or Official Title & Degree
Nathália Palomares, MSc
Phone
55-21-98883-0124
Email
palomares.nathalia@gmail.com
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Klaus B Lopes, PhD
Organizational Affiliation
Rio de Janeiro State University
Official's Role
Principal Investigator
First Name & Middle Initial & Last Name & Degree
Kevin D O'Brien, PhD
Organizational Affiliation
University of Manchester
Official's Role
Study Director
First Name & Middle Initial & Last Name & Degree
José Augusto M Miguel, PhD
Organizational Affiliation
Rio de Janeiro State University
Official's Role
Study Chair
First Name & Middle Initial & Last Name & Degree
Nathália Palomares, MSc
Organizational Affiliation
Rio de Janeiro State University
Official's Role
Study Director
Facility Information:
Facility Name
Rio de Janeiro State University
City
Rio de Janeiro
ZIP/Postal Code
20551-030
Country
Brazil
Individual Site Status
Recruiting
Facility Contact:
First Name & Middle Initial & Last Name & Degree
Klaus B Lopes, PhD
Phone
55-21-99148-4446
Email
klausbarretto@uol.com.br
First Name & Middle Initial & Last Name & Degree
José Augusto M Miguel, PhD
Phone
55-21-97282-1500
Email
jamiguel66@gmail.com
First Name & Middle Initial & Last Name & Degree
Klaus B Lopes, PhD
First Name & Middle Initial & Last Name & Degree
José Augusto M Miguel, PhD
First Name & Middle Initial & Last Name & Degree
Cátia C Quintão, PhD
First Name & Middle Initial & Last Name & Degree
Tatiana A Lima, PhD
First Name & Middle Initial & Last Name & Degree
Nathalia Palomares, MSc
12. IPD Sharing Statement
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Effects of the Herbst Appliance With Different Anchorages and Twin-Block Appliance in Class II Malocclusion
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