Biological Effects of Commercial Orthodontic Miniscrews

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

UNKNOWN

Clinical Phase

NA

Total Enrollment

10 participants

Study Classification

INTERVENTIONAL

Study Start Date

2018-05-01

Study Completion Date

2019-04-01

Brief Summary

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The use of miniscrew implants as an anchorage device in orthodontics has gained a widespread acceptance in recent years. There prevailed use has been attributed to its ease in insertion and removal at a relatively low cost with no need to wait for a long time between miniscrew insertion and force application. In this regard; clinical studies have suggested that miniscrew implants may provide stable anchorage during the orthodontic treatment without requiring patient cooperation. These studies proved many successful applications in orthodontics involving; retraction of anterior teeth, correction of open bites, distalization, mesialization, and intrusion of teeth

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Detailed Description

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The use of miniscrew implants as an anchorage device in orthodontics has gained a widespread acceptance in recent years. There prevailed use has been attributed to its ease in insertion and removal at a relatively low cost with no need to wait for a long time between miniscrew insertion and force application. In this regard; clinical studies have suggested that miniscrew implants may provide stable anchorage during the orthodontic treatment without requiring patient cooperation. These studies proved many successful applications in orthodontics involving; retraction of anterior teeth, correction of open bites, distalization, mesialization, and intrusion of teeth.

In dentistry, various materials are used in implant systems. The implant material must be nontoxic, biocompatible, mechanically sufficient, and having high tension and corrosion resistance. Commercially pure titanium (cp Ti) is the most used material in prosthetic implants because of its; high biocompatibility, high corrosion resistance in body fluids, not allergic, high specific strength, and low elastic modulus when compared with other metallic biomaterials.

On the other hand, orthodontic miniscrew implants are smaller than conventional prosthetic implants and should resist high orthodontic loads. These factors contribute to the possible fracture of cp Ti miniscrew implants during placement, use, and removal. To avoid such fracture, Ti alloy implants, composed with aluminum (6Al) and vanadium (4V), (Ti-6Al-4V), for adding strength and fatigue resistance than cp Ti, are required. Unfortunately, this alloy has a low corrosion resistance and can result in corrosion of the orthodontic miniscrew implants in body fluids.

Any metal or alloy implanted in the human body is a potential source of toxicity. In an oral envelope, miniscrew implants are exposed to a number of potentially destructive physical and chemical agents. Evaluation the potential of conventional dental implants to release metallic ions into the body have been done. However, little attention has been given to metallic ion released from orthodontic miniscrew implant systems and the potential toxicity of these released metal on oral tissues. The concern about this has been limited to orthodontic brackets and wires.

One of the studies concerned with the biocompatibility of different metals used in vivo of different fixed orthodontic appliances and evaluating the presence of metal ions in oral mucosa cells, their potential cytotoxicity, and genotoxic effects. This study concluded that nickel and cobalt metals released from fixed orthodontic appliances could induce DNA damage in oral mucosa cells.

Literature review in this topic listed an expanding area of articles dealing with orthodontic miniscrews. The in vivo studies of cytotoxic effect of metal ions released from orthodontic miniscrew implants in body fluids are limited compared to in vitro studies.

In view of the above review of literature, it will be of great value in clinical orthodontics to investigate the biological effect of commercial orthodontic miniscrew implants on the oral investing tissue.

Conditions

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Cytotoxicity

Study Design

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Allocation Method

NA

Intervention Model

SINGLE_GROUP

Primary Study Purpose

TREATMENT

Blinding Strategy

NONE

Study Groups

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Extraction cases

patients receive Tomas orthodontic miniscrew implant as a mean of anchorage augmentation

Group Type EXPERIMENTAL

Tomas® Anchorage System - DENTAURUM

Intervention Type DEVICE

self drilling, bone inserted, screw like device used for anchorage preparation during orthodontic treatment.

Interventions

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Tomas® Anchorage System - DENTAURUM

self drilling, bone inserted, screw like device used for anchorage preparation during orthodontic treatment.

Intervention Type DEVICE

Eligibility Criteria

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Inclusion Criteria

* The patients will be included in this study if they have the following:

1. All cases indicated for bilateral extraction of maxillary first premolar and retraction of canine into the extraction space.
2. Age range from 14 to 18 years.
3. Full set of permanent teeth (the third molars are not considered).
4. No previous orthodontic or orthognathic surgery treatment.
5. Good oral and general health.
6. All teeth should be caries-free.
7. All teeth should be free from any metallic restorations.

Exclusion Criteria

* The patients will be excluded from the study if they have the following:

1. History of serious medical problems or taking systemic medication which could affect orthodontic treatment.
2. History of serious dental problems (endodontic treatment, apicectomy, or any other dental problems) which could affect orthodontic treatment.

Minimum Eligible Age

14 Years

Maximum Eligible Age

18 Years

Eligible Sex

FEMALE

Accepts Healthy Volunteers

Yes