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Clinical Trial Details — Status: Unknown status

Administrative data

NCT number NCT00423956
Other study ID # 6203
Secondary ID
Status Unknown status
Phase Phase 1/Phase 2
First received January 16, 2007
Last updated January 20, 2013
Start date January 2007
Est. completion date December 2015

Study information

Verified date January 2013
Source University of Alberta, Graduate Orthodontic Program
Contact Dr. Tarek H El-Bialy, PhD
Phone 1-780-492-2751
Email telbialy@ualberta.ca
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Tooth-root resorption, also known as shortening or erosion,(TRR) is one of the adverse outcomes of dental trauma, orthodontic tooth movement and dental replantation/transplantation. Orthodontically induced inflammatory root resorption (OIIRR) is somewhat different from other types of TRR. The treatment protocol of teeth diagnosed with severe OIIRR or other forms of TRR always involves root canal treatment or extraction of these teeth in severe cases and prosthetic replacement. Sometimes teeth with minor TRR may stay for an extended period of time with compromised bite functions. Although several trials have been proposed to minimize or prevent TRR or OIIRR, none is capable of being used in clinical situation to treat TRR or OIIRR in humans except for Low Intensity Pulsed Ultrasound (LIPUS). However, research examining the use of LIPUS to treat OIIRR has been limited to simple orthodontic tooth tipping. In reality, tooth movement is a combination of different types of tooth movements, namely tipping, bodily, rotational, torque, intrusion and extrusion tooth movements. However, the literature have pointed out that torque tooth movement, especially when the root apices are torques against cortical plates of bone produces the most dramatic type of tooth root resorption with poor prognosis. Our long-term goal is to develop a standard protocol for treating severe tooth root resorption with poor prognosis in humans, regardless of origin. Our preliminary data demonstrates that LIPUS can produce healing of OIIRR in humans after simple tipping movement, this was confirmed by an in-vitro study on isolated cementoblasts. The objective of the present proposal is to evaluate the effect of different treatment protocols of LIPUS on the healing process of orthodontically induced tooth-root resorption due to torque (Complex)type of tooth movement in humans.

The study Hypotheses are (I) LIPUS treatment for 20 minutes per day for 4 weeks will be effective in repairing OIIRR due to torque tooth movement.

(II) The stimulatory effect of LIPUS to repair OIIRR due to torque tooth movement than LIPUS treatment is dose and time dependent.


Description:

For each patient, specially designed springs will be used to achieve standard torque orthodontic tooth movement of the first premolars to induce OIIRR. The first molars will be stabilized, using a special appliance to help movement of the premolars. This type of appliance design has been used for many years in similar clinical trials by many researchers and has received wide acceptability without reported problems to the teeth during the experimental period. Ultrasound will be applied for twenty minutes per day, starting the day the springs are activated, for four weeks, using an ultrasound device (Exogen Inc., West Caldwell, NJ, USA). Only the first premolar will be receiving ultrasound. The patients will be instructed on how to have the ultrasound transducer. The non LIPUS treated premolars will be receiving sham transducers. A visual analogue scale will be provided to the patients to record any pain or discomfort that the patient might experience during or after application of ultrasound. It is expected that there will be no evidence of any deleterious effect on the intervening soft tissue as we did not informed with any discomfort experienced by the patients in our preliminary study. After four or eight weeks of LIPUS treatment, the springs will be removed, and the first premolars will be extracted, using a non-traumatic technique. The extracted teeth will be fixed, and studied by μ-CT then they will be processed to be analyzed histomorphometrically


Recruitment information / eligibility

Status Unknown status
Enrollment 72
Est. completion date December 2015
Est. primary completion date December 2015
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 12 Years to 28 Years
Eligibility Inclusion Criteria:

- All the root apices of the experimental premolars should be completed.

- All experimental premolars should be sound and have no history of trauma/caries or root canal therapy.

Exclusion Criteria:

- Patients with incomplete experimental premolars' apices.

- 2- Any patient with experimental premolars that have a history of trauma/caries or root canal therapy.

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
Repairing Induced tooth root resorption by ultrasound
Repairing Induced tooth root resorption by ultrasound

Locations

Country Name City State
Canada University of Alberta, Graduate Orthodontic program Edmonton, Alberta

Sponsors (1)

Lead Sponsor Collaborator
University of Alberta, Graduate Orthodontic Program

Country where clinical trial is conducted

Canada, 

Outcome

Type Measure Description Time frame Safety issue
Primary Evaluation of the effect of LIPUS on OITRR Four weeks
Primary Teeth Root length four weeks
Primary Root resorption lacunae number and volume Four weeks
Secondary Study the effect of LIPUS on alveolar bone remodeling Four weeks
Secondary Rate of tooth movement Teeth position before and after treatment will be measured to evaluate the possible effect of ultrasound on tooth movement. Rate of tooth movement at the time of extraction
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