Composites and Urinary Bisphenol-A Study (CUBS)
Primary Purpose
Dental Caries
Status
Completed
Phase
Not Applicable
Locations
United States
Study Type
Interventional
Intervention
Restoration of dental caries with dental composite
Sponsored by
About this trial
This is an interventional treatment trial for Dental Caries focused on measuring Dental Caries, Dental Restorative Materials, Dental Composite, Bisphenol-A
Eligibility Criteria
Inclusion Criteria:
- Aged 3-16 (<17) years at enrollment.
- 2+ posterior teeth with caries requiring restorations treatable by composite.
- Toilet-trained (not using diapers, pull-ups, or training pants during day or night).
Exclusion Criteria:
- Medical conditions that would render the subject physically unable to provide urine samples.
- Guardian is not proficient in spoken English or Spanish language
- Child is aged 8.0 years or older and not proficient in spoken English or Spanish language
- Living >35 miles outside of the dental clinic or the NERI office (Watertown MA)
Sites / Locations
- New England Research Institutes, Inc.
Arms of the Study
Arm 1
Arm Type
Experimental
Arm Label
Composite
Arm Description
Outcomes
Primary Outcome Measures
Change in Urinary Bisphenol A Level (BPA) From Baseline to 6 Months
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at follow-up minus BPA at baseline. Analysis of change in BPA was done using the arithmetic mean.
Change in Urinary Bisphenol A Level (BPA) From Baseline to 1 Day After the First Dental Treatment
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 1 day after the first dental treatment minus BPA at baseline. The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline. Analysis of change in BPA was done using the arithmetic mean.
Change in Urinary Bisphenol A Level (BPA) From Baseline to 14 Days After the First Dental Treatment
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 14 days after the first dental treatment minus BPA at baseline. The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline. Analysis of change in BPA was done using the arithmetic mean.
Change in Urinary Bisphenol A Level (BPA) From Baseline to 1 Day After the Second Dental Treatment
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 1 day after the second dental treatment minus BPA at baseline. The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment. Analysis of change in BPA was done using the arithmetic mean.
Change in Urinary Bisphenol A Level (BPA) From Baseline to 14 Days After the Second Dental Treatment
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 14 days after the second dental treatment minus BPA at baseline. The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment. Analysis of change in BPA was done using the arithmetic mean.
Secondary Outcome Measures
Full Information
NCT ID
NCT01484132
First Posted
November 16, 2011
Last Updated
July 6, 2015
Sponsor
Carelon Research
Collaborators
National Institute of Environmental Health Sciences (NIEHS), Harvard School of Public Health (HSPH)
1. Study Identification
Unique Protocol Identification Number
NCT01484132
Brief Title
Composites and Urinary Bisphenol-A Study
Acronym
CUBS
Official Title
Health Effects of Dental Composites in Children
Study Type
Interventional
2. Study Status
Record Verification Date
March 2015
Overall Recruitment Status
Completed
Study Start Date
February 2012 (undefined)
Primary Completion Date
June 2014 (Actual)
Study Completion Date
June 2014 (Actual)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor
Name of the Sponsor
Carelon Research
Collaborators
National Institute of Environmental Health Sciences (NIEHS), Harvard School of Public Health (HSPH)
4. Oversight
Data Monitoring Committee
No
5. Study Description
Brief Summary
The Composites and Urinary Bisphenol-A Study (CUBS) is a clinical study of dental composite for its effects on urinary bisphenol-A levels. The study will enroll approximately 139 children recruited from study-affiliated clinical sites in New England.The primary aim of CUBS is to test the hypothesis that urinary bisphenol-A (BPA) concentrations increase after composite restoration placement. BPA is a chemical used in the synthesis of matrix monomers and has been shown to have harmful effects in toxicological studies in laboratory animals. Currently it is unknown whether dental composite restorative materials containing monomers that are derived from BPA result in chronic low-dose BPA exposure in children.
Detailed Description
Study subjects will be new or existing patients of the clinical sites who are in need of dental restorations, meet all eligibility criteria, and provide informed consent/assent to participate. Subjects will be asked to provide two pre-treatment urine samples and three post-treatment samples. Urine collections occur next-day and 14 days after treatment, with one final urine collected approximately 6 months later (marking the end of the subject's active study participation). Data will be collected from the clinician's standard oral examination (including new and existing dental treatments), the data collector's measurements of height and weight and interviews administered to the parents/guardians to assess sociodemographic and other relevant factors (e.g., recent food/beverage consumption). Confidentiality will be maintained by assigning each subject a unique number and using only this number or aggregate data in all study reports. All study records will be securely maintained with access limited to essential study personnel only.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Dental Caries
Keywords
Dental Caries, Dental Restorative Materials, Dental Composite, Bisphenol-A
7. Study Design
Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Single Group Assignment
Masking
None (Open Label)
Allocation
N/A
Enrollment
113 (Actual)
8. Arms, Groups, and Interventions
Arm Title
Composite
Arm Type
Experimental
Intervention Type
Procedure
Intervention Name(s)
Restoration of dental caries with dental composite
Other Intervention Name(s)
Composite to be used is Z100 by 3M ESPE (St Paul, MN, USA).
Intervention Description
Dental Restoration (bisphenol A diglycidyl ether methacrylate based composite)
Primary Outcome Measure Information:
Title
Change in Urinary Bisphenol A Level (BPA) From Baseline to 6 Months
Description
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at follow-up minus BPA at baseline. Analysis of change in BPA was done using the arithmetic mean.
Time Frame
From Baseline to 6 months
Title
Change in Urinary Bisphenol A Level (BPA) From Baseline to 1 Day After the First Dental Treatment
Description
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 1 day after the first dental treatment minus BPA at baseline. The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline. Analysis of change in BPA was done using the arithmetic mean.
Time Frame
From Baseline to 1 day after the first dental treatment (The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline.)
Title
Change in Urinary Bisphenol A Level (BPA) From Baseline to 14 Days After the First Dental Treatment
Description
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 14 days after the first dental treatment minus BPA at baseline. The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline. Analysis of change in BPA was done using the arithmetic mean.
Time Frame
From Baseline to 14 days after the first dental treatment (The first dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically within a few weeks of baseline.)
Title
Change in Urinary Bisphenol A Level (BPA) From Baseline to 1 Day After the Second Dental Treatment
Description
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 1 day after the second dental treatment minus BPA at baseline. The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment. Analysis of change in BPA was done using the arithmetic mean.
Time Frame
From Baseline to 1 day after the second dental treatment (The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment.)
Title
Change in Urinary Bisphenol A Level (BPA) From Baseline to 14 Days After the Second Dental Treatment
Description
BPA was measured, corrected for specific gravity, in ng/mL. We corrected BPA for specific gravity (SG) using the formula: BPA * [(meanSG - 1)/(SG - 1)], where meanSG is the mean of the SG for the samples examined. Urine samples were collected twice pre-treatment and the geometric mean of BPA at each pre-treatment visit was used as the baseline BPA. Change in BPA was computed using BPA at 14 days after the second dental treatment minus BPA at baseline. The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment. Analysis of change in BPA was done using the arithmetic mean.
Time Frame
From Baseline to 14 days after the second dental treatment (The second dental treatment was scheduled as per treatment needs and the schedules of the dentist and patient. It was typically 3-4 weeks after the first dental treatment.)
10. Eligibility
Sex
All
Minimum Age & Unit of Time
3 Years
Maximum Age & Unit of Time
17 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria:
Aged 3-16 (<17) years at enrollment.
2+ posterior teeth with caries requiring restorations treatable by composite.
Toilet-trained (not using diapers, pull-ups, or training pants during day or night).
Exclusion Criteria:
Medical conditions that would render the subject physically unable to provide urine samples.
Guardian is not proficient in spoken English or Spanish language
Child is aged 8.0 years or older and not proficient in spoken English or Spanish language
Living >35 miles outside of the dental clinic or the NERI office (Watertown MA)
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Sonja McKinlay, PhD
Organizational Affiliation
Carelon Research
Official's Role
Principal Investigator
Facility Information:
Facility Name
New England Research Institutes, Inc.
City
Watertown
State/Province
Massachusetts
ZIP/Postal Code
02472
Country
United States
12. IPD Sharing Statement
Learn more about this trial
Composites and Urinary Bisphenol-A Study
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