Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Filter by Categories
Book Review
Case Report
Case Series
Clinical Article
Clinical Innovation
Clinical Pearl
Clinical Pearls
Clinical Showcase
Clinical Technique
Critical Review
Editorial
Expert Corner
Experts Corner
Featured Case Report
Guest Editorial
Letter to Editor
Media and News
Orginal Article
Original Article
Original Research
Research Gallery
Review Article
Special Article
Special Feature
Systematic Review
Systematic Review and Meta-analysis
The Experts Corner
Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Filter by Categories
Book Review
Case Report
Case Series
Clinical Article
Clinical Innovation
Clinical Pearl
Clinical Pearls
Clinical Showcase
Clinical Technique
Critical Review
Editorial
Expert Corner
Experts Corner
Featured Case Report
Guest Editorial
Letter to Editor
Media and News
Orginal Article
Original Article
Original Research
Research Gallery
Review Article
Special Article
Special Feature
Systematic Review
Systematic Review and Meta-analysis
The Experts Corner
Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors
Filter by Categories
Book Review
Case Report
Case Series
Clinical Article
Clinical Innovation
Clinical Pearl
Clinical Pearls
Clinical Showcase
Clinical Technique
Critical Review
Editorial
Expert Corner
Experts Corner
Featured Case Report
Guest Editorial
Letter to Editor
Media and News
Orginal Article
Original Article
Original Research
Research Gallery
Review Article
Special Article
Special Feature
Systematic Review
Systematic Review and Meta-analysis
The Experts Corner
View/Download PDF

Translate this page into:

Original Article
6 (
2
); 95-98
doi:
10.4103/2321-1407.177964

Custom made profile projector: A new, innovative, and economical way to evaluation of tooth enamel loss after acid etching: An in vitro study

, , , , ,
 Department of Orthodontics, ACPM Dental College, Dhule, Maharashtra, India

Address for Correspondence: Dr. Harshal Ashok Patil, Department of Orthodontics, ACPM Dental College, Sakri Road, Dhule, Maharashtra, India. E-mail: drharshalortho@gmail.com

© 2016
Licence
This is an open access article distributed under the terms of the Creative Commons Attribution-Non Commercial-Share Alike 3.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms.
Disclaimer:
This article was originally published by Wolters Kluwer and was migrated to Scientific Scholar after the change of Publisher.

How to cite this article: Patil HA, Chitko SS, Kerudi VV, Patil NS, Maheshwari A, Singh R. Custom made profile projector: A new, innovative, and economical way to evaluation of tooth enamel loss after acid etching: An in vitro study. APOS Trends Orthod 2016;6:95-8.

Abstract

Introduction

Aim of this in vitro study is to evaluate the loss of tooth enamel after acid etching using a custom made profile projector (×100).

Materials and Methods

Twenty human extracted maxillary and mandibular premolars were collected, and each tooth was mounted on an acrylic block (2 cm × 1 cm) along with a 0.8 mm stainless steel wire partially embedded in acrylic in front of the buccal surface of the teeth. The 0.8 mm wire was used for reference; the image appeared on the projection screen was 80 mm implying that magnification ×100 has been achieved. Fabrication of custom made profile projector followed the principles of optics. Two projections of each sample before and after etching were projected. The projection was recorded using tracing paper. The difference between the two tracings before and after etching was measured using a millimeter scale. This reading was converted into microns, i.e., 1 mm = 10 μ.

Results

The statistical method used for this study is a measure of central tendency. The research shows that the average enamel loss was around 15.25 microns. The median is a value at the midpoint of the group, and median for enamel loss is 15 μ Mode for enamel loss is 15 μ that means most frequent or most repetitive enamel loss is 15 μ. The maximum enamel loss was 25 μ, and minimum of that was 10 μ.

Conclusions

The results of this study indicate that etching enamel with 37% phosphoric acid for 30 s loses 15 μ of surface enamel using an economical and efficient custom made profile projector.

Keywords

Acid etching
collimated point light source
custom made profile projector
optics

INTRODUCTION

Buonocore[1] revolutionized dentistry with his historical paper. “A simple method of increasing the adhesion of acrylic filling material to enamel surfaces” depicting the advantage of etching and bonding of acrylic to enamel;[1] it forever changes the practice of dentistry. Efforts have been made to develop or introduce a simplified alternative, but enamel acid etching remains the most effective procedure for stable enamel bonding. Although acid etching is considered the most popular procedure in dentistry, there are characteristics that deserve special attention because of how crucial they can be in many clinical situations. A routine etching with 37% phosphoric acid for 30 s is commonly used routine protocol for acid etching.[2] Retention characteristics of etched surfaces depend on the enamel’s chemical composition and etching time.[3-5]

Roughness is described as a complex role of irregularities or little projections and indentations that characterizes a surface and influence on wetting, quality of adhesion, and brightness. Despite micro-mechanical roughness being pointed out as primordial to obtain efficient adhesion to enamel,[6,7] the precise etched enamel characteristics involved and the metrical scale or unit in which adhesion occurs are not known.

The effect that surface roughness exerts on adhesion is not completely understood.[8] However, asserted that if a surface is roughened, producing more surface area, and if intimate contact between the adhesive and adherent is established, the actual adhesive bonding will be stronger because of the increase in surface area.

In all previous studies, the loss of enamel is evaluated by scanning electron microscopy, profilometer, atomic force microscopy, etc.[6,9-11] All this options are too expensive and not readily available. Considering this, we have come up with a simple, efficient, and economical way–a custom made profile projector, which is based on the basic principle of optics.[12,13]

MATERIALS AND METHODS

Twenty human maxillary and mandibular premolars extracted from orthodontic patients. Teeth with caries, restorations, enamel defects, hypocalcification, or fluorosis on the buccal surfaces were excluded.

Each tooth is mounted on an acrylic block (2 cm × 1 cm) along with a 0.8 mm stainless steel wire partially embedded in acrylic in front of the buccal surface of the teeth [Figure 1].

Each tooth is mounted on an acrylic block (2 cm × 1 cm) along with a 0.8 mm stainless steel wire partially embedded in acrylic in front of the buccal surface of the teeth
Figure 1
Each tooth is mounted on an acrylic block (2 cm × 1 cm) along with a 0.8 mm stainless steel wire partially embedded in acrylic in front of the buccal surface of the teeth

Material

  1. Custom made profile projector [Figure 2] consists of

    1. Collimated point light source: Monochromatic light (light-emitting diode [LED]) with battery

    2. Two lenses having different diopters

  2. Tooth sample

  3. Projection screen

  4. Thirty-seven percentage phosphoric acid

  5. Darkroom

  6. Tracing paper

  7. Lead pencil.

Custom made profile projector
Figure 2
Custom made profile projector

Profile projector

The idea of using a profile projection, which was created by James Hartness and Russel W. Porter, comes from mixing optics and measurement in a device.

Definition

A profile projector (often simply called as an optical comparator in context) is a device that applies the principle of optics for the inspection of manufactured parts.

In a comparator, the magnified silhouette of a part is projected on the screen, and the dimension and geometry of the part are measured against the prescribed limits.

It is also employed for inspection and comparing very small parts, which play a very significant role in systems structure as an application of quality.

Profile projector can reveal imperfections such as bur scratches, indentations, and undesirable chamfers which both micrometers and calipers cannot reveal.

Design of custom made profile projector

A custom made profile projector assembly consists of a wooden platform on which two adjustable vertical stands are fitted to mount the appropriate lenses, a table (T) for placing the sample, and on another stand (S) on which light source (LED) is placed, magnification of which is adjusted to ×100 by applying the basic principle of optics [Figure 3].

Ray diagram of profile projector
Figure 3
Ray diagram of profile projector

Method

  1. The assembly was arranged in a darkroom

  2. Mounted tooth sample was placed on the table between the two lenses; the distance between the light source and the lenses, and finally, the distance between the profile projector assembly and the projection screen were adjusted and fixed according to the principle of optics

  3. Etching the buccal surface of tooth was done using 37% phosphoric acid for 30 s

  4. Turning on the light source, the profile of the sample was projected on the projection screen [Figure 4]

  5. Two projections of each sample were projected

    1. Before etching

    2. After etching

  6. The image was projected on a white matte drawing paper that was attached to the wall using a sticking tape. Matte paper reduces penumbra formation, giving a sharply defined image so that it will be less straining to the eyes and can be easily traced and measured

  7. The size of 0.8 mm wire appeared on the projection screen is 80 mm which means the magnification of ×100 is obtained. It acts as a reference for both magnification as well measuring distance from the tooth surface

  8. The projection was recorded using tracing paper. The image was traced from one end of the projected image to the projected convex surface of the tooth [Figure 5]

  9. The difference between the two tracings before and after etching was measured using a millimeter scale [Figure 6]

  10. This reading was converted into microns, i.e., 1 mm = 10 µ

  11. In this manner, readings were taken and measured for 20 samples.

Tooth sample projected on projection screen
Figure 4
Tooth sample projected on projection screen
The image was traced from one end of the projected image to the projected convex surface of the tooth
Figure 5
The image was traced from one end of the projected image to the projected convex surface of the tooth
The difference between the two tracings before and after etching was measured using a millimeter scale
Figure 6
The difference between the two tracings before and after etching was measured using a millimeter scale

Statistical analysis

Statistical analysis of 20 samples was done. The statistical method used for this study was to measure central tendency. The mean, median, and mode are all the measures of central tendency. They attempt to describe what the typical data point might look like. Values obtained from the statistical analysis have been shown in [Table 1].

Table 1 Statistical analysis
n (number of observations) Mean Median Mode Minimum Maximum Variance SD
20 15.250 15.00 15 10 25 24.9342 4.9934

SD – Standard deviation

RESULTS

The research shows that the average enamel loss was around 15.25 µ. The median is a value at the midpoint of the group, and median for enamel loss is 15 µ. The mode is the value that appears most frequently in the group of measurements, according to this research. Mode for enamel loss is 15 µ that means most frequent or most repetitive enamel loss is 15 µ. The maximum enamel loss was 25 µ and minimum of that was 10 µ.

DISCUSSION

The modern bonding system for resin-based materials is based on a micromechanical retention principle. To achieve this, an acid, generally a 37% orthophosphoric acid, is used to transform the smooth enamel surface into an irregular surface and increase its surface free energy, and some amount of enamel loss is accepted.[14] The superficial 100 µm of enamel is the fluoride rich layer. Most of the damage to the enamel during bonding and debonding is well within this fluoride rich layer, leaving adequate protection for the remaining enamel structure.

In this study, we used a custom made profile projector that was based on the principles of optics. The study quantifies the loss of enamel occurring during one of the most commonly performed procedure, which is acid etching. Though the depth of acid etching has been extensively studied,[6,9-11] the surface loss has been an aspect less ventured by researchers. Advantages of custom made profile projector:

  1. It is an economical and very efficient tool

  2. A single setting of the specimen provides observation, comparison, and inspection of several dimensions and characteristics in a projector

  3. Several people can observe the projected image simultaneously. Thus, the projectors are handy tools when images are to be inspected by a group of people

  4. There is no physical contact between the specimen and the measuring instruments in projectors. Thus, the specimen to be inspected is free from mechanical distortion or defects. This increases the accuracy in measurement

  5. The open screen, commonly at eye level, permits the observation of the image in unrestricted position under more natural conditions than viewing through a microscope eyepiece.

Our custom made projector not only measures enamel loss, but it will also helpful in dentistry for many purposes such as bur scratches, indentations, and undesirable chamfers in restorative dentistry.

CONCLUSION

The results of this study indicate that etching of enamel with 37% phosphoric acid for 30 s reduces 15 µ of surface enamel as shown using an economical and efficient custom made profile projector.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

References

  1. . A simple method of increasing the adhesion of acrylic filling materials to enamel surfaces. J Dent Res. 1955;34:849-53.
    [Google Scholar]
  2. , . The enamel surface and bonding in orthodontics. Semin Orthod. 2010;16:37-48.
    [Google Scholar]
  3. , . Bonding of polymers to enamel: Influence of deposits formed during etching, etching time and period of water immersion. J Dent Res. 1980;59:1156-62.
    [Google Scholar]
  4. , , . The effect of phosphoric acid concentration on resin tag length and bond strength of a photo-cured resin to acid-etched enamel. Dent Mater. 2000;16:324-9.
    [Google Scholar]
  5. , , , , , , et al. Buonocore memorial lecture. Adhesion to enamel and dentin: Current status and future challenges. Oper Dent. 2003;28:215-35.
    [Google Scholar]
  6. , . A study of enamel adhesives. The physical relationship between enamel and adhesive. Arch Oral Biol. 1967;12:1615-20.
    [Google Scholar]
  7. , , . Penetration of resin dental materials into enamel surfaces with reference to bonding. Arch Oral Biol. 1968;13:61-70.
    [Google Scholar]
  8. , . Variations in acid-etch patterns with different acids and etch times. Am J Orthod Dentofacial Orthop. 2001;120:64-7.
    [Google Scholar]
  9. , , . Enamel surface roughness after debonding: Comparison of two different burs. Angle Orthod. 2010;80:1081-8.
    [Google Scholar]
  10. . Enamel surfaces after orthodontic bracket debonding. Angle Orthod. 1995;65:103-10.
    [Google Scholar]
  11. , , . Scanning electron microscopic evaluation of the enamel surface subsequent to various debonding procedures–An in-vitro study. AOSR. 2012;2:17-22.
    [Google Scholar]
  12. , . Fundamentals of Optics (3rd ed). New York, London, Toronto: McGraw-Hill; .
  13. , , . Fundamentals of Physics Extended (9th ed). USA: John Wiley and Sons; .
  14. . A historical overview of the development of the acid-etch bonding system in orthodontics. Semin Orthod. 2010;16:2-23.
    [Google Scholar]

Fulltext Views
4,968

PDF downloads
3,971
View/Download PDF
Download Citations
BibTeX
RIS
Show Sections

Suggested read for related articles:

© Copyright 2024 – APOS Trends in Orthodontics – All rights reserved.
Published by Scientific Scholar on behalf of Asian Pacific Orthodontic Society, Singapore.

ISSN (Print): 2321-4600
ISSN (Online): 2321-1407

Scientific Scholar CrossRef Creative Commons Open Acess Portico