Course Instructions

Objectives

Introduction

X-ray Characteristics

Density and Contrast (Imaging Terms)

Effects of Radiation

Film Speed

Digital Radiography

Infection Control

Prescribing Radiographs

Who Gets Which Films?

Shadow-Casting Principles

Radiographic Surveys

Patient Management

Film Processing

Qualities of Excellent X-Rays

Common Errors

Mounting Films

Glossary

Word Processor Printable Test and Answer Sheet

Web Based Test

Contrast, Density and Related Dental Imaging Terms

To properly evaluate dental x-ray quality, and to optimize your practice's imaging activities, it is helpful to understand some key imaging terms. Two measures of dental x-ray quality are density and contrast.

Density.

The optical density is the degree of blackening of film after exposure and processing. The blacker the area in question, the higher the density. Density is measured by the ability of the developed silver in the piece of film to stop light from passing through.

X-ray films that have too little density appear "too light." Films that have too much density appear "too dark." In either case, detail can be lost. If a film is too light, detail is washed out in the lighter areas of the film. If a film is too dark, detail is lost in the dark areas.

low density (under exposed)

normal density

High density (overexposed)

Two terms used to express two common values of density are: D-min and D-max. D-min corresponds to the lowest possible density that a particular type of film can achieve. D-max corresponds to the highest possible density a particular type of film can achieve. For intraoral film, the D-min value is generally in the range of 0.2 to 0.3. The D-max value is 5.0 or greater.

Contrast.

In the three images below, notice the difference in appearance of the caries on the mesial of #2 as the images increase in contrast from the left to the right.

Low contrast

medium contrast

high contrast

Contrast is the difference in optical density (film blackening) between areas of interest in a radiograph. For this reason, contrast is critical for distinguishing objects in a radiograph. Contrast in a dental x-ray image is influenced by three factors: subject contrast, film contrast and processing.

Subject contrast

Subject contrast is the result of the differential attenuation of the x-ray beam by the subject being imaged. As x-ray radiation passes through patient tissue, bone and teeth, it is absorbed to varying degrees depending on the type of tissue it encounters. Teeth, for example, absorb more x-ray radiation than soft tissue. Therefore, fewer x-ray beams pass through teeth to strike the x-ray film. The area of the film that corresponds to teeth will, as a result, appear lighter than the area that corresponds to soft tissue.

Film contrast

Film contrast is a characteristic of the film itself. These films, if exposed and processed correctly, are optimized to deliver very dark blacks and very light whites. Films with excellent film contrast help dental professionals adjust for other variables in the imaging process.

Processing

One of the easiest ways to obtain excellent film contrast is proper processing. Adjusting development time, processing temperature and other factors will often help improve contrast and density of images.

For example, if processing temperatures are too high, the image density will be too high. If processing temperatures are too low, the image will be too light. Chemistry solutions must also be fresh to work properly. Old chemicals will not be as chemically active, which will result in images that are "too light".

 

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