Radiographic Image Quality PDF

Summary

This document provides an overview of radiographic image quality, including spatial resolution, contrast resolution, noise, and film factors, along with concepts like optical density (OD) and the characteristic curve.

Full Transcript

RADIOGRAPHIC
IMAGE
 refers to the fidelity
with which the
anatomical structure
that is being examined
RADIOGRAPHIC is rendered on the
IMAGE QUALITY radiograph.
"High quality
radiograph"
The most important characteristics
of radiographic image quality:

Contras
Spatial
t
resoluti Noise
Resoluti
on
on
 Resolution

the ability to image two separate objects
and visually distinguish one from the other.
Resolution is the ability to accurately image
an object
expressed as line pairs per millimeter
(lp/mm)
 Spatial Resolution
refers to the ability to image
small objects that have high
subject contrast, such as a
bone–soft tissue interface, a
breast microcalcification, or a
calcified lung nodule.
Detail or recorded detail
 Visibility of detail refers to the ability
to visualize recorded detail when
image contrast and optical density
(OD) are optimized.
 Contrast Resolution
the ability to distinguish anatomical
structures of similar subject
contrast.
Degree of density difference
between two areas on a
radiograph
Noise
 Radiographic noise has four
components:
film graininess

structure mottle

quantum mottle

scatter radiation - principal source of
radiographic noise
Film graininess
refers to the
distribution in size
and space of silver
halide grains in the
emulsion.
 Structure Mottle
similar to film graininess but
refers
to the phosphor of the radiog
raphic intensifying screen.
 Quantum mottle
is somewhat under the control of the
radiologic technologist and is a principal
contributor to radiographic noise in many
radiographic imaging procedures.
Quantum mottle refers to the random
nature by which x-rays interact with the
image receptor.
Speed
FILM FACTORS
 SENSITOMETRY
The study of the relationship between
the intensity of exposure of the film
and the blackness after processing
(OD).
Sensitometers (and densitometers)
- calibrated annually.
 CHARACTERISTIC CURVE
H & D curve - Hurter and Driffield, who
first described this relationship (1890)
D log E curve – Density log exposure
Sensitometric curve
used to describe the relationship between
OD and radiation exposure.
 Base plus fog
Toe
Straight-line
portion
Shoulder
maximum density
(Dmax)
 The base plus fog (b+f) is
the density at no
exposure, or the density
that is inherent in the
Radiographic film base
Base film.
density ranges around OD
plus 0.05–0.10.
fog Processing the film
usually adds about OD
(b+f) 0.05–0.10 in fog density.
The total base plus fog is
seldom below OD 0.10 but
should not exceed OD
 The straight-line
portion of the
curve is that
straigh portion between
t-line the toe and
portion The range of
shoulder
diagnostic
densities varies
from a low of OD
0.25–0.50 to a
 Dmax is the
maximum
density the film
Dmax is capable of
It is the highest
recording.
point on the D
log E curve.
 OPTICAL DENSITY (OD)

degree of blackening of a radiograph