Reproducibility of readings, Reproducibility in temperature measurement – Exergen TEMPORALSCANNER TAT-5000 User Manual

Page 21

Advertising
background image

Reproducibility of Readings

Reproducibility in Temperature Measurement

Multiple temperature readings in the same area, mouth, rectum, axilla, ear or temporal artery, make
for variability with each separate measurement. This can be confusing for clinicians, since they
expect the same number with each measurement. The non-reproducibility of the readings, however,
is not a function of the devices, but simply a function of physiology. The human body is a myriad of
small gradients, and variability of readings will occur on every method of temperature measurement.
In addition, thermometers are at room temperature, nearly 30°F (17°C) cooler than the tissue being
measured. That said, it is then easily recognized how time of insertion, probe placement, and tissue
cool down all affect reproducibility of temperature readings, no matter what device is employed.

Oral Temperature

By far, the most common method of temperature measurement
is sublingual measurements. Placement of the probe under the
tongue, however, can result in substantial differences, and
caused by just a slight repositioning of the probe. The standard
heat chart commonly used by manufacturers of electronic ther-
mometers on the right illustrates a difference of nearly 2°F (1°C)
depending on exactly what area is being touched by the probe.

Differences from repeated oral temperatures can vary even further,
as they can superimpose artifactual errors over the thermal gradi-
ents. Patient activities also affect the reading, these varying by
individual and activity. In fact, one large manufacturer cautions
waiting at least 15 minutes after ingesting hot or cold food or drink,
after exposure to extremely hot or cold weather, and after smoking.

Ear Temperature

The journals abound with citations addressing the lack of reproducibility of ear thermometers. In
fact, Thermoscan instructs the user to take three separate temperature measurements, and to
select the highest of the three. While much of this has to do with the device, physiology also plays
a large part. In such a small area, the difference of 30°F (17°C) between the room temperature
probe and the temperature of the ear being measured results in a noticeable tissue cool down.
Geriatric patients typically have a lower rate of perfusion than a younger individual, and it can take
several minutes for the ear to equilibrate following the use of an ear thermometer.

Rectal Temperature

Time and placement is critical for rectal temperature measurement. It has long been recommend-
ed that the measurement be taken for at least five minutes or more for accuracy. The measure-
ment is also dependent on the depth of insertion, and just a few centimeters can result in a notice-
able difference.

Temporal Artery Temperature

Because of the expanse of area being measured, and the normally strong perfusion of the artery
in particular, temporal artery temperatures should be as reproducible as any other method. There
may be slightly more variability observed in normothermic conditions compared to febrile condi-
tions, but it is minimal. Of interest, the temporal artery area will equilibrate in the shortest period
of time compared to any other site. For absolute accuracy, however, it is recommended to wait
30-60 seconds before repeating a temperature on the same side, although, depending on the
individual, the time involved can certainly be much shorter. The limitation in time is almost entire-
ly the behind-the-ear measurement, as the perfusion rate per tissue mass is not quite as high as
the temporal artery. Since the method employs the area behind-the-ear with every measurement,
this area is the time limitation.

19

818528r5:818528r5.qxd 4/24/2008 11:04 AM Page 21

Advertising